A miniature world in decline European Red List of Mosses, Liverworts and Hornworts Nick Hodgetts, Marta Cálix, Eve Englefield, Nicholas Fettes, Mariana García Criado, Lea Patin, Ana Nieto, Ariel Bergamini, Irene Bisang, Elvira Baisheva, Patrizia Campisi, Annalena Cogoni, Tomas Hallingbäck, Nadya Konstantinova, Neil Lockhart, Marko Sabovljevic, Norbert Schnyder, Christian Schröck, Cecilia Sérgio, Manuela Sim Sim, Jan Vrba, Catarina C. Ferreira, Olga Afonina, Tom Blockeel, Hans Blom, Steffen Caspari, Rosalina Gabriel, César Garcia, Ricardo Garilleti, Juana González Mancebo, Irina Goldberg, Lars Hedenäs, David Holyoak, Vincent Hugonnot, Sanna Huttunen, Mikhail Ignatov, Elena Ignatova, Marta Infante, Riikka Juutinen, Thomas Kiebacher, Heribert Köckinger, Jan Kučera, Niklas Lönnell, Michael Lüth, Anabela Martins, Oleg Maslovsky, Beáta Papp, Ron Porley, Gordon Rothero, Lars Söderström, Sorin Ştefǎnuţ, Kimmo Syrjänen, Alain Untereiner, Jiri Váňa Ɨ, Alain Vanderpoorten, Kai Vellak, Michele Aleffi, Jeff Bates, Neil Bell, Monserrat Brugués, Nils Cronberg, Jo Denyer, Jeff Duckett, H.J. During, Johannes Enroth, Vladimir Fedosov, Kjell-Ivar Flatberg, Anna Ganeva, Piotr Gorski, Urban Gunnarsson, Kristian Hassel, Helena Hespanhol, Mark Hill, Rory Hodd, Kristofer Hylander, Nele Ingerpuu, Sanna Laaka-Lindberg, Francisco Lara, Vicente Mazimpaka, Anna Mežaka, Frank Müller, Jose David Orgaz, Jairo Patiño, Sharon Pilkington, Felisa Puche, Rosa M. Ros, Fred Rumsey, J.G. Segarra-Moragues, Ana Seneca, Adam Stebel, Risto Virtanen, Henrik Weibull, Jo Wilbraham and Jan Żarnowiec About IUCN Created in 1948, IUCN has evolved into the world’s largest and most diverse environmental network. It harnesses the experience, resources and reach of its more than 1,300 Member organisations and the input of over 10,000 experts. IUCN is the global authority on the status of the natural world and the measures needed to safeguard it. Our experts are organised into six commissions dedicated to species survival, environmental law, protected areas, social and economic policy, ecosystem management, and education and communication www.iucn.org twitter.com/IUCN IUCN – Global Species Programme The IUCN Global Species Programme supports the activities of the IUCN Species Survival Commission and individual Specialist Groups, as well as implementing global species conservation initiatives. It is an integral part of the IUCN Secretariat and is managed from IUCN’s international headquarters in Gland, Switzerland. The Species Programme includes a number of technical units including the IUCN Red List Unit, Species Trade and Use, Freshwater Biodiversity Unit (all located in Cambridge, UK), the Global Biodiversity Assessment Initiative (located in Washington DC, USA), and the Marine Biodiversity Unit (located in Norfolk, Virginia, USA). www.iucn.org/species IUCN Species Survival Commission With over 8,000 members, the Species Survival Commission (SSC) is the largest of the six expert commissions of IUCN and enables IUCN to influence, encourage and assist societies to conserve biodiversity by building knowledge on the status and threats to species, providing advice, developing policies and guidelines, facilitating conservation planning, and catalysing conservation action. Members of SSC belong to one or more of the 140 Specialist Groups, Red List Authorities, Task Forces and Conservation Committees, each focusing on a taxonomic group (plants, fungi, mammals, birds, reptiles, amphibians, fishes and invertebrates), or a disciplinary issue, such as sustainable use and livelihoods, reintroduction of species, wildlife health, climate change and conservation planning. www.iucn.org/theme/species/about/species-survival-commission twitter.com/iucnssc A miniature world in decline European Red List of Mosses, Liverworts and Hornworts Nick Hodgetts, Marta Cálix, Eve Englefield, Nicholas Fettes, Mariana García Criado, Lea Patin, Ana Nieto, Ariel Bergamini, Irene Bisang, Elvira Baisheva, Patrizia Campisi, Annalena Cogoni, Tomas Hallingbäck, Nadya Konstantinova, Neil Lockhart, Marko Sabovljevic, Norbert Schnyder, Christian Schröck, Cecilia Sérgio, Manuela Sim Sim, Jan Vrba, Catarina C. Ferreira, Olga Afonina, Tom Blockeel, Hans Blom, Steffen Caspari, Rosalina Gabriel, César Garcia, Ricardo Garilleti, Juana González Mancebo, Irina Goldberg, Lars Hedenäs, David Holyoak, Vincent Hugonnot, Sanna Huttunen, Mikhail Ignatov, Elena Ignatova, Marta Infante, Riikka Juutinen, Thomas Kiebacher, Heribert Köckinger, Jan Kučera, Niklas Lönnell, Michael Lüth, Anabela Martins, Oleg Maslovsky, Beáta Papp, Ron Porley, Gordon Rothero, Lars Söderström, Sorin Ştefǎnuţ, Kimmo Syrjänen, Alain Untereiner, Jiri Váňa Ɨ, Alain Vanderpoorten, Kai Vellak, Michele Aleffi, Jeff Bates, Neil Bell, Monserrat Brugués, Nils Cronberg, Jo Denyer, Jeff Duckett, H.J. During, Johannes Enroth, Vladimir Fedosov, Kjell-Ivar Flatberg, Anna Ganeva, Piotr Gorski, Urban Gunnarsson, Kristian Hassel, Helena Hespanhol, Mark Hill, Rory Hodd, Kristofer Hylander, Nele Ingerpuu, Sanna Laaka-Lindberg, Francisco Lara, Vicente Mazimpaka, Anna Mežaka, Frank Müller, Jose David Orgaz, Jairo Patiño, Sharon Pilkington, Felisa Puche, Rosa M. Ros, Fred Rumsey, J.G. Segarra-Moragues, Ana Seneca, Adam Stebel, Risto Virtanen, Henrik Weibull, Jo Wilbraham and Jan Żarnowiec The designation of geographical entities in this book, and the presentation of the material, do not imply the expression of any opinion whatsoever on the part of the European Commission or IUCN concerning the legal status of any country, territory, or area, or of its authorities, or concerning the delimitation of its frontiers or boundaries. The views expressed in this publication do not necessarily reflect those of the European Commission or IUCN. This publication has been prepared by IUCN with support from the IUCN Species Survival Commission and other experts. It is the product of a LIFE project funded by the European Commission (LIFE14 PRE BE 001). Project Title: Establishing a European Red List of Bryophytes, Pteridophytes, Saproxylic Beetles, Terrestrial Molluscs and Vasular Plants (LIFE European Red Lists; LIFE14 PRE BE 001) Project duration: May 2015 to September 2019 Project total costs: 1,166,667 EUR Contribution of the LIFE Programme: 700,000 EUR Co-financers of the project: National Parks and Wildlife Service, Republic of Ireland; Ministry of Economic Affairs, Department of Nature & Biodiversity (Ministerie van Economische Zaken, Directie Natuur & Biodiversiteit), the Netherlands; Council of Europe; Office fédéral de l‘Environnement, Switzerland; Swedish Environmental Protection Agency (Naturvardsverket), Sweden; British Entomological Society, United Kingdom; Ministry of Sustainable Development and Infrastructure, Government of the Grand-Duché of Luxembourg. The LIFE Programme (https://ec.europa.eu/easme/en/life) is the EU’s financial instrument supporting environmental, nature conservation and climate action projects throughout the EU. The general objective of LIFE is to contribute to the implementation, updating and development of EU environmental, nature conservation and climate policy and legislation by cofinancing projects with European added value. Published by: IUCN, Brussels, Belgium © 2019 IUCN, International Union for Conservation of Nature and Natural Resources. All rights reserved. Licenced to the European Union under conditions. Reproduction of this publication for educational or other non-commercial purposes is authorised without prior written permission from the copyright holder provided the source is fully acknowledged. Reproduction of this publication for resale or other commercial purposes is prohibited without prior written permission of the copyright holder. Citation: Hodgetts, N., Cálix, M., Englefield, E., Fettes, N., García Criado, M., Patin, L., Nieto, A., Bergamini, A., Bisang, I., Baisheva, E., Campisi, P., Cogoni, A., Hallingbäck, T.,Konstantinova, N., Lockhart, N., Sabovljevic, M., Schnyder, N., Schröck, C., Sérgio, C., Sim Sim, M., Vrba, J., Ferreira, C.C., Afonina, O., Blockeel, T., Blom, H., Caspari, S., Gabriel, R., Garcia, C., Garilleti, R., González Mancebo, J., Goldberg, I., Hedenäs, L., Holyoak, D., Hugonnot, V., Huttunen, S., Ignatov, M., Ignatova, E., Infante, M., Juutinen, R., Kiebacher, T., Köckinger, H., Kučera, J., Lönnell, N., Lüth, M., Martins, A., Maslovsky, O., Papp, B., Porley, R., Rothero, G., Söderström, L., Ştefǎnuţ, S., Syrjänen, K., Untereiner, A., Váňa, J. Ɨ, Vanderpoorten, A., Vellak, K., Aleffi, M., Bates, J., Bell, N., Brugués, M., Cronberg, N., Denyer, J., Duckett, J., During, H.J., Enroth, J., Fedosov, V., Flatberg, K.-I., Ganeva, A., Gorski, P., Gunnarsson, U., Hassel, K., Hespanhol, H., Hill, M., Hodd, R., Hylander, K., Ingerpuu, N., Laaka-Lindberg, S., Lara, F., Mazimpaka, V., Mežaka, A., Müller, F., Orgaz, J.D., Patiño, J., Pilkington, S., Puche, F., Ros, R.M., Rumsey, F., Segarra-Moragues, J.G., Seneca, A., Stebel, A., Virtanen, R., Weibull, H., Wilbraham, J. and Żarnowiec, J. (2019). A miniature world in decline: European Red List of Mosses, Liverworts and Hornworts. Brussels, Belgium: IUCN. ISBN: 978-2-8317-1993-1 (PDF) 978-2-8317-1994-8 (print) DOI: https://doi.org/10.2305/IUCN.CH.2019.ERL.2.en Design and layout: Imre Sebestyén jr. / UNITgraphics.com Printed by: Media Process S.A., Brussels Available from: IUCN (International Union for Conservation of Nature) 64 Boulevard Louis Schmidt, 1040 Brussels, Belgium brussels@iucn.org www.iucn.org/resources/publications Picture credits on cover page: Cruet Collar-moss Splachnum ampullaceum (Near Threatened moss) © Christian Schröck All photographs used in this publication remain the property of the original copyright holder (see individual captions for details). Photographs should not be reproduced or used in other contexts without written permission from the copyright holder. Printed in Belgium. The text of this book is printed on 135 gsm silk paper (300 gsm silk for the cover). This book is printed on recycled paper made from wood fibre from well-managed forests certified in accordance with the rules of the Forest Stewardship Council (FSC). Ɨ Deceased iii Contents Foreword ........................................................................................................................................................... iv Preface ................................................................................................................................................................ v Acknowledgements ............................................................................................................................................ vi Executive summary ........................................................................................................................................... vii Recommendations ...........................................................................................................................................viii 1. Background ....................................................................................................................................................1 1.1 The European context ..................................................................................................................................................... 1 1.2 European mosses, liverworts and hornworts ................................................................................................................... 1 1.3 Assessment of species extinction risk ............................................................................................................................... 7 1.4 Objectives of the assessment ........................................................................................................................................... 7 2. Assessment methodology ...............................................................................................................................9 2.1 Geographic scope ............................................................................................................................................................ 9 2.2 Taxonomic scope ............................................................................................................................................................. 9 2.3 Assessment protocol ........................................................................................................................................................ 9 2.4 Species mapping ............................................................................................................................................................ 10 3. Results .........................................................................................................................................................11 3.1 Threat status .................................................................................................................................................................. 11 3.2 Status by taxonomic group ........................................................................................................................................... 11 3.3 Spatial distribution of species ......................................................................................................................................... 14 3.4 Major threats to moss, liverwort and hornwort species in Europe .................................................................................. 18 3.5 Population trends ......................................................................................................................................................... 22 3.6 Gaps in knowledge ........................................................................................................................................................ 23 4. Conservation actions ....................................................................................................................................26 4.1 Conservation of moss, liverwort and hornwort species in Europe .................................................................................. 26 4.2 Red List versus priority for conservation action ............................................................................................................. 31 5. Recommendations .......................................................................................................................................32 5.1 Recommended actions ................................................................................................................................................... 32 5.2 Application of project outputs ....................................................................................................................................... 33 5.3 Future work .................................................................................................................................................................. 33 References .........................................................................................................................................................35 Appendix 1. List of lead assessors by geographical region .................................................................................39 Appendix 2. Example of species summary and distribution map ......................................................................39 Appendix 3. Red List status of European mosses, liverworts and hornworts .....................................................45 Appendix 4. Listing of bryophyte species under Annex II and Annex V of the Habitats Directive, Appendix I of the Bern Convention, and the Red List status on the current European Red List .......................85 IUCN Red List of Threatened Species™ – European Regional Assessment Reports ...........................................87 iv Foreword Europe has a rich natural heritage, with habitats ranging from dry Mediterranean maquis in the south to the Arctic tundra in the far north. Much of Europe’s landscape has been shaped by centuries of diverse farming and forestry traditions. As a result, a large number of agricultural and semi-natural landscapes have emerged and significantly influenced the continent’s biodiversity. Biodiversity loss as a result of human impacts is one of the major challenges that the world currently faces, and this has considerably affected valuable ecosystem services. In order to halt the loss of biodiversity, the EU Biodiversity Strategy aims to protect, value and restore biodiversity and the services it provides – Europe’s natural capital. This is important not only to protect nature for its own sake, but also for its essential contribution to human well- being and economic prosperity, and to avert catastrophic changes caused by biodiversity loss. After all, everyone will understand that we cannot act sustainably if we keep destroying nature. In recent years, awareness has risen surrounding the crucial role of plants in providing ecosystem services and on their decline – they are one of the essential foundations of healthy ecosystems that we depend on. However, significant gaps in knowledge still remain. In this context, A miniature world in decline: European Red List of Mosses, Liverworts and Hornworts provides the first-ever comprehensive assessment of the extinction risk of all native bryophyte species to Europe. With 1,817 species assessed, this assessment highlights that 22.5% of bryophyte species are threatened with extinction in Europe. Main threats to these species include land modifications such as those caused by the construction of dams and through increased frequency of fires, the impacts of climate change as well as agricultural and forestry practices, such as the conversion of natural forest to plantation woodland. While 88.2% of species are recorded in at least one protected area (whether it is a national park, Natura 2000 site or nature reserve), eight species are already lost from Europe, and so it is clear that we continue to have a responsibility to conserve these unique species to prevent further extinctions in our region. By comparison to European bryophytes, 2% of medicinal plants, 8% of aquatic plants, 16% of crop-wild relatives, 20% of ferns and lycopods, 42% of trees and 57% of “policy plants” (listed under European or international policy instruments) are threatened, ranking bryophytes third as the most threatened group of plant species assessed so far. Immediate action must be taken in order to improve the status of European bryophytes. A multidisciplinary approach needs to be established; while species and protected area management are key, the proper implementation of the existing European legislation will be crucial in providing protection to the species, including the EU Birds and Habitats Directive. I hope that this new IUCN European Red List will help place plants higher on the conservation agenda as well as inform the wider debate and contribute to the discussion on priorities within the conservation community. A network of bryophyte experts is already in place, therefore more investment in scientific research, and increasing awareness and communications will help towards the delivery of real results and positive impacts for these species. Humberto Delgado Rosa Director for Natural Capital DG Environment, European Commission vPreface This publication has been prepared by IUCN (International Union for Conservation of Nature) as a deliverable of the LIFE European Red Lists project (LIFE14 PRE BE 001). A miniature world in decline: The European Red List of Mosses, Liverworts and Hornworts is, therefore, a part of a series of publications released since 2015, when the project began, that also include: • European Red List of Lycopods and Ferns, 2017 • European Red List of Saproxylic Beetles, 2018 • European Red list of Terrestrial Molluscs: slugs, snails, and semi-slugs, 2019 • European Red list of Trees, 2019 • European Red list of Selected Endemic Shrubs, 2019 Based on other European Red List assessments, 59% of freshwater molluscs, 40% of freshwater fishes, 28% of grasshoppers, crickets and bush-crickets, 23% of amphibians, 20% of reptiles, 20% of ferns and lycopods, 17% of mammals, 16% of dragonflies, 13% of birds, 9% of butterflies and bees, 8% of aquatic plants and 2% of medicinal plants are threatened at the European level (Allen et al., 2014; IUCN, 2015; Hochkirch et al., 2016; García Criado et al., 2017). Additional European Red Lists assessing a selection of species showed that 22% of terrestrial molluscs, 16% of crop wild relatives and 18% of saproxylic beetles are also threatened (Cuttelod et al., 2011; Bilz et al., 2011; Cálix et al., 2018). The findings of this work suggest that 23% of bryophytes are threatened species in Europe, representing the fifth most threatened group of plants assessed so far. Lindenberg’s featherwort Adelanthus lindenbergianus (Endangered liverwort) © Rory Hodd vi Acknowledgements All of IUCN’s Red Listing processes rely on the willingness of scientists to contribute and pool their collective knowledge to make the most reliable estimates of the status of a species. Without their enthusiastic commitment to species conservation, this kind of regional overview would not be possible. Bryophytes are no exception, and the knowledge mobilized through the Europe-wide network of members of the European Committee for the Conservation of Bryophytes (ECCB) has been pivotal to the completion of this Red List. We are therefore indebted for their support and contributions. Thanks go to the Red List Unit, in particular Caroline Pollock, David Allen, Jemma Window, Kate Harding and Anna Puttick for their support in the coordination of the European Red List of Mosses, Liverworts, and Hornworts. Anna Rosenberg and Corinna Karlsen provided substantial assistance with financial management of the project. A word of thanks goes to Marc Hall for his support on communication-related matters. We are also grateful to the many photographers, who provided photos for the species assessments and the photos in this publication. We also thank Craig Hilton-Taylor and Malin Rivers for peer-reviewing this publication. The European Red List of Mosses, Liverworts and Hornworts, and consequently this publication, are required as part of a LIFE project funded by the European Commission and other donors (LIFE14 PRE BE 001 – LIFE European Red Lists). In particular, we would like to thank Frank Vassen (European Commission) and the LIFE monitors, particularly Kristijan Civic, for their support throughout the project, allowing for a smooth implementation. vii Executive summary Aim This Red List is a summary of the conservation status of the European species of mosses, liverworts and hornworts, collectively known as bryophytes, evaluated according to IUCN’s Guidelines for Application of IUCN Red List Criteria at Regional Level. It provides the first comprehensive, region-wide assessment of bryophytes and it identifies those species that are threatened with extinction at a European level, so that appropriate policy measures and conservation actions, based on the best available evidence, can be taken to improve their status. Scope All bryophytes native to or naturalised in Europe (a total of 1,817 species), have been included in this Red List. In Europe, 1,796 species were assessed, with the remaining 21 species considered Not Applicable (NA). For the EU 28, 1,728 species were assessed, with a remaining 20 species considered NA and 69 species considered Not Evaluated (NE). The geographical scope is continent- wide, extending from Iceland in the west to the Urals in the east, and from Franz Josef Land in the north to the Canary Islands in the south. The Caucasus region is not included. Red List assessments were made at two regional levels: for geographical Europe and for the 28 Member States of the European Union. Results Overall, 22.5% of European bryophyte species assessed in this study are considered threatened in Europe, with two species classified as Extinct and six assessed as Regionally Extinct (RE). A further 9.6% (173 species) are considered Near Threatened and 63.5% (1,140 species) are assessed as Least Concern. For 93 species (5.3%), there was insufficient information available to be able to evaluate their risk of extinction and thus they were classified as Data Deficient (DD). The main threats identified were natural system modifications (i.e., dam construction, increases in fire frequency/intensity, and water management/use), climate change (mainly increasing frequency of droughts and temperature extremes), agriculture (including pollution from agricultural effluents) and aquaculture. Exormotheca welwitschii (Endangered liverwort) © Michael Lüth viii Recommendations Policy measures • Use the European Red List as the scientific basis to inform regional/national lists of rare and threatened species and to identify priorities for conservation action in addition to the requirements of the Habitats Directive, thereby highlighting the conservation status of bryophytes at the regional/local level. • Use the European Red List to support the integration of conservation policy with the Common Agricultural Policy (CAP) and other national and international policies. For example, CAP Strategic Plans should include biodiversity recovery commitments that could anticipate, among others, the creation of Important Bryophyte Areas. An increased involvement of national environmental agencies in the preparation of these strategic plans, and more broadly in ongoing discussions on the Future CAP Green Architecture, would likely also ensure the design of conservation measures better tailored to conserve bryophytes in agricultural landscapes. • Update the European Red List every decade to ensure that the data remains current and relevant. • Develop Key Biodiversity Areas for bryophytes in Europe with a view to ensuring adequate site-based protection for bryophytes. Research and monitoring • Use the European Red List as a basis for future tar- geted fieldwork on possibly extinct and understudied species. • Establish a monitoring programme for targeted spe- cies (for example, threatened species and/or arable bryophytes). • Use the European Red List to obtain funding for re- search into the biology and ecology of key targeted species. Action on the ground • Use the European Red List as evidence to support multi-scale conservation initiatives, including designation of protected areas, reform of agricultural practices and land management, habitat restoration and rewilding, and pollution reduction measures. • Use the European Red List as a tool to target species that would benefit the most from the widespread implementation of the solutions offered by the 1991 Nitrates Directive (Council Directive 91/676/ EEC), including the application of correct amounts of nutrients for each crop, only in periods of crop growth under suitable climatic conditions and never during periods of heavy rainfall or on frozen ground, and the creation of buffer zones to protect waters from run-off from the application of fertilizers. Ex situ conservation • Undertake ex situ conservation of species of conservation concern in botanic gardens and spore and gene banks, with a view to reintroduction where appropriate. 11. Background 1.1 The European context Europe is the world’s second smallest continent in terms of area after Australia, covering approximately 10.4 million km², or 2% of the Earth’s surface. In terms of human population, Europe is the third largest continent (after Asia and Africa) with a population of around 546 million (UN DESA, 2018) – about 13% of the world’s population. Therefore, Europe is one of the smallest and one of the most densely populated continents in the world. The European Union (EU), consisting of 28 Member States (EU 28), is Europe’s largest political and economic entity. The ecological footprint of the EU 28 has been estimated to exceed the region’s biological capacity (the total area of cropland, pasture, forest, and fishing grounds available to produce food, fibre and timber, and absorb waste) by 2.6 times (EEA, 2015). Europe has a great diversity of landscapes and habitats and a wealth of flora and fauna. For example, the Mediterranean Basin, which is especially rich in plant and animal species, many of them endemic to that region, has been recognised as a global biodiversity hotspot (Mittermeier et al., 2004; Cuttelod et al., 2008). The European continent has a highly fragmented landscape, and up to 80% of land in Europe is currently used for settlement, industry, production systems (including agriculture and forestry) and infrastructure (EEA, 2006; Pedroli & Meiner, 2017). Consequently, European species are to a large extent dependent upon habitats created and maintained by human activity, and many are affected by overexploitation, pollution and the impacts of invasive alien species. Additionally, climate change is becoming an increasingly serious threat. Europe is a diverse region and the relative importance of different threats varies widely across its biogeographic regions and countries. Although considerable efforts have been made to protect and conserve European habitats and species (see Sections 4.1 and 4.2), and the Natura 2000 network of protected areas covers more than 18% of the EU terrestrial territory, biodiversity decline and the associated loss of vital ecosystem services (such as water purification, pollination, flood protection and carbon sequestration) continues to be a major concern in the region. 1.2 European mosses, liverworts and hornworts Bryophytes are a large, diverse group of plants. According to Villareal et al. (2010), there are between 18,000 and 23,000 described species worldwide, comprising about 11,000-13,000 mosses, 7,000-9,000 liverworts and 200- 250 hornworts, making them second only to flowering plants in terms of species richness. This could, however, be an underestimate, with molecular studies revealing ‘new’ species all the time. Each of the three groups of bryophytes has been traditionally considered to be a separate phylum (or division): Bryophyta (mosses), Marchantiophyta (liverworts) and Anthocerotophyta (hornworts) (Frey & Stech, 2009), although the latest evidence, with increasing support, suggests that mosses and liverworts form a clade, termed “Setaphyta” (Puttick et al., 2018). Nevertheless a number of biological and ecological characters are common to the three groups: They are small (rarely larger than a few centimeters), unable to produce lignin (they cannot become woody), have their life cycle dominated by the gametophyte (rather than the sporophyte) generation – see Box 1 - and are able to dry out completely in dry periods, quickly resuming their metabolism when rewetted. They fulfill a range of important ecological functions, particularly in water retention, soil-building and in their relationships with other organisms. For example, bog-moss (Sphagnum spp.) is one of the most important plants, and certainly the most important peat producer in the world, locking away an enormous amount of carbon and holding vast quantities of water: bogs are essentially huge sponges. Bryophytes, particularly epiphytes, are also great indicators of air pollution. Bryophytes show a vast range of specific sensitivity and visible symptoms to pollutants greatly exceeding that of higher plants (Govindapyari et al., 2010). Mosses The most species-rich of the three main groups of bryophytes, mosses, encompasses a wide range of forms. ‘Typical’ mosses (class Bryopsida) are mostly small, 2Box 1 - The life history of bryophytes What distinguishes bryophytes collectively from all other land plants is that their life cycle is dominated by the gametophyte generation; that is, by the haploid or sexual phase, as opposed to the diploid, spore-producing phase. In contrast, all flowering plants, conifers and ferns are dominated by the sporophyte generation, with the gametophyte much reduced, often to just a few cells. In other words, the main plant that one sees, the leafy green part, that is mainly photosynthetic, is the gametophyte in bryophytes, whereas it is the sporophyte in all other plants. The bryophyte sporophyte is usually reduced to a spore-producing, stalked capsule that remains attached to the gametophyte, and is entirely dependent on it for sustenance. Figure 1. The life cycle of a bryophyte © MADBRYO initiative The spore is the first stage in the haploid gametophyte generation, with a single set of unpaired chromosomes. Spores germinate into a green protonema, from which the mature gametophyte grows, either producing a structure with a stem and leaves (as in mosses and leafy liverworts) or a structure with no differentiation, usually a flat plate of tissue called a thallus (as in thallose liverworts and hornworts). The gametophyte produces (either on the same plant [bisexual, Figure1] or on separate plants [unisexual, Fig. 1]) male and female sex organs (antheridia and archegonia, respectively). The antheridia produce sperm, which swim in a film of water to the archegonia. In each archegonium only a single egg cell is found which may be fertilized by a sperm cell. If fertilization has been successful, i.e. if male and female elements of the gametophyte have fused, a new sporophyte starts to develop. The sporophyte relies largely on the gametophyte for its nutrition. At maturity it eventually produces spores by the process of meiosis, the kind of cell division that halves the number of chromosomes. In other words, the brief reign of the sporophyte is over, and a new gametophyte generation is ready to develop. While there is a lot of variation in the detail of how bryophytes conduct their life cycle, they all conform to this basic pattern. In addition, many of them produce specialised asexual reproductive organs, such as gemmae, which circumvent the sporophyte generation entirely, simply replicating the gametophyte parent. In addition, all bryophytes are to some extent totipotent: they can regenerate from fragments, or even single cells, making them great survivors. 3rather delicate, often translucent plants that absorb water and nutrients externally, over their entire surface. The sporophyte consists of a capsule in which the spores are produced supported by a stalk (seta). When mature, the capsule releases its spores through an opening at the top, which is usually surrounded by a ring of tooth-like structures (the peristome). Not all mosses conform to this general template. There are a few groups of mosses that are so distinctive they are put in their own classes within the Bryophyta. Most obviously, and certainly most importantly, are the bog- mosses, the genus Sphagnum (class Sphagnopsida) with 61 species in Europe. They differ from typical mosses in almost every respect, except for the dominance of the gametophyte generation. Its unique cell structure allows Sphagnum to take up water quickly by capillary action, and release it only very slowly, like a sponge. Other features of its physiology and morphology make it possible for Sphagnum to dominate entire landscapes, as in the extensive boglands of northern Europe, which store tremendous amounts of peat built by thousands of years of Sphagnum growth. A further oddity among the mosses is Andreaea (rock- moss, class Andreaeopsida), tiny black or very dark red-brown tufts on acid rocks in the mountains, with a capsule that splits into four lobes joined at the top, a bit like a miniature Japanese lantern. Then there are the haircap mosses, the genus Polytrichum and its allies (class Polytrichopsida). As well as having a distinctive spore capsule, these plants have an internal conduction system somewhat analogous to the xylem and phloem of vascular plants, enabling them to grow much bigger than ‘ordinary’ mosses, and shoots of Polytrichum are capable of attaining heights of half a metre or even more. A) Five-ranked Bog-moss Sphagnum quinquefarium (Least Concern moss) © Christian Schröck, B) snow rock-moss Andreaea nivalis (Near Threatened moss) © Michael Lüth, C) Polytrichum commune (Least Concern moss) © Fred Rumsey, D) Oedipodium griffithianum (Near Threatened moss) © Vladimiar Fedosov A C B D 4Another couple of small classes, the Oedipodiopsida and the Tetraphidopsida, differ fundamentally from the Bryopsida in features of the sporophyte, but have few species. Liverworts A less species-rich group than mosses, yet showing a greater range of forms, liverworts can be subdivided into leafy (class Jungermanniopsida) and thallose (class Marchantiopsida), plus a group of rather anomalous plants that show features of both leafy and thallose liverworts (class Haplomitriopsida, with only a single species in Europe). Leafy liverworts are especially diverse in the form of the leaves, which range from entire and rounded, through simply bilobed or trilobed, to deeply divided into filaments or asymmetrically divided so that one lobe is larger than the other, or even modified into a tiny pocket or helmet-shaped structure. Furthermore, while leafy liverworts typically have two rows of main (lateral) leaves running down opposite sides of the stem, many species have an additional row of leaves on the under-surface of the stem (underleaves, or amphigastria): these are usually smaller than the lateral leaves, and often quite different in shape. The form of the sporophyte is relatively uniform among the liverworts, although there is great variation in the various gametophytic structures that support and protect it. Unlike mosses, where the spore capsule and seta mature slowly together, and then spores are released gradually, the liverwort capsule matures inside a protective sheath (usually a structure derived from modified leaves called a perianth), and is raised up on a seta only when ready to release its spores. The seta therefore grows at a tremendously fast rate, by sudden elongation of its cells, and forms a delicate, ephemeral structure which lasts just long enough for the mature capsule to release all its spores at once. Hornworts The least species-rich group of bryophytes, the hornworts, superficially resemble thallose liverworts, but are not closely related. They probably emerged as a group at about the same time as the other bryophytes, in the Ordovician period about 470 million years ago, or even earlier (Morris et al., 2018), but whether they were even then part of the same taxonomic group as other bryophytes is still a matter for research. They have an unusual combination of features, some shared with other bryophytes, some having more in common with vascular plants or algae. For example, the thallus cells contain just one large chloroplast, while the sporophyte, which is a long narrow structure with no differentiation into seta and capsule, has stomata. Hornworts reach their greatest diversity in the tropics, with only a small handful of species occurring in Europe. Nonetheless, certain species can be locally abundant given the right conditions. Distribution, habitats and ecology Bryophytes occur on all continents and in many different habitats except in the sea. They are almost ubiquitous, growing even in very dry semi-deserts, but require some moisture, at least at some stages of their life cycle. Unlike vascular plants, most species are poorly equipped to regulate their water content internally, instead drying out and rewetting rapidly according to external conditions A) Mannia triandra (Vulnerable liverwort) © Christian Schröck, B) Phaeoceros carolinianus (Near Threatened hornwort) © Michael Lüth A B 5(poikilohydric). This means that they are often luxuriant in moist forest and in high rainfall areas. Bryophytes absorb water, along with the minimal amounts of nutrients they require, over their entire surface from the surrounding environment, rather than taking it up through roots and a vascular system. However, many bryophytes, and most of the European bryophytes, have a physiology that allows them to dry out completely in the absence of moisture, suspend physiological activity, and then ‘come back to life’ when wetted again. Different species do this to different degrees, but herbarium specimens of the great hairy screw-moss (Syntrichia ruralis) were recently found to have retained their vitality after over 20 years dried in a packet (Stark et al., 2016), and there are unsubstantiated anecdotes about much longer periods of survival in the herbarium. Many species which grow directly on rock in exposed conditions (Grimmia, Didymodon, etc.) dry out and rehydrate virtually on a daily basis, particularly in warmer climates; this is their strategy for enduring drought. This contrasts with most vascular plants, which could not survive this level of dehydration. Bryophytes have several ecological attributes that are very distinctive: • They are poikilohydric, i.e., they dry out and rewet rapidly according to external conditions. • They grow in ‘microhabitats’: whether they grow in woodland, heathland or grassland is less important than the immediate micro-environment, such as a rock crevice or a moist patch of soil. • A large proportion of species are colonists, and therefore form pioneer communities and assemblages. There are, for example, many short-lived ruderal (weedy) species that colonise bare ground, disappearing as vegetational succession proceeds. • Many species are very efficient at dispersal, with spores and vegetative propagules potentially capable of travelling worldwide in the air or via vectors such as migratory birds. • Due to the latter, levels of endemism are low (in Europe, ca. 10% compared to ca. 28% vascular plants; Patino & Vanderpoorten, 2018), but levels of disjunction are high (for example, a species may occur in western Europe, the Himalayas and British Columbia). • Those species that are less efficient at dispersal often have large spores that can remain viable in the soil for a long time. • They are often excellent ecological indicators (for example, of nutrient status or pH). Ecosystem services and commercial use The ecosystem services that bryophyte species provide might not be conspicuous, but investigation soon shows us that these small plants, useless as food or building materials, are actually of vital importance. In particular, there are three main features of bryophytes that make them important in the ecosystem: Grimmia mollis (Vulnerable moss) © Michael Lüth 6 • Their ability to retain water. All bryophytes act to some extent as sponges, taking up water rapidly, holding it, and releasing it only slowly. This is most obvious in bog-moss Sphagnum, which dominates vast areas of mire in northern Europe. On hillsides and hilltops, Sphagnum is an important stabilising influence in areas with heavy rainfall. A similar effect is seen in forest ecosystems. A substantial part of the water-holding capacity of forests is bound up in the bryophytes, and when it is clear-felled, the resultant erosion, flooding and destabilisation is at least partly because the bryophytes have been removed from the landscape along with the trees. • They are efficient colonisers and stabilisers of bare substrates. When natural erosion occurs, bryophytes are usually the first plants to appear on the newly exposed surfaces. After volcanic eruptions, bryophytes are the first to colonise the cooling lava flows. In post- industrial landscapes, and in urban habitats more generally, bryophytes often build up thick carpets over crumbling concrete and tarmac, trapping detritus, building new soils, providing rooting substrates for larger plants and ultimately the basis for entire new ecosystems. • They serve as hosts for blue-green algae (cyanobacteria), which have an important role in nitrogen (N) fixation, and provide a major source of N for boreal ecosystems (for example, Ackerman, 2013). It is likely that epiphytic cyanobacteria are a key factor in determining the abundance of feather mosses across the boreal biome (Zacckrissson et al., 2019). Additionally, they provide habitats for other organisms; seed-beds for vascular plants, shelter and food for invertebrates, nesting material for birds and small mammals. Bogs in particular form entire ecosystems fundamentally dependent on bryophytes. Sphagnum mosses are used commercially - peat is (or has been, historically) burned for fuel. However, this has rarely been done in a sustainable way, and several countries have established peat-burning power stations, which have had a devastating effect on peatlands. It has also been used as a mildly antiseptic dressing for wounds (it was harvested for this purpose during the First World War), and as an absorbent material in babies’ nappies. Bryophytes are harvested commercially (sustainably or otherwise) for horticultural purposes such as packing material for bulbs or a water-retentive substrate for hanging baskets. Sphagnum harvested for horticultural purposes is also not usually sustainable. A more modern use is that of mosses, particularly the Habitats Directive The procession of ‘moss men’ in Béjar, Spain, commemorating the use of moss as camouflage in battles during the 12th century by local Christians © Eloy Díaz-Redondo 7Annex V Leucobryum, for ‘moss walls’ and other ‘green’ architectural purposes. Other commercial uses are largely historical or minor: Polytrichum commune for brooms, mosses as insulation for homes, decorative garlands and even clothing for the famous ‘moss men’ of Béjar in Spain. 1.3 Assessment of species extinction risk The conservation status of plants, animals and fungi is one of the most widely used indicators for assessing the condition of ecosystems and their biodiversity. At the global scale, the primary source of information on the extinction risk of plants and animals is The IUCN Red List of Threatened SpeciesTM (www.iucnredlist.org), which contributes to understanding the conservation status of assessed species. The IUCN Red List Categories and Criteria (IUCN, 2012a) are designed to determine the relative risk of extinction of a taxon, with the main purpose of cataloguing and highlighting those taxa that are facing a high risk of extinction. The IUCN Red List Categories are based on a set of quantitative criteria linked to population trends, size and structure, threats, and geographic ranges of species. When conducting regional or national assessments, the IUCN Red List Regional Guidelines (IUCN, 2012b) are applied to assign the IUCN Red List Categories (Figure 2). As the extinction risk of a species can be assessed at global, regional or national levels, a species may have a different Red List Category on the global Red List than on the regional Red List. Logically, an endemic species should have the same Category at regional and global levels, as it is not present anywhere else in the world. 1.4 Objectives of the assessment The European Red List of Mosses, Liverworts and Hornworts has four main objectives: • to contribute to regional conservation planning through provision of a baseline dataset reporting the conservation status of European bryophyte species; • to identify those priority geographic areas and habitats needing to be conserved to prevent extinctions and to ensure that European bryophytes reach and maintain a favourable conservation status; • to identify the major threats and to propose potential mitigating measures and conservation actions to address them; • to strengthen the network of experts focused on bryophyte conservation in Europe, so that the assessment information can be kept current and expertise can be targeted to address the highest conservation priorities. Figure 2. The IUCN Red List Categories at the regional scale. 8The assessment provides three main outputs: • summary reports on the status of all 1,817 European bryophyte species; • a freely available database holding the baseline data on the status and distribution of European bryophytes; • a website and data portal (http://ec.europa.eu/ environment/nature/conservation/species/redlist and www.iucnredlist.org/initiatives/europe) showcasing these data in the form of species factsheets for all European bryophytes included in this study, along with background and other interpretative material. • This Red List provides the first comprehensive, region-wide assessment of bryophytes and builds on the previous work of the European Committee for the Conservation of Bryophytes (ECCB). The enormous amount of new fieldwork, data and knowledge accumulated since then means that it should be much more robust and authoritative. Efforts will continue to update the database which will also be made freely and widely available. Matted bryum Bryum calophyllum (Endangered moss) © Neil Lockhart 92. Assessment methodology 2.1 Geographic scope The geographic scope is continent-wide, extending from Iceland in the west to the Urals in the east (including European parts of the Russian Federation), and from Franz Josef Land in the north to the Mediterranean in the south (Figure 3). The Canary Islands, Selvagens, Madeira, the Azores, Malta and Cyprus are also included. In the southeast, the Caucasus region and Anatolia are excluded. Red List assessments were made at two regional levels: 1) for geographical Europe (limits described above); and 2) for the area of the 28 Member States of the European Union (EU 28) (as of 2018). 2.2 Taxonomic scope The European Red List of Mosses, Liverworts and Hornworts has assessed the status of all bryophyte species considered native to or naturalised in Europe. The original list of species was based on Hodgetts (2015), which was in turn based on Hill et al. (2006) for the mosses and Söderström et al. (2007) for the liverworts and hornworts. The inclusion of newly described or species which have undergone taxonomic change (up to the end of 2018) was undertaken following consultation with the relevant experts. When there were discrepancies in the identity of a species, consultation was sought among the different specialists and decisions were made through consensus. 2.3 Assessment protocol For all the bryophyte species assessments, the following data were compiled: • taxonomic classification and notes • geographic range and list of countries of occurrence (including a range map) Figure 3. European assessment boundaries: regional assessments were made for two areas: geographical Europe and the EU 28. 10 • population information and overall population trends • habitat preferences and primary ecological requirements, including pertinent biological information (for example, generation length, maximum size and age, etc.) • species use and trade • major threats • research needs • conservation measures (in place and needed) • IUCN Red List Category and Criteria and rationale • key literature references Some critical terms like ‘mature individual’, ‘generation length’, and ‘severely fragmented’ had to be interpreted in a pragmatic way so that they became applicable to bryophytes. Work over several years (for example, Hallingbäck et al., 1998) and collaboration with the IUCN under this project, has culminated in a paper addressing these issues (Bergamini et al., 2019)1. The task of collecting the initial data was divided geographically between 11 Assessors (Appendix 1), and information on each species was based on published and unpublished data and expert knowledge. The IUCN Species Information Service (SIS) was used to enter and store all species data. A training workshop was held in October 2015 in Paris (France) in order to train the experts on the IUCN Red List methodology. After the preliminary information was collected by the Lead Assessors, five assessment workshops were held to review and discuss the assessments and distribution maps, add new information to the assessments, and agree on the final IUCN Red List Category and Criteria for each species. The workshops took place at the Faculty of Sciences of the University of Lisbon (Portugal; December 2016), the Ministry of Environment of the Czech Republic (Prague; January 2017), the IUCN European Regional Office in Brussels (Belgium; February 2017), the National Botanical Gardens of Ireland (Dublin; April 2017), and ArtDatabanken at the Swedish University of Agricultural Sciences (Uppsala, June 2017). In addition, some discussions on the methodology were held at an external workshop in Ekenäs (Sweden). Overall, 60 experts participated in the assessment workshops. 1 The recommendations from this paper will need to be formally considered by the IUCN SSC Red List Standards and Petitions Committee, and if approved, incorporated into a future update of the Red List Guidelines. For the purposes of this project and for the publication of the assessments on the IUCN Red List website, the modified approach has been provisionally approved. Following the workshops, the information was edited and any remaining questions were resolved through communications with the Lead Assessors. An additional peer-review process was carried out, with all assessments checked by external Reviewers who had not been previously involved in the assessment process. Consistency in the use of IUCN Categories and Criteria was systematically checked by IUCN staff. The resulting finalised IUCN Red List assessments are a product of scientific consensus concerning species status and are supported by relevant literature and data sources (see example in Appendix 2). The final list of species is found in Appendix 3. 2.4 Species mapping Distribution data were mainly obtained from published literature, herbarium specimens, internet sources (for example, GBIF) and several global and regional citizen science projects. The species experts provided the distribution data to the Ministry of Environment of the Czech Republic (MZP) where Jan Vrba compiled the data in order to produce the final distribution maps. Range maps were created using the distribution data available, which varied in terms of quality; for some regions, distributional data were available as point locality data (latitude/longitude) or in grid cell format, and were therefore spatially precise. Where point or grid data were available, these were projected in a Geographical Information System (GIS) (ESRI ArcMap). Polygons were then drawn manually, clustering occurrence data where appropriate. In some rare cases where no point data was available and it was only possible to assign presence at the country level, the distribution was mapped for the whole country. The spatial analyses presented in this publication (see section 3.3) were done using a geodesic discrete global grid system, defined on an icosahedron and projected to the sphere using the inverse Icosahedral Snyder Equal Area (ISEA) Projection (S39). This corresponds to a hexagonal grid composed of individual units (cells) that retain their shape and area (864 km²) throughout the globe. These are more suitable for a range of ecological applications rather than the most commonly used rectangular grids (S40). The known current distributions (IUCN, 2014) of extant and possibly extant species were converted to the hexagonal grid for the purposes of the analysis. Coastal cells were clipped to the coastline. 11 3. Results 3.1 Threat status At the European level, 22.5% of bryophyte species are considered threatened (i.e., assessed as having an elevated risk of extinction). However, the proportion of threatened species is uncertain given the number of Data Deficient (DD) species and could lie between 21.4% (if all DD species are not threatened) and 26.6% (if all DD species are threatened) for Europe (IUCN, 2011; Table 1). The mid-point figure provides the best estimation of the proportion of threatened species (IUCN, 2011). In the EU 28, 24.3% of species are considered to be threatened, with the proportion of threatened species lying between 23.1% (if all DD species are not threatened) and 27.9% (if all DD species are threatened, Table 1). Appendix 3 provides an exhaustive list of all bryophyte species assessed under the current European Red List and corresponding conservation status in Europe, EU28 also indicating if the species is endemic or not to Europe. In Europe, six species (0.3%) are assessed as Regionally Extinct, with two endemic species assessed as Extinct (0.1%). 59 species (3.3%) are Critically Endangered, 143 species (8%) are Endangered, and 180 species (10%) are Vulnerable (Table 2). A further 173 species (9.6%) are classified as Near Threatened. For 93 species (5.2%) there were insufficient data to evaluate their risk of extinction and so they were classified as Data Deficient (Table 2, Figure 4). There were 21 species that were classed as Not Applicable in Europe (species introduced after AD 1500 or species of marginal occurrence). As more data become available and taxonomic issues are clarified, it is possible that some of these species may also prove to be threatened. In the EU 28, six species (0.3%) are assessed as Regionally Extinct, two are assessed as Extinct (0.1%). 65 species (3.8%) are Critically Endangered, 150 species (8.7%) are Endangered, and 183 species (10.6%) are Vulnerable. A further 173 species (10%) are classified as Near Threatened. For 82 species (4.8%) in the EU 28 there were insufficient data to evaluate their risk of extinction and so they were classified as Data Deficient (Table 2, Figure 4). Not Evaluated refers to species occurring at the European level that did not occur within the EU Member States (for example, only occurs in European Russia). 3.2 Status by taxonomic group Table 3 presents the status of European bryophyte species organised by major group, split into mosses, liverworts and hornworts. It is not considered useful to break it down further into orders or families because the higher classification of bryophytes is continually changing with ongoing research. A stable consensus on the higher classification of bryophytes will probably not be reached for several years. There are many more species of mosses (1,327) than liverworts (461) and hornworts (8) in Europe. The percentages of species in different threat categories are similar for mosses and liverworts. This similarity may reflect the fact that there is nothing particularly distinctive about their ecology or distribution that may influence extinction risk. Instead, different life strategies and ecologies are spread widely throughout both liverworts and mosses, with plants in closely related genera and families often having quite different ecological requirements. The percentage figure for hornworts cannot be directly compared with that for mosses or liverworts because there are only eight species occurring in Europe. Of these, only two species are considered endangered in Europe. Table 1. Proportion of threatened mosses, liverworts and hornworts in Europe and EU 28.   Europe% species threatened EU 28 % species threatened Lower bound (CR+EN+VU) / (assessed – EX) 21.4 23.1 Mid-point (CR+EN+VU) / (assessed – EX – DD) 22.5 24.3 Upper bound (CR+EN+VU+DD) / (assessed – EX) 26.6 27.9 12 Figure 4. IUCN Red List status of mosses, liverworts and hornworts in Europe. Figure 5. IUCN Red List status of mosses, liverworts and hornworts in the EU 28. Table 2. Summary of numbers of mosses, liverworts and hornworts within each Red List Category. Numbers of endemic species are shown in brackets IUCN Red List Categories No. species Europe (no. endemic species) No. species EU 28 (no. endemic species) Extinct (EX) 2 (2) 2 (2) Extinct in the Wild (EW) 0 (0) 0 (0) Regionally Extinct (RE) 6 (0) 6 (0) Critically Endangered (CR) 59 (18) 65 (15) Endangered (EN) 143 (40) 150 (28) Vulnerable (VU) 180 (36) 183 (25) Near Threatened (NT) 173 (33) 173 (22) Least Concern (LC) 1140 (45) 1067 (13) Data Deficient (DD) 93 (17) 82 (11) Total number of species analysed 1,796 (191) 1,728 (116) Not Applicable (NA) 21 (0) 20 (0) Not Evaluated (NE) - 69 (0) Total number of species considered 1,817 (191) 1,817 (116) Table 3. IUCN Red List status (at the European level) of mosses, liverworts and hornworts. Total CR EN VU NT LC DD EX or RE Best estimate of % threatened* Mosses 1,327 43 (3.2%) 103 (7.8%) 137 (10.3%) 120 (9.0%) 853 (64.3%) 64 (4.8%) 7 (0.5%) 22.5 Liverworts 461 16 (3.5%) 38 (8.2%) 43 (9.3%) 51 (11.1%) 283 (61.4%) 29 (6.3%) 1 (0.2%) 22.5 Hornworts 8 0 2 (25.0%) 0 2 (25.0%) 4 (50.0%) 0 0 25.0 Total 1,796 59 (3.3%) 143 (8.0%) 180 (10.0%) 173 (9.6%) 1,140 (63.5%) 93 (5.2%) 8 (0.4%) 22.5 *The percentage of threatened species provides the mid-point figure as the best estimation of extinction risk. In addition, 21 NA species were not included in this table. 9.6 10 8 EN VU NT LC DD RE EX 3.3 0.3 0.1 63.5 5.3 CR 10 10.6 8.7 EN VU NT LC DD RE EX 3.8 0.3 0.1 61.7 4.8 CR 13 False dog-tooth Cynodontium fallax (Near threatened moss) © Tomas Hallingbäck Polytrichum juniperinum (Least Concern moss) © Lars Hedenäs 14 3.3 Spatial distribution of species 3.3.1. Species richness The geographic distribution of bryophyte richness in Europe is shown in Figure 6 and is based on all native and naturalised species (post 1500 AD) with extant and possibly extant occurrence (1,796 species). The areas with the highest species richness include central Europe, namely mountainous areas in the Alps, and to some degree in Scandinavia, Scotland, Wales, Pyrenees, and Eastern Europe, including the Carpathians. Species richness gradually declines towards the south and the east of Europe. It is clear that mountainous areas score most highly in terms of species richness. While there is some overlap of species, each of these areas has its own distinctive character, with the Scottish mountains, for example, supporting a high diversity of Atlantic species, in contrast to the Austrian Alps, where the flora is more continental (see Box 2). 3.3.2. Endemic and near-endemic species richness In Figure 7, the richness of endemic European bryophyte species is shown based on the presence of 184 species (the analysis does not include species where their presence is uncertain). The incidence of endemic species is fairly constant throughout most of Europe, with an increase in hyperoceanic and mountainous areas, particularly Macaronesia. Levels of endemism are low in bryophytes, relative to vascular plants, although recent studies are revealing an increasing number of previously unrecognised endemic species (for example, Carter et al,. 2016, Patino & Vanderpoorten, 2018). It is therefore more instructive to look at areas where there is high diversity and large numbers of ecologically specialised, disjunct and near- endemic species. Thus, the hyperoceanic parts of Europe, including Macaronesia, western Britain, Ireland, Norway, France (Brittany) and north-western Spain, support rich communities of oceanic species, few of which are endemic (except in Macaronesia) but many are globally rare and disjunct, elsewhere occurring only in widely-spaced but climatically similar areas, such as Yunnan in China and British Columbia in Canada (for example, Blockeel et al., 2014). This is largely because of the very efficient dispersal mechanisms in bryophytes, although some isolated and disjunct populations may be relict. For example, the large liverwort Anastrophyllum alpinum occurs in north-west Figure 6. Species richness of European mosses, liverworts and hornworts. 15 Scotland, and elsewhere only in the Himalayas, Yunnan and the Aleutian Islands. Similarly, southern Europe supports a distinctive Mediterranean flora with many species restricted to the Mediterranean basin, but not necessarily endemic to Europe, occurring also in North Africa, Turkey and adjacent countries (for example, Ros et al., 2013). The tiny moss Acaulon fontiquerianum is a rare species of southern Europe and the Canary Islands that is also reported from Asiatic Turkey. There are few endemics in northern Scandinavia and Arctic Russia, but the bryophyte flora is very distinctive and largely restricted to the far north of Asia and North America, as well as Europe: Drepanocladus arcticus is a strictly Arctic moss confined to Svalbard, Arctic Russia (European and Asian) and Arctic North America. 3.3.3. Distribution of threatened species In Figure 8,  the distribution of threatened bryophytes in Europe is presented based on data for 374 threatened species (the analysis does not include species where their presence is uncertain). Figure 8 displays the number of threatened species (CR, EN, VU) per unit area (865 km2 hexagon). As for overall species richness (Figure 6), it shows a high number of species in the Alps, especially in the eastern Alps, followed by other mountainous areas, notably the Carpathians, the eastern Pyrenees and the Scandinavian mountains. This emphasises the importance of mountain habitats for threatened bryophytes and their conservation. It may also flag the impact of climate change on the mountainous bryophyte flora, and pressure from land use change and tourist developments in the high mountains. Furthermore, many mountainous species are naturally rare and therefore susceptible to stochastic events. Two regions notable for their numbers of threatened species are an area located in central Germany and Macaronesia (Figure 6). While the high numbers in central Germany are difficult to explain, the laurel forests of Macaronesian islands, which contain many rare, threatened and endemic (Figure 7) bryophytes, are under considerable threat from climate change, wildfires and forestry [see Box 2]. With the exception of these relatively restricted areas, numbers of threatened species are fairly constant throughout Europe. The map above (Figure 8) clearly illustrates regions with a concentration of threatened species, which deserve special attention for conservation implementation. They largely agree with the regions with Figure 7. Distribution of endemic mosses, liverworts and hornworts in Europe. 16 Figure 8. Distribution of threatened (CR, EN, VU) mosses, liverworts and hornworts in Europe. Figure 9. Distribution of Data Deficient mosses, liverworts and hornworts in Europe. 17 Box 2 - Taking a closer look: Atlantic bryophytes The extreme west of Europe, where the climate is warm and wet, neither too hot nor too cold, supports a rich and varied selection of mosses and liverworts that are collectively referred to as oceanic or Atlantic. These were first defined (in western Britain and Ireland) by the late Derek Ratcliffe in 1968, who identified the species that are more or less confined to parts of Britain and Ireland which have more than 200 ‘wet days’ per year, with wet days defined as days with over 1 mm of rain (Ratcliffe, 1968): in other words, the extreme west, where the influence of the Atlantic is at its strongest. The same suite of species extends to the Faroe Islands and, in less abundance, to western Norway, western France (Brittany) and north-western Spain. A lowland ravine in western Scotland may support upwards of 200 species in its sheltered, humid interior, including many oceanic species. The Atlantic influence in Scotland extends into the mountains, where a community defined by Ratcliffe as the ‘mixed hepatic mat’ occurs in luxuriance in suitable north-east-facing corries. This consists of large leafy liverworts such as species of Anastrophyllum, Bazzania, Herbertus, Plagiochila and Scapania. Many of these species, as well as being strictly confined in Europe to the extreme west, are globally rare and more or less threatened. Herbertus borealis (Vulnerable liverwort) is endemic to Scotland © Michael Lüth The oceanic flora is even better developed in Macaronesia, where the native laurel forest supports a very rich assemblage of species, including a higher proportion of endemic species than is usual with bryophytes, especially in Madeira. The subtropical forest is more or less constantly humid and warm and the trees are festooned with mosses and liverworts, including tiny species of Acrobolbus and Lejeunea, as well as much larger Plagiochila and Herbertus. These small areas of forest are under great threat from climate change, wildfires and developments related to tourism. Europe’s Atlantic bryophytes have clear affinities with the tropical bryophyte flora of South America, and several species once thought to be European endemics are now known to be identical with South American plants: Plagiochila bifaria, for example, formerly known in Europe as P. killarniensis (Heinrichs et al., 1998). This is probably the result of long distance dispersal of some species from South America to Europe via Macaronesia. 18 high general species richness, and partly with regions of high levels of endemism (Figures 6 and 7). However, it does not inform on relative regional threat pressures. For this, the number of threatened species would need to be represented as proportions of total species number per region, a level of analysis that should be done in future work. It is likely that lowland areas which have experienced massive changes in land use due to agricultural intensification and rural development since the early 20th Century, still face a greater negative impact than many mountainous areas; at least as long a climate change has not yet have full effect on population decline. 3.3.4. Distribution of Data Deficient species In Figure 9, the distribution of Data Deficient (DD) species is presented based on data for 88 DD species (the analysis does not include species where their presence is uncertain). Some species are listed as DD because they have been recently described and there is no information to elucidate their trends, while others have been assessed as DD due to taxonomic uncertainty and the difficulty to differentiate between different species unless studied genetically. The incidence of DD species is often high in mountainous areas, which could be attributed to the fact that they are the most species-rich areas (Figure 6), but could also be because they are usually more remote and difficult to survey than the lowlands. There are also more DD species in relatively under-recorded parts of Europe, such as Romania, than there are in well-recorded areas, such as Britain and Ireland. The low number of DD species throughout most of European Russia, may simply reflect the fact that much of it has low bryological diversity; alternatively, it might indicate that this is an area which is poorly surveyed and hence poorly known. 3.4 Major threats to moss, liverwort and hornwort species in Europe A comprehensive overview of the threats to bryophytes in Europe is not possible, as some of the threats to the species remain unknown. In total, it was possible to identify threats for 1,099 species, often with multiple threats listed for a species. Based on the best available knowledge, 559 species are thought to have no current or major threats, and for 159 species the threats are unknown at present. Threats to bryophytes are complex and often difficult to categorise. There are sometimes synergistic effects between threats e.g., between climate change and increased fire frequency and it is hard to determine which threat is the key driver impacting a bryophyte. In other cases there may be several threats affecting an area e.g., climate change, increased fire frequency and unregulated planting of Eucalyptus and conifer plantations, etc., these threats are all closely linked and it is hard to identify which one is the key threat impacting a bryophyte species. A summary of the major threats to threatened and not threatened (DD, LC and NT) species is shown in Figure 10. Natural system modifications Climate change and severe weather Agriculture and aquaculture Pollution Human intrusions and disturbance Residential and commercial development Invasive and other problematic species, genes and deseases Biological resource use Energy production and mining Transportation and service corridors Geological events Other options 0 100 200 300 400 500 600 700 Threatened species LC, NT and DD species Figure 10. Major threats to all assessed mosses, liverworts and hornworts in Europe. Note: Species can be affected by more than one threat. 19 The main threat to both mosses and liverworts is natural system modification; 452 species of mosses and 180 species of liverworts are impacted by this driver of decline, of which 144 and 52 species, respectively, are threatened. For hornworts, the most prevalent threat is agriculture, affecting seven species (of which two are threatened). However, it should be noted that only eight hornwort species were assessed in total, so this result should be interpreted cautiously. Climate change ranked second in the list of threats to bryophytes in Europe. 3.4.1 Natural system modifications A total of 234 species are affected by water management and use, including 83 species assessed as CR, EN or VU. This was considered the most common threat to bryophytes across Europe, including species assessed as threatened and species assessed as Near Threatened or Least Concern. This includes the abstraction of ground and surface water for different uses, including agricultural, commercial and domestic uses, and the construction of dams. Species that are water-dependent, such as Campylophyllum montanum and many of its relatives, and those that tend to grow in sites targeted for dam construction, such as Bryum blindii, are most at risk from these threats. Bogs and fens are among the most threatened habitats in Europe (Janssen et al., 2016). In the lowlands, draining wetlands has led to a substantial decline in many bog and fen bryophyte species in central Europe (for example, Sphagnum spp., Hamatocaulis vernicosus, Scorpidium scorpioides, etc.), that are still quite common in the far north. Remaining bryophyte-rich wetland sites, particularly in central and southern Europe, face multiple threats, and all require protection. In the uplands, construction of large- scale dams and reservoirs has destroyed many rich sites, and continues to threaten the survival of many species, including those likely to be impacted by climate change (for example, Andreaea crassinervia). 257 species appear to be at risk of an increase in fire frequency and/or intensity. Out of these, 94 species are considered to be threatened. This threat is closely associated with climate change, and becomes more serious with a warmer and drier environment. The problem is particularly serious in the laurel forests of Macaronesia, where many rare and endemic species confined to these forests are threatened by the increasing incidence of wildfires. There is also a greater risk of wildfires where there has been large-scale planting of non-native Pinus and Eucalyptus, as in much of southern Portugal and northern Spain. A total of 215 species are affected by a variety of other modifications to ecosystems, 75 of which have been assessed as threatened. 3.4.2 Climate change A total of 493 species are affected by climate change and severe weather, of which 196 are threatened. Under this Cheilolejeunea cedercreutzii (Endangered liverwort) © Tomas Hallingbäck 20 broad threat, 209 species are estimated to be or will be affected by droughts, including 146 threatened species. A total of 235 species are affected by habitat shifting and alteration, including 109 threatened species. 163 species are considered to be at risk from temperature extremes, of which 78 species are threatened. With increasing temperatures across Europe, as a result of climate change, periods of droughts are already increasing (Vicente- Serrano, 2014). The effects of climate change are often unpredictable but the threat will only become more prominent in the coming decades. Some of the species most likely to be threatened by climate change are those confined to wetlands. Already greatly reduced, especially in central and southern Europe, due to land-use changes including agricultural expansion and intensification, drainage, pollution, construction activities and invasive species, the remaining wetlands are under extra pressure from desiccation caused by climate change. Species of bryophytes that are found at high elevations, and/or in northern environments, are probably significantly more prone to the impacts of climate change than other species, as they have nowhere else to go if temperatures increase significantly. For example, the survival of Herbertus sendtneri, a species of the high Austrian Alps, is very doubtful if the extent and duration of alpine snow-patches deteriorate significantly. On the other hand, at least the bryophytes of higher elevations are usually less at risk from other factors; for those that grow on lower mountains, climate change is just one more threat to add to the other pressures affecting them, such as land-use change. The bryophytes of the laurel forests of Macaronesia are also at great risk through climate change (Patiño & Vanderpoorten 2018). The forests appear to be drying out, wildfires are becoming more frequent, and projections show a significantly increased risk of extinction for many of the special species of this habitat in the coming years, including endemic species such as Cheilolejeunea cedercreutzii. The bryophytes of southern Europe in general are also at an increasingly higher risk of extinction as the climate becomes warmer and drier. Already some areas have been affected by desertification, and while many species have strategies for avoiding or tolerating drought (for example Gigaspermum mouretii, and many species in the family Pottiaceae), even these species will be unable to survive in conditions of more extreme desertification. 3.4.3 Agriculture and aquaculture A total of 323 species are affected by agriculture and aquaculture, of which 102 are threatened. Under this broad threat, wood and pulp plantations affect 200 species of bryophyte in Europe, including 61 threatened species. Different species are impacted by plantations at different scales, but particularly by agro-industry plantations. At this scale, 124 species are at risk, of which 26 are threatened. Echinodium renauldii (Endangered moss) © César Garcia 21 Most plantations are on sites where there used to be natural or semi-natural forest, so the main species threatened by conversion of natural forest to plantation woodland are those dependent on the long ecological continuity provided by a stable, humid, natural forest. Specialists of dead wood such as Scapania apiculata have been particularly impacted, as amounts of deadwood are often very low in managed forests. Generally, land-use conversion practices (including the intensification of agriculture and forestry) are considered the most common threat to biodiversity in undisturbed habitats (IPBES, 2018). These have been designed to increase the production of crops (for example, by increased fertilizer and pesticide applications), livestock, aquaculture, forest biomass, as well as urban development, and are highly detrimental to bryophytes. A total of 151 species are affected by livestock farming and ranching, including 65 threatened species. This includes grazing at three scales; nomadic, small-holders and agro- industry. The majority of the species (95, of which 41 are threatened) are affected by small-holder grazing, ranching or farming. Overgrazing, under-grazing, and burning are all activities that may affect bryophytes. One activity that is particularly associated with livestock farming is the treatment of stock with ivermectins and other chemicals to treat parasite infestations. One of the unintended consequences of this is that it makes the dung of these animals effectively sterile, which has knock-on effects on the large numbers of organisms that depend on animal dung for survival. These include a unique suite of mosses - the dung mosses - that grow only on the dung (or sometime bones) of herbivores and which have an intimate relationship with dung invertebrates for the dispersal of their spores. Most of these species, some of them among our most attractive bryophytes (Splachnum, Tetraplodon, Aplodon, etc), have declined drastically in recent years (Porley & Hodgetts, 2005). 3.4.4 Other threats to bryophytes Residential and commercial development A total of 185 species are affected by residential and commercial development, of which 88 are threatened. Under the umbrella of residential and commercial development, a key threat to bryophytes in Europe was identified as the development of areas for tourism and recreation. 181 species in total are impacted by tourism and recreation, including 99 threatened species. Tourism encompasses many sorts of threat, including uncontrolled building of hotels and other tourist facilities in rich coastal or alpine habitats, water abstraction, disturbance through increasing numbers of people, etc. ‘Urban sprawl’ which occurs in order to accommodate the ever- increasing human population, often replaces woodland, species-rich grasslands and wetlands. Pollution A total of 240 species are affected by pollution, of which 66 are threatened. Under this broad threat, a total of 165 Dead wood is an important substrate for many specialised bryophytes; this old rotting tree trunk supports many species, including Scapania apiculata (Near Threatened liverwort) © Michael Lüth 22 species are affected by agricultural and forestry effluents, including 58 threatened species. This includes 97 species (of which 34 of threatened) that are specifically at risk from nutrient loads, 29 species (of which ten are threatened) that are specifically at risk from herbicides and pesticides, and 16 species (of which ten are threatened) that are specifically at risk from soil erosion and sedimentation. Bryophytes are also considered to be affected by other sorts of pollution in Europe. 78 species (of which 19 are threatened) are impacted by air-borne pollutants, for example acid rain and smog, and 32 species (of which nine are threatened) are impacted by waste water, such as run-off and sewage [see Box 3]. Invasive non-native/alien species/diseases A total of 169 species are affected by invasive and other problematic species, genes and diseases, of which 79 are threatened. Under this broad threat, 161 species are affected by invasive alien species, including 79 threatened bryophytes. Most of these problematic species are unspecified, but 64 species (of which 40 are threatened) are affected by known species. One of the most problematic invasive plants for bryophytes in Europe is non-native rhododendron (Rhododendron ponticum), which has spread from gardens and now covers large areas of hillside in oceanic areas, casting a deep shade and dropping very acid leaf litter that prevents anything else from growing. The effects of this invader on bryophytes are particularly bad in areas of the UK and Ireland. However, it is important to note that rhododendron (R. ponticum) is a native and non-invasive plant in ravines in southern Spain and Portugal; these rhododendron ravines are threatened habitats and rich in bryophytes. The aquatic environment is particularly sensitive to invasive species, and plants such as Crassula helmsii are as much a threat to aquatic bryophytes as they are to vascular plants. A minority of species may be under threat from invasive alien bryophytes: In north-western Europe, Orthodonium gracile appears to be a poor competitor against the invasive southern African species O. lineare. Human intrusions and disturbance A total of 204 species are affected by human intrusions and disturbance, of which 92 are threatened. Under this broad threat, human disturbance to areas where bryophytes grow, specifically for access to recreational activities, is considered to impact 159 species, of which 81 are threatened. This includes intrusions relating to, for example, erosion at popular tourist sites owing to the sheer numbers of people; mountain summits in tourist areas are particularly vulnerable in this respect. Some coastal cliff top paths in southern England with rare mosses are becoming increasingly eutrophicated by dog faeces, leading to loss of habitat. Hunting and shooting for sport is not a direct threat to bryophytes, but when important sites are managed primarily for these activities, it can result in loss and degradation of habitat, as has taken place on the grouse moors of Scotland, where large areas are regularly burned to encourage the growth of new heather (Calluna vulgaris) shoots, resulting not only in a species-poor monoculture, but also destabilisation of soils and increased erosion. Additional threats There are many other threats to European bryophytes. Biological resource use, which includes unintentional impacts of fishing, hunting and harvesting biological resources, affects 152 species, of which 46 are threatened. In addition, 116 species are threatened by industrial activities, such as energy production and mining, including 31 threatened species. Under this threat classification, most species (72, of which 12 are threatened) are at risk from mining and quarrying, although renewable energy production and oil and gas drilling also impact some species in Europe. In some areas, such as central Ireland, industrial-scale peat extraction for fuel has damaged or destroyed many important bryophyte sites. The remaining ones now receive statutory protection. Land-based wind farms often cause considerable damage, especially if sited on sensitive peaty substrates. The establishment of transportation and service corridors, such as roads and service lines, affects 69 species, of which 54 are threatened. 3.5 Population trends Documenting the population trend of a species provides key information when assessing its Red List status. As part of this process, the whole population of each species in Europe was assessed as declining, stable, increasing or unknown. Overall, 17.1% (307 species) of bryophyte species in Europe are thought to be in decline, including 52.8% of threatened species (162 species). The majority of species (59.3%; 1,062 species) are considered to be stable, including 8.3% of threatened species (88 species), and 1.9% (34 species) are increasing (Figure 11), all of which 23 are LC. However, 21.7% of species (389 species) have unknown population trends, with 129 threatened species (33.2%). 59% Stable 17% Decreasing 2% Increasing 22% Unknown Figure 11. Population trends of European mosses, liverworts and hornworts. 3.6 Gaps in knowledge While there was not enough information to assign a Red List Category to 93 species (hence considered as Data Deficient), the information collected was sufficient to identify the major knowledge gaps for bryophytes in Europe (Figure 12). Overall, the absence of, or the existence of few, data on population size and distribution, as well as trends are systematically highlighted as a knowledge gap for bryophytes by the expert community assessing the conservation status of these species. This pattern affects both threatened and non-threatened taxa. Knowledge on habitats trends and impact of threats is also still incipient for the majority of these species, with particular regions severely understudied (for example, Russia). While this pattern can be partially justified by the fact that some species have been recently described, and so there is no information available on these parameters, the reality is that monitoring efforts are becoming increasingly difficult to sustain and to fund. This, coupled with the absence of baseline data (for example, historical data) on species numbers and distribution, hamper a comprehensive understanding of the threats to Figure 12. Research needs for European mosses, liverworts and hornworts. Note: Species can be included in more than one category. Research actions Taxonomy Life history and ecology Threats Population size, distribution and trends Population trends Habitat trends Species Action / Recovery Plan Area-based Management Plan 5000 1000 R es ea rc h M on it or in g C on se rv at io n Pl an in g Threatened taxa LC, NT and DD taxa 24 these species in Europe, and how these stressors interact. Collecting information on these topics is paramount for sound conservation planning and effective recovery of threatened taxa, and will allow for more concrete messages to be mainstreamed to the most impactful sectors. The establishment of an expert network to facilitate information exchange would certainly help address the knowledge gaps identified for these species throughout their European range; the experts brought together through this project provide a good starting point to expand this network. In any case, relevant conservation and management measures should move ahead despite any current data gaps, while also considering taxonomic uncertainty where relevant. Hymenoloma compactum (Data Deficient moss) © Tomas Hallingbäck 25 Box 3 - Poisoned bryophytes: the impact of over-fertilization One of the major threats to bryophytes is habitat modification through intensification of agricultural practices and pollution (which may also come from agriculture). The greatest pollution threat in the 20th Century was sulphur dioxide pollution through the widespread burning of dirty coal. Many bryophytes, particularly epiphytic species, are very sensitive to sulphur dioxide (SO2) levels, and these plants, such as species of Orthotrichum and Ulota, virtually disappeared from large areas of Europe. When legislation for clean air was introduced in the mid- to late-20th Century, these plants gradually, and later rapidly, began to recolonise. Nowadays, trees throughout most of Europe, even in areas formerly heavily impacted by SO2 pollution, are covered with Orthotrichum and Ulota and other species. Currently, the problem is nitrogen. Despite generally improving air quality in Europe, including reductions in nitrogen emissions, there is an ever-increasing amount of nitrogen in the environment because of agricultural practices and vehicle emissions. Locally, in agricultural areas, one can smell ammonia because of the enthusiastic spreading of manure, and observe the homogenous green of ‘improved’ pasture devoid of wild flowers or much natural interest at all. Vehicle emissions are a big source of pollution by nitrogen compounds in densely populated areas. However, the main cause is the worldwide increase in the very inefficient use of artificial nitrogen-rich fertilisers in agriculture. In Europe, fertilisers are still spread over fields, but more than half the nitrogen does not go into improved crop yields, it simply runs off into ditches, streams, rivers and ultimately the sea. Much of it, via the nitrogen cycle, is returned to the land through precipitation. The consequences for bryophytes are evident. All over Europe, even in remote upland areas, the natural species-rich bryophyte flora of streams is being replaced with a monocultural slime of green algae; even in bogs, in some areas Sphagnum hummocks are becoming overwhelmed by algal scum. On rock faces, a layer of green algae replaces the mosses and liverworts. In open habitats, the nutrient-poor ‘bare ground’ habitat of so many threatened species is disappearing, being overtaken by vigorous, nutrient-demanding grasses. This is a worldwide problem that can only be addressed by worldwide solutions. Most agricultural land is currently over-fertilised (Pearce, 2018), and so possible solutions include more targeted, ‘precision agriculture’, distributing smaller amounts of nitrogen much more efficiently, so that it goes to plant roots and does not run off into the surrounding environment. Urn bristle-moss Orthotrichum urnigerum (Vulnerable moss) © Michael Lüth 26 4. Conservation actions 4.1 Conservation of moss, liverwort and hornwort species in Europe The results of this Red List assessment indicate that 88.2% of species (1,603 species, of which 319 are threatened) were recorded in at least one protected area (including national parks, Natura 2000 sites or nature reserves). This is positive, as site protection is the most commonly identified conservation action needed for European bryophytes (Figure 13). The second most important action is site/area management, and bryophytes are often not considered in management plans. Additional conservation measures proposed for European bryophytes are shown below (Figure 13). The nature conservation policy of the European Union is based on two main pieces of EU legislation - the 1979 Birds Directive (Directive 79/409/EEC) and the 1992 Habitats Directive (Directive 92/43/EEC; jointly referred to as the Nature Directives). There are 32 bryophyte species currently listed in Annex II of the Habitats Directive, not all of which are endemic to Europe. No species of bryophytes is listed under Annex IV and only three genera are listed under Annex V of the Habitats Directive. The Bern Convention, on the other hand, is a binding international legal instrument that aims to conserve wild flora and fauna and their natural habitats and promote European cooperation towards that objective. It covers all European countries and some African states. In Appendix I of the Bern Convention (Strictly Protected Flora Species), a total of 26 bryophyte species are listed. Appendix 4 provides the full list of bryophytes species listed under the Habitats Directive and the Bern Convention, and the corresponding Red List status as determined by this assessment. Of the 1,729 bryophyte species present in the EU 28, 7.5% are endemic to the EU 28, highlighting the conservation responsibility of the EU towards these species. Some have made a remarkable recovery following listing under the Habitats Directive and the Bern Convention, and Figure 13. Main conservation actions needed identified for European mosses, liverworts and hornworts. Note: More than one conservation action was assigned to each species. Legislation Awareness and communications Formal education Genome resource bank Captive breeding/artificial propagation Habitat and natural process restoration Invasive/problematic species controll Site/area management Resource and habitat protection Site/are protection 0 100 200 300 400 500 600 700 La w a nd po lic y Ed uc at io n an d aw ar en es s Sp ed ie s m an ag e- m en t - E x si tu co ns er va ti on La nd / w at er m an ag em en t La nd / w at er pr ot ec ti on Threatened taxa LC, NT and DD taxa 27 targeted conservation actions (for example, Hamatocaulis vernicosus - see Box 4). One of the main tools to enhance and maintain biodiversity in Europe is the Natura 2000 network of protected areas, which currently consists of over 27,500 sites, it covers 18% of land territory but 27.5% land and marine area (EC, 2018). Natura 2000 sites provide an essential tool in conservation even if the sites were not specifically designated for the preservation of particular bryophyte species, as indirectly the general protection of habitats usually also benefits the bryophytes. However, it is sometimes necessary to target the ecological needs of these small plants more directly, which becomes challenging when conservation actions are usually targeted at more charismatic and well-known organisms. The well-supported agri-environmental schemes devised to promote sustainable farming across Europe are a good illustration of the limited effects on bryophytes of such widespread, untargeted conservation measures, particularly for rare bryophyte species (Valentini et al., 2016). Actions better tailored to promote bryophyte conservation include, for example, rotational set-aside and retention of winter stubbles in cereal, rape and linseed crops (Bosanquet, 2003; Bisang et al., 2009). Many threatened bryophytes occur in protected areas, and depend, like other groups, on the conservation of multi-scale areas of semi-natural habitat. However, many species tend to grow in ‘micro-habitats’ in non-protected areas. This means that the sympathetic management of the wider countryside is particularly important for bryophytes. For example, the suite of species which have their main habitat in arable fields, such as the threatened hornwort Anthoceros neesii, are entirely dependent for their survival on overwintering stubble fields, so wider agricultural policy needs to promote agricultural practices that favour this habitat. Similarly, a certain amount of dead wood needs to be left in situ in managed forestry plantations, as well as in old-growth forest, in order to provide substrate for the many bryophytes that specialise in this habitat. While the Habitats Directive Soft brook-moss Platyhypnum molle (Vulnerable moss) © Tomas Hallingbäck 28 and the Natura 2000 network are of vital importance, there needs to be much more coordination between different elements of policy, so that, to choose the most obvious example, policies contained within the Common Agricultural Policy (CAP) do not work against those in the Habitats Directive. Measures within other national or international policies, including Agri-Environmental Schemes that provide payments to farmers who subscribe, on a voluntary basis, to environmental commitments related to the preservation of the environment, need to be aligned with statutory protection for species to ensure that efforts to protect these species are synergistic and not in vain. European countries and EU Member States are signatories to a number of important conventions aimed at conserving biodiversity, including the 1979 Bern Convention on the Conservation of European Wildlife and Natural Habitats, and the 1992 Convention on Biological Diversity (CBD). Through the CBD, the Strategic Plan 2011–2020 was established, which includes 20 targets (Aichi Targets) that guide the implementation of the CBD and all the other biodiversity conventions. In particular, Target 12 focuses on preventing the extinction of known threatened species and improving their status (CBD, 2011). The outcomes of this Red List project certainly help to measure the progress made towards meeting these targets, and the current results suggest that, for bryophytes, Europe is not on track to meet these targets. The Global Strategy for Plant Conservation (GSPC) was adopted by the CBD at the 2002 Conference of the Parties and updated at the 10th Conference of the Parties. In order to coordinate the implementation of the GSPC at the regional level, the European Strategy for Plant Conservation (ESPC) was adopted. In particular, Target 2 (calling for an assessment of the conservation status of plant species), Target 5 (through the identification of Important Plant Areas), Target 7 (in situ conservation), Target 8 (ex situ conservation), Target 12 (preventing the extinction of known threatened species and improving their status), Target 13 (sustainable practices associated with plant use) and Target 14 (awareness raising) (CBD, 2011) are relevant for the conservation of bryophytes. European countries across the continent endorsed the Pan-European 2020 Strategy for Biodiversity (UNEP, 2011), which re-focuses efforts to prevent further loss of biodiversity in the region. It also provides a European mechanism for supporting the implementation of the global Strategic Plan for Biodiversity. No native European bryophyte species are listed in the Appendices of the Convention on International Trade in Endangered Species of Wild Fauna and Flora (CITES). The EU Water Framework Directive, adopted in 2000 and aimed at protecting European waters, can also be relevant for aquatic and water-dependant bryophyte species. A good ecological status of surface waters, as promoted by the Grey-cushioned grimmia Grimmia pulvinata (Least Concern moss) © Michael Lüth 29 Directive, has positive effects on ecosystem function (Janauer et al., 2015). Plant habitat conservation efforts have in part been focused through the identification of Important Plant Areas (IPAs). IPAs are internationally significant sites for wild plants and threatened habitats. Identified at a national level, they provide a framework for implementing Target 5 of the CBD GSPC, and are a tool for targeting conservation actions on wild plants and in situ habitat protection. IPAs contain over 700 of the most threatened species in Europe and include millions of hectares of the most threatened habitats. At least 1,770 IPAs have been identified in 16 European countries (Anderson & Radford, 2010). A first attempt was made to identify Important Bryophyte Areas in Europe during the production of the first Red List (European Committee for the Conservation of Bryophytes, 1995), and it is anticipated that the current Red List will facilitate an update of this initiative. These exercises are incredibly valuable to ensure species protection and a stepping stone to promote nature conservation in Europe. The EU has committed to a long-term (2050) vision and mid-term headline target for biodiversity, which is “To halt the loss of biodiversity and the degradation of ecosystem services in the EU by 2020 and restore them in so far as possible, while stepping up the EU contribution to averting global biodiversity loss.” This target underpins the EU Biodiversity Strategy 2011–2020. The establishment of these policy instruments indicates the high political commitment to biodiversity and the need to monitor the status of biodiversity and to assess progress towards meeting conservation objectives and targets. Measuring whether policy targets have been met is only possible by establishing comprehensive monitoring programmes that allow the gathering of the necessary data for a reliable re- assessment in the coming years. The results of the present Red List assessment indicate that, for the bryophytes, Europe is currently not on track to meet these targets. For the latter to happen, immediate conservation action for species with a high extinction risk is needed. Most European countries have developed specific actions at the national or regional level in order to enhance bryophyte populations. National Red Lists or Red Data Books of bryophyte species are available for the following countries: Austria, Bulgaria, Czechia, Estonia, Finland, Germany, Great Britain (excluding Northern Ireland), Hungary, Ireland (including Northern Ireland), Tayloria rudolphiana (Near Threatened moss) © Norbert Schnyder 30 Italy (including Sardinia), Luxembourg, Montenegro, Netherlands, Norway, Poland, Portugal (including Madeira), Romania, Serbia, Slovakia, Slovenia, Spain and the Canary Islands, Sweden, and Switzerland. However, there are some countries in which no national Red List has been developed (for example, France). It is also noteworthy that some national Red Lists are outdated and should be maintained and updated in order to remain relevant. In addition, several countries have developed management or action plans for several species, and have legislation in place to protect certain species legally (for example, Schedule 8 of the Wildlife & Countryside Act 1981 in the UK). Some examples of successful action plans include Tayloria rudolphiana, epiphytic species of central Europe for which several studies have been undertaken to count the sites or individuals of the plants (Hofmann et al., 2006; Hofmann et al., 2016; Müller, 2016; Kiebacher et al., 2018) and attempts have been made to protect the host trees and to increase awareness for this species. LIFE projects have been undertaken at the European level to enhance the status of certain habitats and species, some of which have focused on specific species bryophytes, or produced management plans as a result of these projects. 4.2 Red List versus priority for conservation action Assessing the extinction risk and setting conservation priorities are related but distinct processes. The purpose of the IUCN Red List assessment is to produce an estimate of the likelihood of extinction of a species. On the other hand, setting conservation priorities also takes into account other factors such as ecological, phylogenetic, historical, economical or cultural preferences for some taxa over others. Also, the probability of success of conservation actions, availability of funds or personnel, cost-effectiveness and legal frameworks for the conservation of threatened taxa is taken into account. In the context of regional risk assessments, a number of additional pieces of information are valuable for setting conservation priorities. For example, it is important to consider not only conditions within the region, but also the Red List status of the taxon from a global perspective and the proportion of the global population that occurs within the region. The decision on how these three variables, and the other factors, are used for establishing conservation priorities is a matter for the regional authorities to determine, taking into account the Red List status of the species of concern. 31 Box 4 - Conservation works: bryophytes bounce back For bryophytes, as for other organisms, conservation works. Bogs that have been damaged by peat-cutting or drainage can be restored or re-instated by blocking drains; degraded forest can be restored (eventually) merely by non-intervention; damaged wetlands can have a new lease of life through proper management. Giving species legal protection can be very effective. For example, Slender green feather-moss (Hamatocaulis vernicosus) was one of a small handful of species placed on Appendix I of the Bern Convention in the early 1990s. Along with most of the other Bern species, it was also included on Annex II of the EU Habitats Directive soon afterwards. This means that the signatory countries to these conventions have an obligation to protect it under the Natura 2000 network, with sites designated and managed for its protection. The results of this have been dramatic, with sites established for Hamatocaulis all over Europe, or at least within the EU, with several non-EU countries following suit. Because it is a key species of mineral-rich, mesotrophic mires, fens and flushes, this has meant that many important and threatened wetland sites that might otherwise have been destroyed now receive statutory protection. In other words, the conservation benefits of placing this moss on the protected species list extend much further than merely protecting the moss itself: whole habitats have been saved. Furthermore, including Hamatocaulis on these international conventions has resulted in a massively increased programme of research to find out more about its distribution, abundance, ecology and conservation requirements. Recent research in Sweden has even found that what we call H. vernicosus actually comprises two cryptic species (genetically different but apparently morphologically identical), both of which occur in protected areas (Hedenäs, 2018). Paradoxically, an increase in survey and recording effort targeted at H. vernicosus means that it now seems to be more common than was once thought. This is not the case: we simply now know more about it, and the increase in records in recent years is entirely due to that increase in recording effort. If we had more baseline data going back through the decades it would certainly show a decline because of habitat destruction through drainage and other anthropogenic factors. Slender green feather-moss Hamatocaulis vernicosus (Vulnerable moss) © Michael Lüth 32 5. Recommendations 5.1 Recommended actions Currently, 22.5% of bryophytes are threatened at the European level. The most important threats to bryophytes in Europe come from natural systems modifications (i.e., habitat destruction and degradation), climate change, and current agricultural practices. Hence, improving the conservation status of bryophytes, and preventing current and future declines in Europe, requires increasing efforts and commitments from various parties, from the EU to regional assemblies, and from statutory bodies to conservation charities. Perhaps most importantly, measures for bryophyte conservation (and indeed for nature conservation generally) need to be integrated into regular planning and land management procedures and practices. Below, a series of recommendations are proposed to strengthen the long-term survival of European bryophytes: Policy measures • Use the European Red List as the scientific basis to inform regional/national lists of rare and threatened species and to identify priorities for conservation action in addition to the requirements of the Habitats Directive, thereby highlighting the conservation status of bryophytes at the regional/local level. • Use the European Red List to support the integration of conservation policy with the Common Agricultural Policy (CAP) and other national and international policies. For example, CAP Strategic Plans should include biodiversity recovery commitments that could anticipate, among others, the creation of Important Bryophyte Areas. An increased involvement of national environmental agencies in the preparation of these strategic plans, and more broadly in ongoing discussions on the Future CAP Green Architecture, would likely also ensure the design of conservation measures better tailored to conserve bryophytes in agricultural landscapes. • Update the European Red List every decade to ensure that the data remains current and relevant. • Develop Key Biodiversity Areas for bryophytes in Europe with a view to ensuring adequate site-based protection for bryophytes. Research and monitoring • Use the European Red List as a basis for future targeted fieldwork on possibly extinct and understudied species. • Establish a monitoring programme for targeted species (for example, threatened species and/or arable bryophytes). • Use the European Red List to obtain funding for research into the biology and ecology of key targeted species. Action on the ground • Use the European Red List as evidence to support multi-scale conservation initiatives, including designation of protected areas, reform of agricultural practices and land management, habitat restoration and rewilding, and pollution reduction measures. • Use the European Red List as a tool to target species that would benefit the most from the widespread implementation of the solutions offered by the 1991 Nitrates Directive (Council Directive 91/676/EEC), including the application of correct amounts of nutrients for each crop, only in periods of crop growth under suitable climatic conditions and never during periods of heavy rainfall or on frozen ground, and the creation of buffer zones to protect waters from run-off from the application of fertilizers. Ex situ conservation • Undertake ex situ conservation of species of conservation concern in botanic gardens and spore and gene banks, with a view to reintroduction where appropriate. Awareness raising Mosses and liverworts are small and do not impinge very much on the public consciousness, except as things to remove from the lawn or the roof. As an integral and important part of the natural world, they deserve better. There are now many attractive publications and websites that present bryophytes as beautiful and useful, and these should receive more publicity and promotion; for example, Sphagnum mosses - The Stars of European Mires (Laine et 33 al., 2018), Robert Muma’s beautiful moss paintings and sketches (http://worldofmosses.com/paintings/index.html), Michael Lüth’s amazing photographic collection (http:// www.milueth.de/Moose/index.htm), to name but a few). Many nature reserves where bryophytes are important now have information boards and other material to promote bryophytes, and this should continue to be prioritised wherever appropriate. In particular, this Red List should be used to publicise bryophytes and to obtain funding for future conservation work. For example, LIFE+ Nature and Biodiversity2 provides targeted funding for species conservation actions, supporting projects aimed at conserving threatened species listed in the annexes of the EU Habitats Directive, Birds Directive and the European Red List. 5.2 Application of project outputs The European Red List of mosses, liverworts and hornworts is part of a wider initiative aimed at assessing the status of all European species. It provides key resources for decision makers, policy makers, resource managers, environmental planners, NGOs and the concerned public by compiling large amounts of data on the population, ecology, habitats, threats and recommended conservation actions for each bryophyte species. Red List assessments are intended to be policy-relevant and can be used to inform conservation planning and priority setting processes. However, they are not intended to be policy-prescriptive and are not in 2 http://ec.europa.eu/environment/life/project/Projects/index. cfm?fuseaction=home.getProjects&strandID=2 themselves a system for setting biodiversity conservation priorities. These data are freely available on the IUCN Red List website (https://www.iucnredlist.org/regions/ europe), on the European Commission’s website (http:// ec.europa.eu/environment/nature/conservation/species/ redlist) and through paper publications (see the list of European Red Lists published at the end of this report). Red Lists are a dynamic tool that will evolve with time as species are re-assessed according to new information or situations. They are aimed at stimulating and supporting research, monitoring and conservation action at local, regional and international levels, especially for threatened, Near Threatened and Data Deficient species. Each species assessment lists the major threats affecting the specific bryophyte species and conservation actions that are in place or recommended. This is useful to inform the application of conservation actions for each species. The outputs of this project can be applied to inform policies and to identify priority sites for biodiversity and priority species to include in research and monitoring programmes. 5.3 Future work Through the strong collaboration established between the ECCB and the IUCN SSC Bryophyte Specialist Group during this project, a network of European and national bryophyte experts, and their extensive knowledge and expertise, were mobilised that will persist long after the project ends and will be instrumental in defining priorities Plagiomnium confertidens (Vulnerable moss) © Elvira Baisheva 34 for bryophyte conservation in Europe. The project has benefited greatly from the work and information held by additional relevant organisations and stakeholders, such as national bryophyte societies, university research programmes and statutory and voluntary conservation bodies. The wealth of knowledge and data compiled during the elaboration of this European Red List will be invaluable to expand research efforts on bryophytes at the European level, ultimately benefiting their conservation. One aspect worth noting is that the assessment of the European endemics can be transcribed directly into the corresponding global Red List. Through the process of compiling data for the European Red List, a number of knowledge gaps have been identified. Across Europe there are significant geographic, geopolitical and taxonomic biases in the quality of data available on the distribution and status of species, and these are the aspects that a unified knowledge network will need to overcome to advance bryophyte conservation in the region. There is a clear need for drawing together information from all data compilation initiatives, under way or planned, and for a wider European bryophyte conservation action plan to be explored, developed and progressed. It is hoped that by presenting this assessment, local, national, regional and international research will be stimulated to provide new data and to improve on the quality of the current available data. Key challenges for the future are to improve monitoring, research and data quality and dissemination so that the information and analyses presented here can be updated and improved. This will contribute to recommend conservation actions based on a solid scientific basis. The further dissemination of this information to concerned European citizens will also lead to progressive policies at various jurisdictional levels that promote conservation. There is also a need for education, both of the general public and those involved in nature conservation, to raise awareness and to take bryophytes into account in conservation initiatives. If the bryophyte assessments are periodically updated, they will enable the changing status of these species to be tracked over time via the production of a Red List Index (Butchart et al., 2004; 2005; 2006; 2007). To date, this indicator has been produced for birds, mammals, amphibians and reptiles at the European level and has been adopted as one of the headline biodiversity indicators to monitor progress towards halting biodiversity loss in Europe by 2020 (EEA, 2007). 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Vicente-Serrano, S.M., Lopez-Moreno, J.I., Beguería, S., Lorenzo-Lacruz, J., Sanchez-Lorenzo, A., García- Ruiz, J.M., Azorin-Molina, C., Morán-Tejeda, E., Revuelto, J. and Trigo, R. (2014). ‘Evidence of increasing drought severity caused by temperature rise in southern Europe’. Environmental Research Letters 9(4): 1-9. Doi: 10.1088/1748-9326/9/4/044001 Villareal, J.C., Cargill, D.C., Hagborg, A., Söderström, S. and Renzaglia, K.S. (2010). ‘A synthesis of hornwort diversity: patterns, causes and future work’. Phytotaxa 9: 150-166. Doi: 10.11646/phytotaxa.9.1.8 39 Appendix 1. List of lead assessors by geographical region • Central Europe: Norbert Schnyder and Christian Schröck • Eastern Europe: Nadya Konstantinova and Elvira Baisheva • Macaronesia: Manuela Sim Sim • Northern Europe: Tomas Hallingbäck • Northwestern Europe: Nick Hodgetts • Southern Europe: Patrizia Campisi and Annalena Cogoni • Southeastern Europe: Marko Sabovljevic • Southwestern Europe: Cecilia Sérgio Appendix 2. Example of species summary and distribution map The Red List assessment of Orthotrichum urnigerum on the following pages provides an example of the information that has been compiled for all the European bryophyte species, including a distribution map. You can search for and download all the assessments and distribution maps from the European Red List website and data portal available online at http://ec.europa.eu/environment/nature/conservation/species/redlist/ and https://www.iucnredlist.org/ regions/europe. 40 2 Encalypta mutica - I. Hagen PLANTAE - BRYOPHYTA - BRYOPSIDA - ENCALYPTALES - ENCALYPTACEAE - Encalypta - mutica Common Names: Trubbklockmossa (Swedish) Synonyms: No Synonyms Red List Status VU - Vulnerable, C2a(i) (IUCN version 3.1) Red List Assessment Assessment Information Reviewed? Date of Review: Status: Reasons for Rejection: Improvements Needed: true 2017-07-26 Passed - - Assessor(s): Hodgetts, N., Blockeel, T., Konstantinova, N., Lönnell, N., Papp, B., Schnyder, N., Schröck, C., Sergio, C. & Untereiner, A. Reviewer(s): Wilbraham, J. & Cálix, M. Assessment Rationale European regional assessment: Vulnerable (VU) EU 28 regional assessment: Vulnerable (VU) Encalypta mutica is an essentially Arctic species that for a long time was thought to be a Scandinavian endemic, but it is now also known from Estonia and Arctic European Russia. This rare species is assessed as Vulnerable since it is estiated that there are fewer than 10,000 individual-equivalents in Europe and in the EU 28, and that each subpopulation has fewer than 1,000 individual-equivalents. One individual-equivalent (i.e., mature individual) is considered to be one square meter on which the species grows. In addition, the current population trend is decreasing slightly. Although the threats to this species appear to be largely unknown, it is certainly threatened, as it is both rare and apparently declining. It appears that it may be threatened by a lack of grazing in some localities. In the south part of Scandinavia, it is affected by the overgrowing of higher vegetation. Three localities were taken under monitoring in Estonia, where either grazing or simulation of grazing is needed in order to re-create and preserve suitable open soil patches for this species. Similar management can be recommended elsewhere. Research into threats is also recommended. Distribution Geographic Range Encalypta mutica is an essentially Arctic species that for a long time was thought to be a Scandinavian endemic, but it is now also known from Estonia and Arctic European Russia. The record from the Czech Republic was excluded in the 2003 edition of the Czech Red List (Kučera and Váňa 2003), but is considered at best uncertain in this assessment. Old records from Romania are probably errors (S. Stefanut pers. comm. 2016). There are also records from the lowlands of Ukraine but, without further details or specimens, these have to be regarded with scepticism. Elsewhere it occurs in Siberia, Greenland and northern North America. This species' area of occupancy (AOO) is estimated at 452 km², and its extent of occurrence (EOO) at ca 2.9 million km². 41 3 Elevation / Depth / Depth Zones Elevation Lower Limit (in metres above sea level): 0 Elevation Upper Limit (in metres above sea level): 900 Map Status Map Status How the map was created, including data sources/methods used: Please state reason for map not available: Data Sensitive? Justification Geographic range this applies to: Date restriction imposed: Done - - - - - - Biogeographic Realms Biogeographic Realm: Palearctic Occurrence Countries of Occurrence Country Presence Origin Formerly Bred Seasonality Czechia Presence Uncertain Native - Resident Estonia Extant Native - Resident Finland Extant Native - Resident Norway Extant Native - Resident Romania Presence Uncertain Native - Resident Russian Federation Extant Native - Resident Russian Federation -> European Russia Extant Native - Resident Russian Federation -> European Russia -> North European Russia Extant Native - Resident Svalbard and Jan Mayen Extant Native - Resident Sweden Extant Native - Resident Ukraine Presence Uncertain Native - Resident Ukraine -> Ukraine (main part) Presence Uncertain Native - Resident Population This species may have disappeared from some of its Norwegian localities, including the type locality near Trondheim (Hallingbäck et al. 2006). It seems to be threatened and declining in Estonia, where, in 2006, it was not found at one previously known locality (Vellak & Ingerpuu 2012). In Murmansk there is only one locality (where it is rare), and a single locality in Karelia and in the Polar Urals. The species is rather overlooked in the mountains where it is stable, although in the lowlands in can be declining in limestone quarries. The overall current population trend is considered to be decreasing slightly. The population is not severely fragmented. It is estimated that there are fewer than 10,000 individual-equivalents in Europe and in the EU 28, and that each subpopulation has fewer than 1,000 individual-equivalents. One individual- equivalent (i.e., mature individual) is considered to be one square meter on which the species grows. 42 4 Habitats and Ecology This essentially Arctic species grows on bare calcareous, and periodically wet, soil, typically in very sun-exposed situations, for example on alvar heaths, in limestone quarries and on gravel produced by weathering at the base of south-facing, calcium-rich alpine slopes. Associates include Ditrichum flexicaule, Encalypta vulgaris, Myurella julacea and Weissia controversa. The altitudinal range is from sea level up to 900 m Asl. IUCN Habitats Classification Scheme Habitat Season Suitability Major Importance? 4.2. Grassland -> Grassland - Subarctic Resident Suitable Yes 6. Rocky areas (eg. inland cliffs, mountain peaks) Resident Suitable Yes Systems System: Terrestrial Use and Trade General Use and Trade Information This species is not utilised or traded. Threats Although the threats to this species appear to be largely unknown, it is certainly threatened, as it is both rare and apparently declining. It appears that it may be threatened by a lack of grazing in some localities. In the south part of Scandinavia, it is affected by the overgrowing of higher vegetation. Conservation Three localities were taken under monitoring in Estonia, where either grazing or simulation of grazing is needed (by breaking the sod and opening the soil artificially) in order to re-create and preserve suitable open soil patches for this species (Vellak and Ingerpuu 2012). Similar management can be recommended elsewhere. Research into threats is also recommended. It is listed as Endangered in Finland, Vulnerable in Norway and Near Threatened in Sweden (Hodgetts 2015). It is known to occur in protected areas. Bibliography Hallingbäck, T., Lönnell, N. and Weibull, H. 2006. Encyclopedia of the Swedish Flora and Fauna: Bladmossor: Sköldmossor– Blåmossor. Bryophyta: Buxbaumia–Leucobryum. ArtDatabanken, Uppsala. Hodgetts, N.G. 2015. Checklist and country status of European bryophytes – towards a new Red List for Europe. Irish Wildlife Manuals, No. 84. National Parks and Wildlife Service, Department of the Arts, Heritage and the Gaeltacht, Ireland. IUCN. 2019. The IUCN Red List of Threatened Species. Version 2019-2. Available at: www.iucnredlist.org. (Accessed: 04 July 2019). Kučera, J. and Váňa, J. 2003. Check- and Red List of bryophytes of the Czech Republic. Preslia 75: 193-222. Vellak, K. and Ingerpuu, N. 2012. The state of bryophyte conservation in Estonia. Studia Botanica Hungarica 43: 59-68. 43 5 44 Appendix 3. Red List status of European mosses, liverworts and hornworts Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 ACROBOLBACEAE Acrobolbus azoricus EN B2ab(iii,iv,v) EN B2ab(iii,iv,v) Yes Yes Acrobolbus madeirensis EN B1ab(ii,iii,iv,v)+2ab(ii,iii,iv,v); C2a(i) EN B2ab(ii,iii,iv,v); C2a(i) Yes Yes Acrobolbus wilsonii VU D1 VU D1 Yes No ADELANTHACEAE Adelanthus lindenbergianus EN C2a(i) EN C2a(i) No No Pseudomarsupidium decipiens LC   LC   No No AMBLYSTEGIACEAE Amblystegium serpens LC   LC   No No Anacamptodon splachnoides NT B2b(iii) NT B2b(iii) No No Arvernella microclada EN D EN D Yes Yes Campyliadelphus chrysophyllus LC   LC   No No Campyliadelphus elodes NT A2c NT A2c No No Campylium laxifolium LC   LC   No No Campylium longicuspis VU D1 CR D No No Campylium protensum LC   LC   No No Campylium stellatum LC   LC   No No Campylophyllopsis calcarea LC   LC   No No Campylophyllopsis sommerfeltii LC   LC   No No Conardia compacta NT D1 NT D1 No No Cratoneuron curvicaule LC   LC   No No Cratoneuron filicinum LC   LC   No No Drepanocladus aduncus LC   LC   No No Drepanocladus angustifolius VU B2ab(iii) VU B2ab(iii); C2a (i) No No Drepanocladus arcticus NT B2b(iii) NE   No No Drepanocladus brevifolius LC   NE   No No Drepanocladus capillifolius NT B1b(iii,v) NT   No No Drepanocladus lycopodioides VU A2c; B2ab(ii,iii,iv,v) VU A2c; B2ab(ii,iii,iv,v) No No Drepanocladus polygamus LC   LC   No No Drepanocladus sendtneri VU A2c; B2ab(ii,iii,iv,v); C2a(i) VU A2c; B2ab(ii,iii,iv,v); C2a(i) No No Drepanocladus sordidus NT B2ab(i) NT   No No Drepanocladus trifarius LC   LC   No No Drepanocladus turgescens LC   VU C2a(i) No No Hygroamblystegium fluviatile LC   LC   No No Hygroamblystegium humile LC   LC   No No Hygroamblystegium tenax LC   LC   No No Hygroamblystegium varium LC   LC   No No Hygrohypnella ochracea LC   LC   No No Hygrohypnella polaris LC   NT   No No 45 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Hygrohypnum luridum LC   LC   No No Hygrohypnum styriacum EN B2ab(iii); C2a(i) EN B2ab(iii); C2a(i) No No Leptodictyum riparium LC   LC   No No Ochyraea tatrensis CR B1ab(iii,v)+2ab(iii,v); C2a(i); D CR B1ab(iii)+2ab(iii); C2a(i); D No No Palustriella commutata LC   LC   No No Palustriella decipiens LC   LC   No No Palustriella falcata LC   LC   No No Platydictya jungermannioides LC   LC   No No Platyhypnum alpestre LC   LC   No No Platyhypnum alpinum LC   LC   No No Platyhypnum cochlearifolium EN C2a(i) EN C2a (i) No No Platyhypnum duriusculum LC   LC   No No Platyhypnum molle VU C2a(i) VU C2a(i) No No Platyhypnum norvegicum VU D1 EN D No No Platyhypnum smithii LC   LC   No No Pseudoamblystegium subtile LC   LC   No No Pseudocampylium radicale LC   LC   No No Pseudohygrohypnum eugyrium LC   LC   No No Pseudohygrohypnum subeugyrium NT D1 VU D1 No No Sanionia nivalis NT B2b(iii) NT   No No Sanionia orthothecioides LC   LC   No No Sanionia uncinata LC   LC   No No Serpoleskea confervoides LC   LC   No No ANASTROPHYLLACEAE Biantheridion undulifolium EN B2ab(i,ii,iii,iv,v); C2a(i) EN B2ab(i,ii,iii,iv,v); C2a(i) No No Crossocalyx hellerianus LC   LC   No No Neoorthocaulis attenuatus LC   LC   No No Neoorthocaulis binsteadii LC   LC   No No Neoorthocaulis floerkei LC   LC   No No Neoorthocaulis hyperboreus VU D1 NE   No No Orthocaulis atlanticus LC   LC   No No Orthocaulis cavifolius DD   DD   No No Schljakovia kunzeana LC   LC   No No Schljakovianthus quadrilobus LC   LC   No No Tetralophozia filiformis CR D CR D No No Tetralophozia setiformis LC   NT   No No ANDREAEACEAE Andreaea alpestris DD   DD   Yes No Andreaea alpina LC   LC   No No Andreaea blyttii NT A3c; B2b(iii,iv,v) NT   No No Andreaea crassinervia EN C2a(i) EN C2a(i) No No Andreaea flexuosa EN B1ab(ii,iii,iv,v)+2ab(ii,iii,iv,v) EN B1ab(ii,iii,iv,v)+2ab( ii,iii,iv,v) No No Andreaea frigida VU C1 VU C1 Yes No Andreaea heinemannii NT B2a NT B2a No No Andreaea hookeri LC   LC   No No 46 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Andreaea megistospora LC   LC   No No Andreaea mutabilis LC   LC   No No Andreaea nivalis NT   LC   No No Andreaea rothii LC   LC   No No Andreaea rupestris LC   LC   No No Andreaea sinuosa VU D1+2 VU D1+2 No No ANEURACEAE Aneura latissima EN B2ab(ii,iii) EN B2ab(ii,iii) No No Aneura maxima DD   DD   No No Aneura mirabilis NT D1 NT   No No Aneura pinguis LC   LC   No No Riccardia chamedryfolia LC   LC   No No Riccardia incurvata LC   LC   No No Riccardia latifrons LC   LC   No No Riccardia multifida LC   LC   No No Riccardia palmata LC   LC   No No ANOMODONTACEAE Anomodon attenuatus LC   LC   No No Anomodon longifolius LC   LC   No No Anomodon rugelii NT D1 VU D1 No No Anomodon tristis VU D1 VU   No No Anomodon viticulosus LC   LC   No No ANTHELIACEAE Anthelia julacea LC   LC   No No Anthelia juratzkana LC   LC   No No ANTHOCEROTACEAE Anthoceros agrestis NT A2c+3c NT A2c+3c No No Anthoceros caucasicus LC   LC   No No Anthoceros neesii EN B2ab(iii) EN B2ab(iii) Yes Yes Anthoceros punctatus LC   LC   No No ARCHIDIACEAE Archidium alternifolium LC   LC   No No ARNELLIACEAE Arnellia fennica LC   NT   No No Gongylanthus ericetorum LC   LC   No No Southbya nigrella LC   LC   No No Southbya tophacea LC   LC   No No AULACOMNIACEAE Aulacomnium androgynum LC   LC   No No Aulacomnium palustre LC   LC   No No Aulacomnium turgidum LC   LC   No No AYTONIACEAE Asterella africana VU C2a(i) VU C2a(i) No No Asterella lindenbergiana LC   LC   No No Asterella saccata EN B2ab(iii,iv,v) EN B2ab(iii,iv,v) No No Mannia androgyna LC   LC   No No Mannia californica EN D EN D No No 47 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Mannia controversa EN D EN D No No Mannia fragrans VU A2c VU A2c No No Mannia gracilis LC   LC   No No Mannia pilosa LC   LC   No No Mannia sibirica CR D CR D No No Mannia triandra VU D1 VU D1 No No Plagiochasma appendiculatum VU D2 VU D2 No No Plagiochasma rupestre LC   LC   No No Reboulia hemisphaerica LC   LC   No No BARTRAMIACEAE Anacolia menziesii VU D1 VU D1 No No Anacolia webbii LC   LC   No No Bartramia aprica LC   LC   No No Bartramia breviseta VU D1 NE   No No Bartramia halleriana LC   LC   No No Bartramia ithyphylla LC   LC   No No Bartramia laevisphaera EN D EN D No No Bartramia pomiformis LC   LC   No No Bartramia subulata EN D EN D No No Breutelia azorica EN A3c; B2ab(iii,v) EN A3c; B2ab(iii,v) Yes Yes Breutelia chrysocoma LC   LC   Yes No Conostomum tetragonum LC   LC   No No Philonotis caespitosa LC   LC   No No Philonotis calcarea NT A3c NT A3c No No Philonotis capillaris LC   LC   No No Philonotis cernua CR B1ab(i,ii,iii,iv,v)+2ab(i,ii,iii,iv,v); C2a(i); D CR B2ab(i,ii,iii,iv,v); C2a(i); D No No Philonotis fontana LC   LC   No No Philonotis hastata NT B2ab(iii) NT B2ab(iii) No No Philonotis marchica EN C2a(i) EN C2a(i) No No Philonotis rigida VU C2a(i) VU C2a(i) No No Philonotis seriata LC   LC   No No Philonotis tomentella LC   NT   No No Philonotis uncinata VU B2ab(iii) VU B2ab(iii) No No Plagiopus oederianus LC   LC   No No BLASIACEAE Blasia pusilla LC   LC   No No BRACHYTHECIACEAE Brachytheciastrum collinum LC   NT D1 No No Brachytheciastrum dieckei LC   LC   No No Brachytheciastrum olympicum VU B2ab(ii,iv) VU B2ab(ii,iv) No No Brachytheciastrum trachypodium LC   LC   No No Brachytheciastrum vanekii EN B1ab(iii,iv,v)+2ab(iii,iv,v) EN B1ab(iii,iv,v)+ 2ab(iii,iv,v) Yes Yes Brachytheciastrum velutinum LC   LC   No No Brachythecium albicans LC   LC   No No Brachythecium buchananii EN B2ab(iii); D NE   No No Brachythecium campestre LC   LC   No No Brachythecium capillaceum LC   DD   No No 48 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Brachythecium cirrosum LC   LC   No No Brachythecium erythrorrhizon LC   LC   No No Brachythecium funkii VU D1 VU D1 Yes Yes Brachythecium geheebii VU D1 VU D1 Yes No Brachythecium glareosum LC   LC   No No Brachythecium japygum LC   LC   Yes No Brachythecium laetum LC   LC   No No Brachythecium mildeanum LC   LC   No No Brachythecium novae-angliae LC   VU D1 No No Brachythecium rivulare LC   LC   No No Brachythecium rutabulum LC   LC   No No Brachythecium salebrosum LC   LC   No No Brachythecium tauriscorum LC   LC   No No Brachythecium tenuicaule LC   LC   Yes No Brachythecium tommasinii LC   LC   No No Brachythecium turgidum LC   LC   No No Brachythecium udum LC   LC   No No Cirriphyllum crassinervium LC   LC   No No Cirriphyllum piliferum LC   LC   No No Clasmatodon parvulus RE   RE   No No Eurhynchiastrum pulchellum LC   LC   No No Eurhynchium angustirete LC   LC   No No Eurhynchium striatum LC   LC   No No Hedenasiastrum percurrens EN A3c EN A3c Yes Yes Homalothecium aureum LC   LC   No No Homalothecium lutescens LC   LC   No No Homalothecium mandonii VU A3c VU A3c No No Homalothecium meridionale LC   LC   Yes No Homalothecium philippeanum LC   LC   No No Homalothecium sericeum LC   LC   No No Kindbergia praelonga LC   LC   No No Microeurhynchium pumilum LC   LC   No No Myuroclada longiramea DD   NA   No No Myuroclada maximowiczii NA   NE   No No Nobregaea latinervis EX   EX   Yes Yes Oxyrrhynchium hians LC   LC   No No Oxyrrhynchium schleicheri LC   LC   No No Oxyrrhynchium speciosum LC   LC   No No Palamocladium euchloron EN B2ab(iii); D CR D No No Platyhypnidium grolleanum DD   DD   Yes Yes Pseudorhynchostegiella duriaei NT   NT   No No Pseudoscleropodium purum LC   LC   No No Rhynchostegiella azorica NT B1a+2a NT B1a+2a Yes Yes Rhynchostegiella bourgaeana EN A3c; B2ab(iii) EN A3c; B2ab(iii) Yes Yes Rhynchostegiella curviseta LC   LC   No No Rhynchostegiella litorea LC   LC   No No 49 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Rhynchostegiella pseudolitorea NT B2b(iii) NT B2b(iii) Yes Yes Rhynchostegiella tenella LC   LC   No No Rhynchostegiella teneriffae LC   LC   No No Rhynchostegiella trichophylla VU A3c VU A3c Yes Yes Rhynchostegiella tubulosa DD   DD   Yes Yes Rhynchostegium alopecuroides LC   LC   Yes No Rhynchostegium confertum LC   LC   No No Rhynchostegium confusum VU D1 VU D1 Yes Yes Rhynchostegium megapolitanum LC   LC   No No Rhynchostegium murale LC   LC   No No Rhynchostegium riparioides LC   LC   No No Rhynchostegium rotundifolium LC   LC   No No Rhynchostegium strongylense EN D EN D Yes Yes Sciuro-hypnum curtum LC   LC   No No Sciuro-hypnum dovrense VU C2a(i) EN C2a(i) No No Sciuro-hypnum flotowianum LC   LC   No No Sciuro-hypnum glaciale LC   LC   No No Sciuro-hypnum latifolium LC   NT   No No Sciuro-hypnum oedipodium DD   NE   No No Sciuro-hypnum ornellanum EN D EN D No No Sciuro-hypnum plumosum LC   LC   No No Sciuro-hypnum populeum LC   LC   No No Sciuro-hypnum reflexum LC   LC   No No Sciuro-hypnum starkei LC   LC   No No Sciuro-hypnum tromsoeense LC   LC   No No Scleropodium cespitans LC   LC   No No Scleropodium touretii LC   LC   No No Scorpiurium circinatum LC   LC   No No Scorpiurium deflexifolium LC   LC   No No Scorpiurium sendtneri LC   LC   No No Tomentypnum nitens NT A2c NT   No No BRUCHIACEAE Bruchia flexuosa CR D CR D No No Bruchia vogesiaca EN B2ab(ii,iii,iv) EN B2ab(ii,iii,iv) No No Trematodon ambiguus LC   LC   No No Trematodon brevicollis VU D1 VU D1 No No Trematodon laetevirens EN D EN D No No Trematodon longicollis VU D1 VU D1 No No Trematodon perssoniorum CR B1ab(iii) CR B1ab(iii) Yes Yes BRYACEAE Anomobryum bavaricum VU D1 VU D1 No No Anomobryum concinnatum LC   LC   No No Anomobryum julaceum LC   LC   No No Anomobryum lusitanicum VU D1 VU D1 Yes Yes Brachymenium notarisii NT B2b(iii,iv,v) NT B2b(iii,iv,v) No No Brachymenium paradoxum DD   NE   Yes No Brachymenium philonotula RE   RE   No No 50 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Bryum apiculatum LC   LC   No No Bryum argenteum LC   LC   No No Bryum austriacum VU D1 VU D1 Yes No Bryum blindii EN D EN D No No Bryum calophyllum EN B2ab(ii,iii,iv,v) EN B2ab(ii,iii,iv,v) No No Bryum canariense LC   LC   No No Bryum cellulare EN B2ab(iii) EN B2ab(iii) No No Bryum cryophilum NT B2b(i,ii,iii,iv,v) VU C2a(i) No No Bryum demaretianum DD   DD   Yes No Bryum dichotomum LC   LC   No No Bryum dixonii NT D1 NT D1 Yes No Bryum dyffrynense NT B2b(iii,iv,v) NT B2b(iii,iv,v) Yes No Bryum elegans LC   LC   No No Bryum funkii VU B2ab(iii) EN B2ab(iii) No No Bryum gemmiferum LC   LC   No No Bryum gemmilucens LC   LC   No No Bryum gemmiparum LC   LC   No No Bryum intermedium DD   DD   No No Bryum klinggraeffii LC   LC   No No Bryum knowltonii VU C2a(i) VU C2a(i) No No Bryum kunzei LC   LC   No No Bryum marratii EN B2ab(ii,iii,iv,v) EN B2ab(ii,iii,iv,v) No No Bryum miniatum VU D1 NE   No No Bryum minii LC   LC   Yes Yes Bryum oblongum NT C2a(i) VU C2a(i) No No Bryum radiculosum LC   LC   No No Bryum riparium VU D1 VU D1 No No Bryum ruderale LC   LC   No No Bryum salinum VU C2a(i) EN C2a(i) No No Bryum sauteri LC   LC   No No Bryum schleicheri LC   LC   No No Bryum subapiculatum LC   LC   No No Bryum tenuisetum LC   LC   No No Bryum turbinatum VU C2a(i) VU C2a(i) No No Bryum valparaisense VU D1 VU D1 No No Bryum versicolor EN B2b(ii,iii,iv,v)c(iii,iv) EN B2b(ii,iii,iv,v)c(iii,iv) Yes No Bryum violaceum LC   LC   No No Bryum warneum VU B2ab(i,ii,iii,iv,v) VU B2ab(i,ii,iii,iv,v) No No Bryum weigelii LC   LC   No No Bryum wrightii NT   VU D1 No No Imbribryum alpinum LC   LC   No No Imbribryum mildeanum LC   LC   No No Imbribryum muehlenbeckii LC   LC   No No Ptychostomum arcticum LC   LC   No No Ptychostomum bornholmense LC   LC   Yes No Ptychostomum capillare LC   LC   No No 51 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Ptychostomum cernuum EN B2ab(i,ii,iii,iv,v) EN B2ab(i,ii,iii,iv,v) No No Ptychostomum compactum LC   LC   No No Ptychostomum creberrimum LC   LC   No No Ptychostomum cyclophyllum LC   LC   No No Ptychostomum demissum EN C2a(i) EN C2a(i) No No Ptychostomum donianum LC   LC   No No Ptychostomum imbricatulum LC   LC   No No Ptychostomum inclinatum LC   LC   No No Ptychostomum longisetum CR C2a(i) CR C2a(i) No No Ptychostomum moravicum LC   LC   No No Ptychostomum pallens LC   LC   No No Ptychostomum pallescens LC   LC   No No Ptychostomum pseudotriquetrum LC   LC   No No Ptychostomum rubens LC   LC   No No Ptychostomum torquescens LC   LC   No No Ptychostomum zieri LC   LC   No No Rhodobryum ontariense LC   LC   No No Rhodobryum roseum LC   LC   No No BRYOXIPHIACEAE Bryoxiphium madeirense EN A3c EN A3c No No Bryoxiphium norvegicum LC   CR B1ab(iii)+2ab(iii); D No No BUXBAUMIACEAE Buxbaumia aphylla LC   LC   No No Buxbaumia viridis LC   LC   No No CALLIERGONACEAE Calliergon cordifolium LC   LC   No No Calliergon giganteum LC   LC   No No Calliergon megalophyllum LC   LC   No No Calliergon richardsonii LC   LC   No No Hamatocaulis lapponicus EN B2ab(i,ii,iii,iv,v) EN B2ab(i,ii,iii,iv,v) No No Hamatocaulis vernicosus VU A2c VU A2c No No Loeskypnum badium LC   LC   No No Sarmentypnum exannulatum LC   LC   No No Sarmentypnum sarmentosum LC   LC   No No Straminergon stramineum LC   LC   No No Warnstorfia fluitans LC   LC   No No Warnstorfia procera LC   LC   No No Warnstorfia pseudostraminea LC   LC   No No Warnstorfia trichophylla LC   LC   No No Warnstorfia tundrae LC   LC   No No CALYCULARIACEAE Calycularia laxa CR D NE   No No CALYMPERACEAE Calymperes erosum CR D CR D No No CALYPOGEIACEAE Calypogeia arguta LC   LC   No No Calypogeia azorica EN B2ab(ii,iii) EN B2ab(ii,iii) Yes Yes 52 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Calypogeia azurea LC   LC   No No Calypogeia fissa LC   LC   No No Calypogeia integristipula LC   LC   No No Calypogeia muelleriana LC   LC   No No Calypogeia neesiana LC   LC   No No Calypogeia sphagnicola LC   LC   No No Calypogeia suecica LC   LC   No No Mnioloma fuscum VU C2a(i) VU C2a(i) No No CATOSCOPIACEAE Catoscopium nigritum LC   LC   No No CEPHALOZIACEAE Cephalozia ambigua LC   LC   No No Cephalozia bicuspidata LC   LC   No No Cephalozia lacinulata CR C2a(i); D CR C2a(i); D No No Cephalozia macounii CR D CR D No No Fuscocephaloziopsis affinis NT   NT   No No Fuscocephaloziopsis albescens LC   NT   No No Fuscocephaloziopsis catenulata LC   LC   No No Fuscocephaloziopsis connivens LC   LC   No No Fuscocephaloziopsis crassifolia LC   LC   No No Fuscocephaloziopsis leucantha LC   LC   No No Fuscocephaloziopsis loitlesbergeri LC   LC   No No Fuscocephaloziopsis lunulifolia LC   LC   No No Fuscocephaloziopsis macrostachya LC   LC   No No Fuscocephaloziopsis pleniceps LC   LC   No No Hygrobiella laxifolia LC   LC   No No Nowellia curvifolia LC   LC   No No Odontoschisma denudatum LC   LC   No No Odontoschisma elongatum LC   LC   No No Odontoschisma fluitans LC   LC   No No Odontoschisma francisci NT C2a(i) VU C2a(i) No No Odontoschisma macounii LC   LC   No No Odontoschisma sphagni LC   LC   No No CEPHALOZIELLACEAE Cephaloziella arctogena VU D1 EN D No No Cephaloziella aspericaulis CR D DD   No No Cephaloziella baumgartneri LC   LC   No No Cephaloziella calyculata NT   NT   No No Cephaloziella dentata EN B2ab(iii,v) EN B2ab(iii,v) No No Cephaloziella divaricata LC   LC   No No Cephaloziella elachista VU C2a(i) VU C2a(i) No No Cephaloziella elegans DD   DD   No No Cephaloziella granatensis EN B1ab(iii,iv)+2ab(iii,iv) EN B1ab(iii,iv +2ab(iii,iv) No No Cephaloziella grimsulana DD   DD   No No Cephaloziella hampeana LC   LC   No No Cephaloziella integerrima EN B2ab(iii,v); C2a(i) EN B2ab(iii,v); C2a(i) No No 53 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Cephaloziella massalongi EN B2ab(ii,iii,iv,v) EN B2ab(ii,iii,iv,v) No No Cephaloziella nicholsonii EN C2a(i) EN C2a(i) Yes Yes Cephaloziella phyllacantha CR D CR D No No Cephaloziella polystratosa EN D NE   No No Cephaloziella rubella LC   LC   No No Cephaloziella spinigera NT B2b(iv,v) NT   No No Cephaloziella stellulifera LC   LC   No No Cephaloziella turneri LC   LC   No No Cephaloziella uncinata NT B2b(iii,iv) DD   No No Cephaloziella varians LC   LC   No No CINCLIDOTACEAE Cinclidotus aquaticus LC   LC   No No Cinclidotus danubicus LC   LC   No No Cinclidotus fontinaloides LC   LC   No No Cinclidotus riparius LC   LC   No No Cinclidotus vivesii DD   DD   Yes Yes CLEVEACEAE Clevea hyalina LC   LC   No No Clevea spathysii NT   NT   No No Peltolepis quadrata LC   LC   No No Sauteria alpina LC   LC   No No CLIMACIACEAE Climacium dendroides LC   LC   No No CONOCEPHALACEAE Conocephalum conicum LC   LC   No No Conocephalum salebrosum LC   LC   No No CORSINIACEAE Corsinia coriandrina LC   LC   No No CRYPHAEACEAE Cryphaea heteromalla LC   LC   No No Dendrocryphaea lamyana NT   LC   Yes Yes CYATHODIACEAE Cyathodium foetidissimum CR D CR D No No DALTONIACEAE Achrophyllum dentatum NA   NA   No No Calyptrochaeta apiculata NA   NA   No No Daltonia splachnoides LC   LC   No No Daltonia stenophylla EN B2ab(iii) EN B2ab(iii) No No Distichophyllum carinatum CR C2a(i); D CR C2a(i); D No No DELAVAYELLACEAE Liochlaena lanceolata LC   LC   No No Liochlaena subulata NT   NT   No No DICRANACEAE Aongstroemia longipes LC   LC   No No Cnestrum alpestre LC   NT   No No Cnestrum glaucescens NT   VU D1 No No Cnestrum schisti LC   LC   No No 54 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Dicranella cerviculata LC   LC   No No Dicranella crispa LC   LC   No No Dicranella grevilleana LC   LC   No No Dicranella heteromalla LC   LC   No No Dicranella howei LC   LC   No No Dicranella humilis LC   LC   No No Dicranella rufescens LC   LC   No No Dicranella schreberiana LC   LC   No No Dicranella staphylina LC   LC   No No Dicranella subulata LC   LC   No No Dicranella varia LC   LC   No No Dicranum acutifolium LC   LC   No No Dicranum angustum LC   LC   No No Dicranum bardunovii DD   NE   No No Dicranum bonjeanii LC   LC   No No Dicranum brevifolium LC   LC   No No Dicranum crassifolium NT B2b(i) LC   Yes Yes Dicranum dispersum EN D EN D No No Dicranum drummondii LC   NT   No No Dicranum elongatum LC   LC   No No Dicranum flagellare LC   LC   No No Dicranum flexicaule LC   LC   No No Dicranum fragilifolium LC   NT   No No Dicranum fulvum LC   LC   No No Dicranum fuscescens LC   LC   No No Dicranum groenlandicum LC   NT   No No Dicranum laevidens LC   VU D No No Dicranum leioneuron LC   LC   No No Dicranum majus LC   LC   No No Dicranum montanum LC   LC   No No Dicranum muehlenbeckii VU C2a(i) VU C2a(i) No No Dicranum polysetum LC   LC   No No Dicranum schljakovii DD   NE   No No Dicranum scoparium LC   LC   No No Dicranum scottianum LC   LC   Yes No Dicranum septentrionale NT   NT   No No Dicranum spadiceum LC   LC   No No Dicranum spurium LC   LC   No No Dicranum tauricum LC   LC   No No Dicranum transsylvanicum CR D CR D No No Dicranum undulatum LC   LC   No No Dicranum viride LC   LC   No No Diobelonella palustris LC   LC   No No Paraleucobryum enerve LC   LC   No No Paraleucobryum longifolium LC   LC   No No Paraleucobryum sauteri NT B2b(iii,v); C2a(i) NT B2b(iii,v); C2a(i) No No Pseudephemerum nitidum LC   LC   No No 55 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 DIPHYSCIACEAE Diphyscium foliosum LC   LC   No No DISCELIACEAE Discelium nudum LC   LC   No No DITRICHACEAE Ceratodon conicus NT D1 NT D1 No No Ceratodon purpureus LC   LC   No No Cheilothela chloropus LC   LC   No No Cleistocarpidium palustre VU C2a(i) VU C2a(i) No No Distichium capillaceum LC   LC   No No Distichium hagenii NT D1 EN D No No Distichium inclinatum LC   LC   No No Ditrichum cornubicum CR D CR D Yes Yes Ditrichum heteromallum LC   LC   No No Ditrichum lineare LC   LC   No No Ditrichum pallidum NT B2b(iii); D1 NT B2b(iii); D1 No No Ditrichum plumbicola EN B2ab(iii,iv,v)c(iv) EN B2ab(iii,iv,v)c(iv) Yes Yes Ditrichum punctulatum NT B2ab(iii) NT B2ab(iii) No No Ditrichum pusillum LC   LC   No No Ditrichum subulatum LC   LC   No No Ditrichum zonatum LC   LC   No No Pleuridium acuminatum LC   LC   No No Pleuridium subulatum LC   LC   No No Rhamphidium purpuratum NT B2b(iii) NT B2b(iii) Yes Yes Saelania glaucescens LC   LC   No No Trichodon cylindricus LC   LC   No No DUMORTIERACEAE Dumortiera hirsuta NT C2a(i) NT C2a(i) No No ECHINODIACEAE Echinodium renauldii EN A3c; C2a(i) EN A3c; C2a(i) No No Echinodium setigerum EN A3c; C2a(i) EN A3c; C2a(i) Yes Yes Echinodium spinosum EN A3c; C2a(i) EN A3c; C2a(i) Yes Yes ENCALYPTACEAE Bryobrittonia longipes VU D2 NE   No No Encalypta affinis DD   DD   No No Encalypta alpina LC   LC   No No Encalypta brevicolla LC   NT   No No Encalypta brevipes EN D CR D No No Encalypta ciliata LC   LC   No No Encalypta longicolla LC   LC   No No Encalypta microstoma LC   LC   No No Encalypta mutica VU C2a(i) VU C2a(i) No No Encalypta pilifera LC   LC   No No Encalypta procera LC   LC   No No Encalypta rhaptocarpa LC   LC   No No Encalypta spathulata VU D1 EN D No No Encalypta streptocarpa LC   LC   No No 56 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Encalypta vulgaris LC   LC   No No ENDOGEMMATACEAE Endogemma caespiticia LC   NT   No No ENTODONTACEAE Entodon cladorrhizans DD   DD   No No Entodon concinnus LC   LC   No No Entodon schleicheri LC   LC   No No EPHEMERACEAE Ephemerum cohaerens VU B2b(i,ii,iii,iv,v)c(iii,iv) VU B2b(i,ii,iii,iv,v)c(iii,iv) No No Ephemerum crassinervium NT B2b(iii,v) NT B2b(iii,v) No No Ephemerum minutissimum LC   LC   No No Ephemerum recurvifolium NT B2b(iii,v) NT B2b(iii,v) No No Ephemerum serratum LC   LC   No No Ephemerum spinulosum DD   DD   No No Micromitrium tenerum EN B2ab(iii)c(iii,iv) EN B2ab(iii)c(iii,iv) No No EXORMOTHECACEAE Exormotheca pustulosa NT B2b(iii) NT B2b(iii) No No Exormotheca welwitschii EN B2ab(iii,v) EN B2ab(iii,v) No No FABRONIACEAE Fabronia ciliaris VU D1 VU D1 No No Fabronia pusilla LC   LC   No No FISSIDENTACEAE Fissidens adianthoides LC   LC   No No Fissidens arcticus EN D NE   No No Fissidens arnoldii VU D1 VU D1 No No Fissidens asplenioides LC   LC   No No Fissidens azoricus CR B1ab(iii)+2ab(iii); D CR B1ab(iii)+2ab(iii); D Yes Yes Fissidens bryoides LC   LC   No No Fissidens celticus LC   LC   Yes No Fissidens coacervatus NT B2b(iii) NT B2b(iii) Yes Yes Fissidens crassipes LC   LC   No No Fissidens crispus LC   LC   No No Fissidens curvatus DD   DD   No No Fissidens dubius LC   LC   No No Fissidens exilis LC   LC   No No Fissidens fontanus LC   LC   No No Fissidens gracilifolius LC   LC   No No Fissidens grandifrons LC   LC   No No Fissidens gymnandrus LC   LC   No No Fissidens jansenii CR B1ab(iii)+2ab(iii); D CR B1ab(iii)+2ab(iii); D Yes Yes Fissidens microstictus EX   EX   Yes Yes Fissidens monguillonii DD   DD   No No Fissidens nobreganus EN C2a(i) EN C2a(i) Yes Yes Fissidens osmundoides LC   LC   No No Fissidens ovatifolius DD   DD   No No Fissidens polyphyllus LC   LC   No No 57 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Fissidens pusillus LC   LC   No No Fissidens rivularis NT B2b(iii) NT B2b(iii) No No Fissidens rufulus LC   LC   No No Fissidens serratus EN C2a(i) EN C2a(i) No No Fissidens serrulatus LC   LC   No No Fissidens sublimbatus DD   DD   No No Fissidens sublineaefolius NT B2b(iii) NT B2b(iii) Yes Yes Fissidens taxifolius LC   LC   No No Fissidens viridulus LC   LC   No No FLEXITRICHACEAE Flexitrichum flexicaule LC   LC   No No Flexitrichum gracile LC   LC   No No FONTINALACEAE Dichelyma capillaceum NT C2a(i) NT   No No Dichelyma falcatum LC   LC   No No Fontinalis antipyretica LC   LC   No No Fontinalis dalecarlica NT B2b(iii) NT   No No Fontinalis dichelymoides NT   NT   Yes No Fontinalis hypnoides LC   LC   No No Fontinalis squamosa LC   LC   No No FOSSOMBRONIACEAE Fossombronia angulosa LC   LC   No No Fossombronia caespitiformis LC   LC   No No Fossombronia echinata NT   NT   No No Fossombronia fimbriata LC   LC   Yes Yes Fossombronia fleischeri DD   DD   Yes Yes Fossombronia fleischeri DD   DD   Yes Yes Fossombronia foveolata LC   NT   No No Fossombronia incurva LC   LC   Yes No Fossombronia leucoxantha NT B2b(iii) NT B2b(iii) No No Fossombronia maritima LC   LC   Yes No Fossombronia mittenii DD   DD   No No Fossombronia pusilla LC   LC   No No Fossombronia wondraczekii LC   LC   No No FRULLANIACEAE Frullania acicularis NT B2b(iii) NT B2b(iii) Yes Yes Frullania azorica LC   LC   Yes Yes Frullania bolanderi NT   CR B2ab(iii) No No Frullania calcarifera NT B2b(iii) NT B2b(iii) No No Frullania dilatata LC   LC   No No Frullania ericoides LC   LC   No No Frullania fragilifolia LC   LC   No No Frullania inflata EN B2ab(iii) EN B2ab(iii) No No Frullania jackii VU D1 VU D1 Yes No Frullania microphylla LC   LC   Yes No Frullania oakesiana EN C2a(i) EN C2a(i) No No Frullania parvistipula CR C2a(i) CR C2a(i) No No 58 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Frullania polysticta VU A3c VU A3c No No Frullania riparia EN B2ab(iii); D EN B2ab(iii); D No No Frullania sergiae CR D CR D2 No No Frullania subarctica DD   NE   No No Frullania tamarisci LC   LC   No No Frullania teneriffae LC   LC   No No FUNARIACEAE Entosthodon attenuatus LC   LC   No No Entosthodon commutatus EN B2ab(iii,v) EN B2ab(iii,v) No No Entosthodon convexus LC   LC   No No Entosthodon duriaei NT   NT   No No Entosthodon fascicularis LC   LC   No No Entosthodon hungaricus LC   LC   No No Entosthodon kroonkurk LC   LC   Yes Yes Entosthodon mouretii NT   NT   No No Entosthodon muhlenbergii NT B2b(iii,v) NT B2b(iii,v) No No Entosthodon obtusus LC   LC   No No Entosthodon pulchellus LC   LC   No No Entosthodon schimperi NT B2b(iii,v) NT B2b(iii,v) No No Funaria arctica VU D1 DD   No No Funaria hygrometrica LC   LC   No No Funaria microstoma DD   DD   No No Funariella curviseta VU B2ab(iii,v) VU B2ab(iii,v) No No Goniomitrium seroi NT B2b(iii) NT B2b(iii) Yes Yes Physcomitrella patens LC   LC   No No Physcomitridium readeri VU D1 VU D1 No No Physcomitrium arenicola EN B2ac(iv) NE   Yes No Physcomitrium eurystomum VU B2b(ii,iii)c(iii,iv) EN B2b(ii,iii)c(iii,iv) No No Physcomitrium pyriforme LC   LC   No No Physcomitrium sphaericum VU B2b(ii,iii)c(iii,iv) VU B2b(ii,iii)c(iii,iv) No No Pyramidula tetragona EN B2ab(iii) EN B2ab(iii) No No GEOCALYCACEAE Geocalyx graveolens NT C2a(i) NT   No No Harpanthus flotovianus LC   LC   No No Harpanthus scutatus LC   LC   No No Saccogyna viticulosa LC   LC   No No GIGASPERMACEAE Gigaspermum mouretii NT B2b(iii) NT B2b(iii) No No Oedipodiella australis EN B2ab(i,ii,iii,v); D EN B2b(i,ii,iii,v); D1 No No GRIMMIACEAE Coscinodon cribrosus LC   LC   No No Coscinodon horridus DD   DD   Yes Yes Coscinodon humilis DD   DD   Yes No Coscinodon monchiquensis CR B1ab(iii)+2ab(iii) CR B1ab(iii)+2ab(iii) Yes Yes Grimmia alpestris LC   LC   No No Grimmia anodon LC   LC   No No Grimmia anomala LC   LC   No No 59 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Grimmia arenaria DD   DD   Yes No Grimmia atrata LC   LC   No No Grimmia caespiticia LC   LC   No No Grimmia capillata VU D1 VU D1 No No Grimmia crinita VU C2a(i) VU C2a(i) No No Grimmia crinitoleucophaea LC   LC   No No Grimmia curviseta VU D2 VU D2 Yes Yes Grimmia decipiens LC   LC   No No Grimmia dissimulata LC   LC   No No Grimmia donniana LC   LC   No No Grimmia elatior LC   LC   No No Grimmia elongata LC   LC   No No Grimmia funalis LC   LC   No No Grimmia fuscolutea VU D1 VU D1 No No Grimmia hartmanii LC   LC   No No Grimmia incurva LC   LC   No No Grimmia laevigata LC   LC   No No Grimmia lisae LC   LC   No No Grimmia longirostris LC   LC   No No Grimmia meridionalis LC   LC   No No Grimmia mollis VU D1 VU D1 No No Grimmia montana LC   LC   No No Grimmia muehlenbeckii LC   LC   No No Grimmia nutans EN B2ab(iii); D EN B2ab(iii); D No No Grimmia orbicularis LC   LC   No No Grimmia ovalis LC   LC   No No Grimmia plagiopodia VU D1 VU D1 No No Grimmia pulvinata LC   LC   No No Grimmia ramondii LC   LC   No No Grimmia reflexidens LC   LC   No No Grimmia teretinervis NT B2a; D1 VU D1 No No Grimmia tergestina LC   LC   No No Grimmia torquata LC   LC   No No Grimmia trichophylla LC   LC   No No Grimmia triformis DD   DD   No No Grimmia ungeri EN D EN D No No Grimmia unicolor LC   LC   No No Racomitrium aciculare LC   LC   No No Racomitrium affine LC   LC   No No Racomitrium aquaticum LC   LC   No No Racomitrium canescens LC   LC   No No Racomitrium ellipticum LC   LC   No No Racomitrium elongatum LC   LC   No No Racomitrium ericoides LC   LC   No No Racomitrium fasciculare LC   LC   No No Racomitrium hespericum NT   NT   Yes Yes 60 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Racomitrium heterostichum LC   LC   No No Racomitrium himalayanum VU D1 VU D1 No No Racomitrium lamprocarpum NT B2b(ii,iii) NT   No No Racomitrium lanuginosum LC   LC   No No Racomitrium lusitanicum EN B2ab(iii,v) EN B2ab(iii) Yes Yes Racomitrium macounii LC   LC   No No Racomitrium microcarpon LC   LC   No No Racomitrium nivale VU D1 VU D1 Yes No Racomitrium obtusum LC   LC   Yes No Racomitrium panschii LC   NE   No No Racomitrium sudeticum LC   LC   No No Schistidium abrupticostatum LC   DD   No No Schistidium agassizii LC   LC   No No Schistidium andreaeopsis DD   NE   No No Schistidium apocarpum LC   LC   No No Schistidium atrofuscum LC   LC   No No Schistidium boreale LC   LC   No No Schistidium brunnescens LC   LC   No No Schistidium bryhnii VU D1 NE   Yes No Schistidium canadense DD   NE   No No Schistidium confertum LC   LC   No No Schistidium confusum LC   LC   No No Schistidium crassipilum LC   LC   No No Schistidium crenatum LC   LC   No No Schistidium dupretii LC   LC   No No Schistidium echinatum EN D EN D No No Schistidium elegantulum LC   LC   No No Schistidium flaccidum VU C2a(i) VU C2a(i) No No Schistidium flexipile LC   LC   No No Schistidium frigidum LC   LC   No No Schistidium frisvollianum VU D1 VU D1 No No Schistidium grande VU D1 VU D1 Yes No Schistidium grandirete VU D1 VU D1 No No Schistidium helveticum LC   LC   No No Schistidium holmenianum CR C2a(i) NE   No No Schistidium lancifolium LC   LC   No No Schistidium maritimum LC   LC   No No Schistidium obscurum DD   DD   No No Schistidium occidentale CR D CR D No No Schistidium papillosum LC   LC   No No Schistidium platyphyllum LC   LC   No No Schistidium poeltii LC   LC   No No Schistidium pruinosum LC   LC   No No Schistidium pulchrum LC   LC   No No Schistidium recurvum LC   LC   No No Schistidium rivulare LC   LC   No No 61 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Schistidium robustum LC   LC   No No Schistidium scandicum LC   LC   Yes No Schistidium sibiricum VU D1 DD   No No Schistidium sinensiapocarpum LC   LC   No No Schistidium sordidum LC   DD   No No Schistidium spinosum CR C2a(i) CR C2a(i) Yes No Schistidium strictum LC   LC   No No Schistidium subflaccidum LC   LC   No No Schistidium subjulaceum LC   LC   No No Schistidium submuticum LC   VU D1 Yes No Schistidium tenerum VU D1 EN D No No Schistidium trichodon LC   LC   No No Schistidium umbrosum LC   DD   No No Schistidium venetum LC   VU D1 No No GYMNOMITRIACEAE Gymnomitrion adustum LC   LC   Yes No Gymnomitrion alpinum VU C2a(i) VU C2a(i) No No Gymnomitrion brevissimum LC   LC   No No Gymnomitrion commutatum LC   LC   No No Gymnomitrion concinnatum LC   LC   No No Gymnomitrion corallioides LC   LC   No No Gymnomitrion crenulatum LC   LC   Yes No Gymnomitrion obtusum LC   LC   No No Gymnomitrion revolutum NT D1 VU D1 No No Marsupella andreaeoides NT   NE   Yes No Marsupella apiculata LC   LC   No No Marsupella aquatica LC   LC   No No Marsupella arctica VU D1 EN D No No Marsupella boeckii LC   VU D1 No No Marsupella condensata VU C2a(i) EN C2a(i) No No Marsupella emarginata LC   LC   No No Marsupella funckii LC   LC   No No Marsupella profunda VU D1 VU D1 No No Marsupella sparsifolia NT B2b(iii) VU B2a,b(ii,iii) No No Marsupella sphacelata LC   LC   No No Marsupella spiniloba DD   DD   No No Marsupella sprucei LC   LC   No No Marsupella stableri NT B2b(iii,v) NT B2b(iii,v) No No Prasanthus suecicus LC   LC   No No HAPLOMITRIACEAE Haplomitrium hookeri LC   LC   No No HEDWIGIACEAE Braunia alopecura VU D1 VU D1 No No Braunia imberbis NT C2a(i) LC   No No Hedwigia ciliata LC   LC   No No Hedwigia mollis LC   NE   No No Hedwigia nemoralis DD   NE   No No 62 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Hedwigia stellata LC   LC   No No Hedwigia striata NT B2a NT   No No HELODIACEAE Helodium blandowii NT A2c NT A2c No No HERBERTACEAE Herbertus azoricus EN B2ab(iii) EN B2ab(iii) Yes Yes Herbertus borealis VU D2 VU D2 Yes Yes Herbertus hutchinsiae NT B2b(iii,v) NT B2b(iii,v) Yes No Herbertus norenus VU D1 EN D Yes No Herbertus sendtneri EN C2a(i) EN C2a(i) No No Herbertus stramineus LC   LC   No No HOOKERIACEAE Hookeria lucens LC   LC   No No HYLOCOMIACEAE Hylocomiastrum pyrenaicum LC   LC   No No Hylocomiastrum umbratum LC   LC   No No Hylocomium splendens LC   LC   No No Hyocomium armoricum LC   LC   No No Loeskeobryum brevirostre LC   LC   No No Pleurozium schreberi LC   LC   No No Rhytidiadelphus loreus LC   LC   No No Rhytidiadelphus squarrosus LC   LC   No No Rhytidiadelphus subpinnatus LC   LC   No No Rhytidiadelphus triquetrus LC   LC   No No HYPNACEAE Andoa berthelotiana VU A3c VU A3c Yes Yes Breidleria pratensis LC   NT   No No Callicladium haldanianum LC   LC   No No Calliergonella cuspidata LC   LC   No No Calliergonella lindbergii LC   LC   No No Campylophyllum halleri LC   LC   No No Campylophyllum montanum VU C2a(i) VU C2a(i), D1 No No Ctenidium molluscum LC   LC   No No Hageniella micans NT B2b(iii,v) NT B2b(iii,v) No No Herzogiella seligeri LC   LC   No No Herzogiella striatella LC   LC   No No Herzogiella turfacea NT   VU C2a(i) No No Homomallium incurvatum LC   LC   No No Hypnum aemulans DD   DD   Yes No Hypnum andoi LC   LC   No No Hypnum bambergeri LC   LC   No No Hypnum callichroum LC   LC   No No Hypnum cupressiforme LC   LC   No No Hypnum fertile CR C2a(i) CR C2a(i) Yes No Hypnum hamulosum LC   LC   No No Hypnum holmenii VU D1 VU D1 No No Hypnum imponens NT B2ab(iii) NT B2ab(iii) No No Hypnum jutlandicum LC   LC   No No Hypnum pallescens LC   LC   No No Hypnum plicatulum CR C2a(i); D CR C2a(i); D No No 63 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Hypnum recurvatum LC       No No Hypnum sauteri LC   LC   Yes No Hypnum subimponens EN B2ab(i,ii,iii,iv,v) EN B2ab(i,ii,iii,iv,v) No No Hypnum uncinulatum LC   LC   No No Isopterygium tenerum EN B2ab(ii); D EN B2ab(ii); D No No Orthothecium chryseon NT B2b(i,ii,iii,iv,v); C2a(i) VU C2a(i) No No Orthothecium intricatum LC   LC   No No Orthothecium lapponicum VU D1 EN D No No Orthothecium rufescens LC   LC   No No Orthothecium strictum LC   NT   No No Platygyrium repens LC   LC   No No Pseudotaxiphyllum elegans LC   LC   No No Pseudotaxiphyllum laetevirens NT B2b(iii) NT B2b(iii) Yes Yes Ptilium crista-castrensis LC   LC   No No Pylaisia polyantha LC   LC   No No Pylaisia selwynii LC   NE   No No Taxiphyllum densifolium EN B2ab(v) EN B2ab(v) No No Taxiphyllum wissgrillii LC   LC   No No HYPOPTERYGIACEAE Hypopterygium tamarisci NA   NA   No No JAMESONIELLACEAE Syzygiella autumnalis LC   LC   No No Syzygiella rubricaulis EN B1ab(iii)+2ab(iii) EN B1ab(iii)+2ab(iii) No No JUBULACEAE Jubula hutchinsiae LC   LC   No No JUNGERMANNIACEAE Eremonotus myriocarpus NT D1 VU D1 No No Heterogemma capitata VU C2a(i) VU C2a(i) No No Heterogemma laxa VU C2a(i) EN C2a(i) No No Jungermannia atrovirens LC   LC   No No Jungermannia borealis LC   NT   No No Jungermannia calcicola DD   DD   No No Jungermannia exsertifolia LC   LC   No No Jungermannia polaris LC   VU D1 No No Jungermannia polaris LC   VU D1 No No Jungermannia pumila LC   LC   No No Lophoziopsis excisa LC   LC   No No Lophoziopsis longidens LC   LC   No No Lophoziopsis pellucida VU D1 EN D No No Lophoziopsis polaris LC   NT   No No Lophoziopsis propagulifera LC   VU D1 No No Lophoziopsis rubrigemma DD   NE   No No Mesoptychia badensis LC   LC   No No Mesoptychia bantriensis LC   LC   No No Mesoptychia collaris LC   LC   No No Mesoptychia fitzgeraldiae NT D1 NT D1 Yes Yes Mesoptychia gillmanii VU C2a(i) VU C2a(i) No No Mesoptychia heterocolpos LC   LC   No No Mesoptychia rutheana NT A2c NT A2c No No Mesoptychia sahlbergii DD   NE   No No Mesoptychia turbinata LC   LC   No No 64 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Obtusifolium obtusum LC   LC   No No Protolophozia elongata VU D1 DD   No No Protolophozia herzogiana CR D CR D No No Pseudotritomaria heterophylla DD   NE   No No Saccobasis polita LC   LC   No No Saccobasis polymorpha LC   NE   No No Schizophyllopsis sphenoloboides EN D CR D No No LEJEUNEACEAE Acanthocoleus aberrans EN B2ab(iii,iv,v) EN B2ab(iii,iv,v) No No Cheilolejeunea cedercreutzii EN B2ab(ii,iii); C2a(i) EN B2ab(ii,iii); C2a(i) Yes Yes Cololejeunea azorica VU C2a(i) VU C2a(i) No No Cololejeunea calcarea LC   LC   No No Cololejeunea madeirensis EN B2ab(iii,v); C2a(i) EN B2ab(iii,v); C2a(i) Yes Yes Cololejeunea microscopica LC   LC   No No Cololejeunea rossettiana LC   LC   No No Cololejeunea schaeferi VU A3c VU A3c Yes Yes Cololejeunea sintenisii EN B2ab(ii,iii,v) EN B2ab(ii,iii,v) No No Colura calyptrifolia LC   LC   No No Drepanolejeunea hamatifolia LC   LC   No No Harpalejeunea molleri LC   LC   No No Lejeunea canariensis VU B2ab(iii) VU B2ab(iii) Yes Yes Lejeunea cavifolia LC   LC   No No Lejeunea eckloniana LC   LC   No No Lejeunea flava NT B2b(iii) NT B2b(iii) No No Lejeunea hibernica NT B2ab(iii) NT B2ab(iii) Yes Yes Lejeunea lamacerina LC   LC   No No Lejeunea mandonii VU B2ab(iii,v) VU B2ab(iii,v) Yes Yes Lejeunea patens LC   LC   No No Marchesinia mackaii LC   LC   No No Microlejeunea ulicina LC   LC   No No Myriocoleopsis minutissima LC   LC   No No LEMBOPHYLLACEAE Isothecium algarvicum LC   LC   No No Isothecium alopecuroides LC   LC   No No Isothecium holtii LC   LC   No No Isothecium montanum CR B1ab(i,ii,iii,iv,v)+2ab(i,ii,iii,iv,v); C2a(i); D CR B1ab(i,ii,iii,iv,v) +2ab(i,ii,iii,iv,v); C2a(i); D Yes Yes Isothecium myosuroides LC   LC   No No Isothecium prolixum VU A3c VU A3c Yes Yes Plasteurhynchium meridionale LC   LC   No No Plasteurhynchium striatulum LC   LC   No No LEPIDOZIACEAE Bazzania azorica EN A3c; B2ab(ii,iii,iv,v) EN A3c; B2ab(ii,iii,iv,v) Yes Yes Bazzania flaccida LC   LC   No No Bazzania pearsonii NT B2b(iii,iv,v) NT B2b(iii,iv,v) No No Bazzania tricrenata LC   LC   No No Bazzania trilobata LC   LC   No No Kurzia pauciflora LC   LC   No No Kurzia sylvatica LC   LC   No No Kurzia trichoclados LC   LC   No No 65 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Lepidozia cupressina LC   LC   No No Lepidozia pearsonii LC   LC   No No Lepidozia reptans LC   LC   No No Lepidozia stuhlmannii EN B1ab(iii)+2ab(iii) EN B1ab(iii)+2ab(iii) No No Telaranea azorica EN B2ab(iii) EN B2ab(iii) Yes Yes Telaranea europaea LC   LC   Yes Yes Tricholepidozia tetradactyla NA   NA   No No LEPTODONTACEAE Leptodon corsicus CR D CR D Yes Yes Leptodon longisetus VU A3c VU A3c Yes Yes Leptodon smithii LC   LC   No No LESKEACEAE Lescuraea incurvata LC   LC   No No Lescuraea mutabilis LC   LC   No No Lescuraea patens LC   LC   No No Lescuraea plicata LC   LC   No No Lescuraea radicosa LC   LC   No No Lescuraea saviana LC   LC   No No Lescuraea saxicola LC   LC   No No Lescuraea secunda VU D1 NE   No No Leskea polycarpa LC   LC   No No Pseudoleskea artariae EN D EN D No No Pseudoleskeella catenulata LC   LC   No No Pseudoleskeella nervosa LC   LC   No No Pseudoleskeella papillosa VU D1 VU D1 No No Pseudoleskeella rupestris LC   LC   No No Pseudoleskeella tectorum LC   LC   No No LEUCOBRYACEAE Atractylocarpus alpinus CR C2a(i); D CR C2a(i); D No No Campylopus atrovirens LC   LC   No No Campylopus brevipilus LC   LC   No No Campylopus cygneus LC   LC   No No Campylopus flaccidus EN B2ab(i,ii,iii,iv,v); C2a(i) EN B2ab(i,ii,iii,iv,v); C2a(i) No No Campylopus flexuosus LC   LC   No No Campylopus fragilis LC   LC   No No Campylopus gracilis LC   LC   No No Campylopus incrassatus LC   LC   No No Campylopus introflexus NA   NA   No No Campylopus oerstedianus DD   DD   No No Campylopus pilifer LC   LC   No No Campylopus pyriformis LC   LC   No No Campylopus schimperi LC   LC   No No Campylopus setifolius LC   LC   Yes Yes Campylopus shawii LC   LC   No No Campylopus subporodictyon VU D1 VU D1 No No Campylopus subulatus DD   DD   No No Dicranodontium asperulum LC   LC   No No Dicranodontium denudatum LC   LC   No No Dicranodontium uncinatum LC   LC   No No Leucobryum albidum DD   DD   No No 66 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Leucobryum glaucum LC   LC   No No Leucobryum juniperoideum LC   LC   No No Microcampylopus laevigatus NT B2b(iii) NT B2b(iii) No No LEUCODONTACEAE Antitrichia californica LC   LC   No No Antitrichia curtipendula LC   LC   No No Leucodon canariensis NT B2b(iii) NT B2b(iii) Yes Yes Leucodon pendulus NA   NE   No No Leucodon sciuroides LC   LC   No No Leucodon treleasei VU C2a(i) VU C2a(i) Yes Yes Nogopterium gracile LC   LC   No No LEUCOMIACEAE Tetrastichium fontanum VU B2ab(iii,v); C2a(i); D1 VU B2ab(iii,v); C2a(i); D1 Yes Yes Tetrastichium virens NT B2b(iii) NT B2b(iii) Yes Yes LOPHOCOLEACEAE Chiloscyphus pallescens LC   LC   No No Chiloscyphus polyanthos LC   LC   No No Heteroscyphus denticulatus NT B2b(iii) NT B2b(iii) Yes Yes Heteroscyphus fissistipus NA   NA   No No Leptoscyphus cuneifolius LC   LC   No No Leptoscyphus porphyrius EN B2ab(ii,iii,iv,v) EN B2ab(ii,iii,iv,v) No No Lophocolea bidentata LC   LC   No No Lophocolea bispinosa NA   NA   No No Lophocolea brookwoodiana DD   DD   Yes Yes Lophocolea coadunata LC   LC   No No Lophocolea fragrans LC   LC   No No Lophocolea heterophylla LC   LC   No No Lophocolea minor LC   LC   No No Lophocolea semiteres NA   NA   No No LOPHOZIACEAE Lophozia ascendens LC   LC   No No Lophozia ciliata NT C2a(i) NT   No No Lophozia guttulata LC   LC   No No Lophozia longiflora LC   NT   No No Lophozia murmanica DD   NE   No No Lophozia savicziae VU D1 EN D No No Lophozia schusteriana LC   NE   No No Lophozia silvicoloides DD   NE   No No Lophozia subapiculata DD   NE   No No Lophozia ventricosa LC   LC   No No Lophozia wenzelii LC   LC   No No Oleolophozia perssonii LC   LC   No No Trilophozia quinquedentata LC   LC   No No Tritomaria exsecta LC   LC   No No Tritomaria exsectiformis LC   LC   No No Tritomaria scitula LC   LC   No No LUNULARIACEAE Lunularia cruciata LC   LC   No No MARCHANTIACEAE Marchantia paleacea VU D1 VU D1 No No 67 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Marchantia polymorpha LC   LC   No No Marchantia quadrata LC   LC   No No Marchantia romanica VU D1 VU D1 No No MASTIGOPHORACEAE Mastigophora woodsii NT B2b(iii) NT B2b(iii) No No MEESIACEAE Amblyodon dealbatus LC   LC   No No Leptobryum pyriforme LC   LC   No No Meesia hexasticha VU D1 VU D1 No No Meesia longiseta VU C2a(i) VU C2a(i) No No Meesia triquetra NT C2a(i) VU C2a(i) No No Meesia uliginosa LC   LC   No No Paludella squarrosa LC   NT A2c No No METZGERIACEAE Metzgeria conjugata LC   LC   No No Metzgeria consanguinea LC   LC   No No Metzgeria furcata LC   LC   No No Metzgeria leptoneura LC   LC   No No Metzgeria pubescens LC   LC   No No Metzgeria simplex DD   DD   No No Metzgeria violacea LC   LC   No No MNIACEAE Cinclidium arcticum LC   NT   No No Cinclidium latifolium NT   NE   No No Cinclidium stygium LC   NT   No No Cinclidium subrotundum LC   LC   No No Cyrtomnium hymenophylloides LC   NT   No No Cyrtomnium hymenophyllum LC   NT   No No Epipterygium tozeri LC   LC   No No Mielichhoferia elongata VU D1 VU D1 No No Mielichhoferia mielichhoferiana NT D1 VU D1 No No Mnium blyttii LC   LC   No No Mnium heterophyllum RE   NE   No No Mnium hornum LC   LC   No No Mnium lycopodioides LC   LC   No No Mnium marginatum LC   LC   No No Mnium spinosum LC   LC   No No Mnium spinulosum LC   LC   No No Mnium stellare LC   LC   No No Mnium thomsonii LC   LC   No No Plagiomnium affine LC   LC   No No Plagiomnium confertidens VU D1 NE   No No Plagiomnium curvatulum LC   NT D1 No No Plagiomnium cuspidatum LC   LC   No No Plagiomnium drummondii EN B2ab(ii,iii,iv) EN B2ab(ii,iii,iv) No No Plagiomnium elatum LC   LC   No No Plagiomnium ellipticum LC   LC   No No Plagiomnium medium LC   LC   No No Plagiomnium rostratum LC   LC   No No Plagiomnium undulatum LC   LC   No No Pohlia andalusica LC   LC   No No 68 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Pohlia andrewsii NT D1 NT   No No Pohlia annotina LC   LC   No No Pohlia atropurpurea NT D1 VU D1 No No Pohlia beringiensis CR B2ab(iii); D NE   No No Pohlia bolanderi EN B2ab(iii) EN B2ab(iii) No No Pohlia bulbifera LC   LC   No No Pohlia camptotrachela LC   LC   No No Pohlia cruda LC   LC   No No Pohlia crudoides VU D1 VU D1 No No Pohlia drummondii LC   LC   No No Pohlia elongata LC   LC   No No Pohlia erecta EN C2a(i) CR C2a(i,ii); D No No Pohlia filum LC   LC   No No Pohlia flexuosa LC   LC   No No Pohlia lescuriana LC   LC   No No Pohlia longicolla LC   LC   No No Pohlia ludwigii LC   LC   No No Pohlia lutescens LC   LC   No No Pohlia melanodon LC   LC   No No Pohlia nutans LC   LC   No No Pohlia obtusifolia LC   LC   No No Pohlia proligera LC   LC   No No Pohlia scotica LC   LC   Yes Yes Pohlia sphagnicola DD   DD   No No Pohlia tundrae DD   DD   No No Pohlia vexans EN B2ab(ii,iii,iv,v) EN B2ab(ii,iii,iv,v) No No Pohlia wahlenbergii LC   LC   No No Pseudobryum cinclidioides LC   LC   No No Rhizomnium andrewsianum EN B2ab(iii); C2a(i) EN EN B2ab (iii); C2a (i) No No Rhizomnium gracile CR D CR D No No Rhizomnium magnifolium LC   LC   No No Rhizomnium pseudopunctatum LC   LC   No No Rhizomnium punctatum LC   LC   No No Schizymenium pontevedrense VU C2a(i) VU C2a(i) Yes Yes MOERCKIACEAE Moerckia blyttii VU B2ab(iii) VU B2ab(iii) No No Moerckia flotoviana NT B2b(iii) NT   No No Moerckia hibernica VU D1 VU D1 No No MYLIACEAE Mylia anomala LC   LC   No No Mylia taylorii LC   LC   No No MYRINIACEAE Helicodontium capillare RE   RE   No No Myrinia pulvinata NT B2b(iii) VU C2a(i) No No MYURIACEAE Myurium hochstetteri LC   LC   Yes Yes NECKERACEAE Alleniella besseri LC   LC   No No Alleniella complanata LC   LC   No No Exsertotheca baetica EN D EN D Yes Yes 69 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Exsertotheca crispa LC   LC   No No Exsertotheca intermedia VU A3c VU A3c Yes Yes Homalia lusitanica NT B2b(iii) NT B2b(iii) No No Homalia trichomanoides LC   LC   No No Homalia webbiana EN B2ab(iii,v) EN B2ab(iii,v) Yes No Neckera cephalonica NT B2ab(iii) NT B2ab(iii) Yes No Neckera menziesii LC   LC   No No Neckera oligocarpa LC   NT   No No Neckera pennata LC   VU C2a(i) No No Neckera pumila LC   LC   No No Thamnobryum alopecurum LC   LC   No No Thamnobryum angustifolium CR D CR D Yes Yes Thamnobryum cataractarum CR D CR D Yes Yes Thamnobryum fernandesii VU B1ab(iii)+2ab(iii) VU B1ab(iii)+2ab(iii) Yes Yes Thamnobryum maderense NT B2ab(iii) NT B2ab(iii) No No Thamnobryum neckeroides VU D1 VU D1 No No Thamnobryum rudolphianum EN B2ab(iii) EN B2ab(iii) Yes Yes Thamnobryum subserratum EN D EN D No No NOTOTHYLADACEAE Notothylas orbicularis EN B2ab(ii,iii,v) EN B2ab(ii,iii,v) No No Phaeoceros carolinianus NT A2c NT A2c No No Phaeoceros laevis LC   LC   No No OEDIPODIACEAE Oedipodium griffithianum NT   NT   No No ORTHODONTIACEAE Leptotheca gaudichaudii NA   NA   No No Orthodontium gracile CR C2a(i) CR C2a(i) No No Orthodontium lineare NA   NA   No No Orthodontium pellucens VU B1ab(iii)+2ab(iii); D2 VU B1ab(iii)+2ab(iii); D2 No No ORTHOTRICHACEAE Codonoblepharon forsteri EN B2ab(ii,iii) NT   No No Lewinskya acuminata LC   LC   No No Lewinskya affinis LC   LC   No No Lewinskya breviseta LC   LC   No No Lewinskya iberica LC   LC   No No Lewinskya laevigata VU D1 EN D No No Lewinskya pylaisii LC   NT   No No Lewinskya rupestris LC   LC   No No Lewinskya shawii LC   LC   No No Lewinskya sordida DD   NE   No No Lewinskya speciosa LC   LC   No No Lewinskya striata LC   LC   No No Lewinskya tortidontia LC   LC   No No Nyholmiella gymnostoma LC   LC   No No Nyholmiella obtusifolia LC   LC   No No Orthotrichum alpestre LC   LC   No No Orthotrichum anomalum LC   LC   No No Orthotrichum callistomum RE   NE   No No Orthotrichum cambrense DD   DD   Yes Yes Orthotrichum casasianum CR B1ab(iii)+2ab(iii) CR B1ab(iii)+2ab(iii) Yes Yes 70 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Orthotrichum columbicum LC   DD   No No Orthotrichum comosum LC   LC   No No Orthotrichum consobrinum CR D CR D No No Orthotrichum crenulatum VU D1 VU D1 No No Orthotrichum cupulatum LC   LC   No No Orthotrichum dentatum VU D1 VU D1 Yes No Orthotrichum diaphanum LC   LC   No No Orthotrichum handiense CR B1ab(iii,v)+2ab(iii,v); C2a(i,ii); D CR B1ab(iii,v)+2ab(iii,v); C2a(i,ii); D Yes Yes Orthotrichum hispanicum NT   NT   No No Orthotrichum macrocephalum LC   LC   No No Orthotrichum microcarpum VU D1 EN D No No Orthotrichum moravicum DD   DD   No No Orthotrichum pallens LC   LC   No No Orthotrichum patens LC   LC   No No Orthotrichum pellucidum VU C2a(i) CR C2a(i) No No Orthotrichum philibertii LC   LC   No No Orthotrichum pulchellum LC   LC   No No Orthotrichum pumilum LC   LC   No No Orthotrichum rivulare LC   LC   No No Orthotrichum rogeri LC   LC   No No Orthotrichum scanicum LC   LC   No No Orthotrichum schimperi LC   LC   No No Orthotrichum sibiricum DD   NE   No No Orthotrichum sprucei LC   LC   No No Orthotrichum stellatum VU D1 VU D1 No No Orthotrichum stramineum LC   LC   No No Orthotrichum tenellum LC   LC   No No Orthotrichum urnigerum VU D1 VU D1 No No Orthotrichum vittii NT   NT   No No Plenogemma phyllantha LC   LC   No No Pulvigera lyellii LC   LC   No No Ulota bruchii LC   LC   Yes No Ulota calvescens LC   LC   Yes No Ulota coarctata LC   LC   No No Ulota crispa LC   LC   No No Ulota crispula LC   LC   No No Ulota curvifolia LC   LC   No No Ulota drummondii LC   LC   No No Ulota hutchinsiae LC   LC   No No Ulota intermedia LC   LC   No No Ulota macrospora EN D EN D Yes No Ulota rehmannii CR D CR D No No Zygodon catarinoi LC   LC   No No Zygodon conoideus LC   LC   No No Zygodon dentatus LC   LC   No No Zygodon gracilis VU D1 VU D1 No No Zygodon rupestris LC   LC   No No Zygodon sibiricus DD   NE   No No Zygodon stirtonii LC   LC   No No Zygodon viridissimus LC   LC   No No 71 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 OXYMITRACEAE Oxymitra incrassata LC   LC   No No PALLAVICINIACEAE Pallavicinia lyellii VU B2ab(ii,iii,iv,v) VU B2ab(ii,iii,iv,v) No No PELLIACEAE Apopellia endiviifolia LC   LC   No No Pellia epiphylla LC   LC   No No Pellia neesiana LC   LC   No No PETALOPHYLLACEAE Petalophyllum ralfsii LC   LC   No No PHYMATOCEROTACEAE Phymatoceros bulbiculosus LC   LC   No No PILOTRICHACEAE Cyclodictyon laetevirens LC   LC   No No PLAGIOCHILACEAE Pedinophyllum interruptum LC   LC   No No Plagiochila arctica DD   NE   No No Plagiochila asplenioides LC   LC   No No Plagiochila bifaria LC   LC   No No Plagiochila britannica LC   LC   Yes No Plagiochila carringtonii NT B2b(iii,iv,v) NT B2b(iii,iv,v) No No Plagiochila exigua LC   LC   No No Plagiochila heterophylla LC   LC   No No Plagiochila longispina EN A3c EN A3c No No Plagiochila maderensis EN A3c EN A3c Yes Yes Plagiochila papillifolia CR B1ab(iii,v)+2ab(iii,v); C2a(ii) CR B1ab(iii,v)+2ab(iii,v); C2a(ii) No No Plagiochila porelloides LC   LC   No No Plagiochila punctata LC   LC   No No Plagiochila retrorsa EN A3c EN A3c No No Plagiochila spinulosa LC   LC   Yes No Plagiochila stricta EN A3c EN A3c No No Plagiochila virginica EN A3c; C2a(i) EN A3c; C2a(i) No No PLAGIOTHECIACEAE Isopterygiopsis alpicola EN D CR D No No Isopterygiopsis muelleriana LC   LC   No No Isopterygiopsis pulchella LC   LC   No No Plagiothecium berggrenianum VU D1 NE   No No Plagiothecium cavifolium LC   LC   No No Plagiothecium curvifolium LC   LC   No No Plagiothecium denticulatum LC   LC   No No Plagiothecium handelii VU D1 VU D1 No No Plagiothecium laetum LC   LC   No No Plagiothecium latebricola LC   LC   No No Plagiothecium neckeroideum VU D1 VU D1 No No Plagiothecium nemorale LC   LC   No No Plagiothecium piliferum LC   LC   No No Plagiothecium platyphyllum LC   LC   No No Plagiothecium succulentum LC   LC   No No Plagiothecium svalbardense DD   NE   No No Plagiothecium undulatum LC   LC   No No 72 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 PLEUROZIACEAE Pleurozia purpurea LC   LC   No No POLYTRICHACEAE Alophosia azorica NT A3c; B2b(iii) NT A3c; B2b(iii) Yes Yes Atrichum androgynum NT B2b(iii) NT B2b(iii) No No Atrichum angustatum VU B2ab(ii,iii,iv,v) EN B2ab(ii,iii,iv,v) No No Atrichum crispum NA   NA   No No Atrichum flavisetum LC   DD   No No Atrichum tenellum LC   LC   No No Atrichum undulatum LC   LC   No No Oligotrichum hercynicum LC   LC   No No Pogonatum aloides LC   LC   No No Pogonatum dentatum LC   LC   No No Pogonatum nanum LC   LC   No No Pogonatum urnigerum LC   LC   No No Polytrichastrum alpinum LC   LC   No No Polytrichastrum altaicum DD   DD   No No Polytrichastrum fragile DD   NE   No No Polytrichastrum septentrionale DD   DD   No No Polytrichastrum sexangulare NT A3c VU A3c No No Polytrichastrum sphaerothecium VU D1 NE   No No Polytrichum commune LC   LC   No No Polytrichum densifolium LC   DD   No No Polytrichum formosum LC   LC   No No Polytrichum hyperboreum LC   NT   No No Polytrichum jensenii LC   LC   No No Polytrichum juniperinum LC   LC   No No Polytrichum longisetum LC   LC   No No Polytrichum pallidisetum NT   EN B2ab(ii,iii) No No Polytrichum piliferum LC   LC   No No Polytrichum strictum LC   LC   No No Polytrichum swartzii LC   DD   No No Psilopilum cavifolium NT B2b(iii) EN B2ab(iii) No No Psilopilum laevigatum LC   VU D1 No No PORELLACEAE Porella arboris-vitae NT C2a(i) NT C2a(i) No No Porella baueri DD   DD   No No Porella canariensis LC   LC   No No Porella cordaeana LC   LC   No No Porella inaequalis EN C2a(i) EN C2a(i) Yes Yes Porella obtusata LC   LC   No No Porella pinnata LC   LC   No No Porella platyphylla LC   LC   No No POTTIACEAE Acaulon casasianum NT   NT   Yes Yes Acaulon fontiquerianum NT B2a NT   No No Acaulon mediterraneum NT B2a NT B2a No No Acaulon muticum NT B2b(i,ii,iii,iv,v) NT B2b(i,ii,iii,iv,v) No No Acaulon piligerum DD   DD   Yes Yes Acaulon triquetrum LC   LC   No No Aloina aloides LC   LC   No No 73 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Aloina ambigua LC   LC   No No Aloina bifrons NT B2a LC   No No Aloina brevirostris LC   LC   No No Aloina humilis DD   DD   Yes Yes Aloina obliquifolia LC   LC   No No Aloina rigida LC   LC   No No Anoectangium aestivum LC   LC   No No Aschisma carniolicum EN B2ab(iii) EN B2b(iii) No No Aschisma cuynetii VU D1 VU D1 Yes Yes Barbula unguiculata LC   LC   No No Bryoerythrophyllum alpigenum VU D1 VU D1 No No Bryoerythrophyllum caledonicum VU D1 VU D1 Yes Yes Bryoerythrophyllum campylocarpum VU B2ab(ii,iii,iv,v) VU B2ab(ii,iii,iv,v) No No Bryoerythrophyllum duellii VU D1 VU D1 Yes Yes Bryoerythrophyllum ferruginascens LC   LC   No No Bryoerythrophyllum inaequalifolium VU D1 VU D1 No No Bryoerythrophyllum recurvirostrum LC   LC   No No Bryoerythrophyllum rubrum NT D1 NT D1 No No Chionoloma daldinianum LC   LC   No No Chionoloma hibernicum LC   LC   Yes No Chionoloma minus DD   DD   Yes No Chionoloma recurvifolium NT B2b(iii) NT B2b(iii) No No Chionoloma tenuirostre LC   LC   No No Crossidium aberrans LC   LC   No No Crossidium crassinervium LC   LC   No No Crossidium davidai LC   LC   No No Crossidium geheebii NT   NT   No No Crossidium laevipilum NT   NT   No No Crossidium laxefilamentosum EN B2ab(iii) EN B2ab(iii) No No Crossidium squamiferum LC   LC   No No Dialytrichia mucronata LC   LC   No No Dialytrichia saxicola LC   LC   Yes Yes Didymodon acutus LC   LC   No No Didymodon asperifolius NT B2ab(iii,v); D1 VU D1 No No Didymodon australasiae LC   LC   No No Didymodon bistratosus LC   LC   No No Didymodon brachyphyllus EN D CR D No No Didymodon cordatus LC   LC   No No Didymodon eckeliae LC   LC   No No Didymodon fallax LC   LC   No No Didymodon ferrugineus LC   LC   No No Didymodon giganteus LC   LC   No No Didymodon glaucus VU D1 VU D1 No No Didymodon icmadophilus LC   LC   No No Didymodon insulanus LC   LC   No No Didymodon johansenii VU D1 VU D1 No No Didymodon luridus LC   LC   No No Didymodon maschalogenus EN D EN D No No Didymodon maximus VU D1 VU D1 No No Didymodon nicholsonii LC   LC   No No Didymodon rigidulus LC   LC   No No 74 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Didymodon sinuosus LC   LC   No No Didymodon spadiceus LC   LC   No No Didymodon subandreaeoides NT B2a; D1 NT B2a; D1 No No Didymodon tomaculosus LC   LC   Yes Yes Didymodon tophaceus LC   LC   No No Didymodon umbrosus LC   LC   No No Didymodon validus VU D1 VU D1 No No Didymodon vinealis LC   LC   No No Eucladium verticillatum LC   LC   No No Gymnobarbula bicolor VU D1 VU D1 Yes No Gymnostomum aeruginosum LC   LC   No No Gymnostomum calcareum LC   LC   No No Gymnostomum viridulum LC   LC   No No Gyroweisia reflexa NT B2a NT B2a No No Gyroweisia tenuis LC   LC   No No Hennediella heimii LC   LC   No No Hennediella macrophylla NA   NA   No No Hennediella stanfordensis NA   NA   No No Hilpertia velenovskyi CR C2a(i); D CR C2a(i); D No No Hydrogonium amplexifolium LC   LC   No No Hydrogonium bolleanum DD   DD   No No Hydrogonium consanguineum DD   DD   No No Hydrogonium croceum LC   LC   No No Hymenostylium gracillimum EN D EN D Yes No Hymenostylium recurvirostrum LC   LC   No No Hymenostylium xerophilum LC   LC   No No Hyophila involuta VU C2a(i) VU C2a(i) No No Leptobarbula berica LC   LC   No No Leptodontium flexifolium NT B2b(ii,iv,v) NT B2b(ii,iv,v) No No Leptodontium gemmascens VU D1 VU D1 No No Leptodontium proliferum NA   NA   No No Leptodontium styriacum VU D1 VU D1 No No Leptophascum leptophyllum LC   LC   No No Microbryum curvicollum LC   LC   No No Microbryum davallianum LC   LC   No No Microbryum floerkeanum LC   NT B2b(ii,iii,v) No No Microbryum fosbergii NT B2b(iii) NT B2b(iii) No No Microbryum longipes VU D1 VU D1 Yes Yes Microbryum rectum LC   LC   No No Microbryum starckeanum LC   LC   No No Molendoa hornschuchiana VU D1 VU D1 No No Molendoa schliephackei EN D EN D No No Molendoa taeniatifolia EN D EN D Yes No Molendoa warburgii LC   LC   No No Pottiopsis caespitosa VU C2a(i) VU C2a(i) No No Pseudocrossidium hornschuchianum LC   LC   No No Pseudocrossidium obtusulum DD   DD   No No Pseudocrossidium replicatum EN D EN D No No Pseudocrossidium revolutum LC   LC   No No Pterygoneurum kozlovii CR D CR D No No Pterygoneurum lamellatum LC   LC   No No 75 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Pterygoneurum ovatum LC   LC   No No Pterygoneurum papillosum DD   DD   Yes Yes Pterygoneurum sampaianum NT   NT   No No Pterygoneurum subsessile LC   NT   No No Scopelophila cataractae EN B2ab(ii,iii,iv,v) EN B2ab(ii,iii,iv,v) No No Scopelophila ligulata NT B2b(iii) NT B2b(iii) No No Stegonia latifolia NT C2a(i) VU C2a(i) No No Streblotrichum commutatum LC   LC   No No Streblotrichum convolutum LC   LC   No No Streblotrichum enderesii VU D1 VU D1 No No Syntrichia bogotensis EN B1ab(ii,iii,iv)+2ab(ii,iii,iv) EN B1ab(ii,iii,iv)+ 2ab(ii,iii,iv) No No Syntrichia calcicola LC   LC   No No Syntrichia caninervis LC   LC   No No Syntrichia echinata VU D1 VU D1 No No Syntrichia fragilis LC   LC   No No Syntrichia handelii DD   DD   No No Syntrichia laevipila LC   LC   No No Syntrichia latifolia LC   LC   No No Syntrichia minor DD   DD   No No Syntrichia montana LC   LC   No No Syntrichia norvegica LC   LC   No No Syntrichia papillosa LC   LC   No No Syntrichia papillosissima LC   LC   No No Syntrichia princeps LC   LC   No No Syntrichia rigescens CR D CR D No No Syntrichia ruralis LC   LC   No No Syntrichia sinensis VU D1 VU D1 No No Syntrichia subpapillosissima DD   DD   No No Syntrichia virescens LC   LC   No No Timmiella anomala LC   LC   No No Timmiella barbuloides LC   LC   No No Timmiella flexiseta DD   DD   No No Tortella alpicola LC   LC   No No Tortella cuspidatissima EN B2ab(ii,iii,iv) CR B2ab(ii,iii,iv) No No Tortella fasciculata LC   LC   Yes No Tortella flavovirens LC   LC   No No Tortella fragilis LC   LC   No No Tortella humilis LC   LC   No No Tortella inclinata LC   LC   No No Tortella inflexa LC   LC   No No Tortella limbata VU B2ab(iii) VU B2ab(iii) Yes Yes Tortella nitida LC   LC   No No Tortella pseudofragilis LC   LC   Yes No Tortella rigens LC   LC   No No Tortella spitsbergensis EN B2ab(i,ii,iii,iv,v) NE   No No Tortella squarrosa LC   LC   No No Tortella tortuosa LC   LC   No No Tortula acaulon LC   LC   No No Tortula amplexa NA   NA   No No Tortula ampliretis LC   LC   Yes Yes 76 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Tortula atrovirens LC   LC   No No Tortula bogosica NT B2b(iii) NT B2b(iii) No No Tortula bolanderi EN B2ab(iii) EN B2ab(iii) No No Tortula brevissima LC   LC   No No Tortula canescens LC   LC   No No Tortula caucasica LC   LC   No No Tortula cernua VU C2a(i) VU C2a(i) No No Tortula cuneifolia LC   LC   No No Tortula freibergii LC   LC   No No Tortula guepinii LC   NT   No No Tortula hoppeana LC   LC   No No Tortula inermis LC   LC   No No Tortula israelis LC   LC   No No Tortula laureri CR C2a(i) EN C2a(i) No No Tortula leucostoma EN D EN D No No Tortula lindbergii LC   LC   No No Tortula lingulata VU D1 VU D1 No No Tortula marginata LC   LC   No No Tortula mucronifolia NT   NT   No No Tortula muralis LC   LC   No No Tortula pallida LC   LC   No No Tortula protobryoides LC   NT   No No Tortula randii EN B2ab(iv); C2a(i) EN B2ab(iv); C2a(i) No No Tortula revolvens LC   LC   No No Tortula schimperi LC   LC   No No Tortula solmsii LC   LC   No No Tortula subulata LC   LC   No No Tortula systylia EN B2ab(iii,iv) VU B2b(ii,iii) No No Tortula truncata LC   LC   No No Tortula ucrainica DD   NE   No No Tortula vahliana LC   LC   No No Tortula viridifolia LC   LC   No No Tortula vlassovii EN B2ab(ii,iii,iv); D EN B2ab(ii,iii,iv); D No No Tortula wilsonii LC   LC   No No Trichostomum brachydontium LC   LC   No No Trichostomum crispulum LC   LC   No No Triquetrella arapilensis NT   NT   Yes Yes Weissia brachycarpa LC   LC   No No Weissia condensa LC   LC   No No Weissia controversa LC   LC   No No Weissia levieri LC   LC   No No Weissia longifolia LC   LC   No No Weissia multicapsularis DD   DD   Yes Yes Weissia perssonii LC   LC   Yes No Weissia rostellata NT C2a(i) VU C2a(i) Yes No Weissia rutilans LC   LC   No No Weissia squarrosa VU B2ab(ii,iii) VU B2ab(ii,iii) Yes No Weissia sterilis NT B2b(iii) NT B2b(iii) Yes Yes Weissia wimmeriana LC   LC   No No PSEUDOLEPICOLEACEAE Blepharostoma trichophyllum LC   LC   No No 77 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 PTERIGYNANDRACEAE Habrodon perpusillus LC   LC   No No Heterocladium dimorphum LC   LC   No No Heterocladium flaccidum LC   LC   Yes No Heterocladium heteropterum LC   LC   No No Heterocladium wulfsbergii LC   LC   Yes No Iwatsukiella leucotricha LC   NE   No No Myurella julacea LC   LC   No No Myurella sibirica VU B2ab(ii,iii,iv) VU B2ab (ii, iii, iv). No No Myurella tenerrima LC   LC   No No Pterigynandrum filiforme LC   LC   No No PTILIDIACEAE Ptilidium ciliare LC   LC   No No Ptilidium pulcherrimum LC   LC   No No PTYCHOMITRIACEAE Campylostelium pitardii EN D EN D No No Campylostelium saxicola VU C2a(i) VU C2a(i) No No Campylostelium strictum EN B2ab(iii) EN B2ab(ii,iii) No No Ptychomitrium incurvum CR B2ab(ii,iv,v) CR B2ab(ii,iv,v) No No Ptychomitrium nigrescens LC   LC   No No Ptychomitrium polyphyllum LC   LC   Yes No PYLAISIACEAE Buckia vaucheri LC   LC   No No Pseudostereodon procerrimus LC   LC   No No Roaldia revoluta LC   LC   No No PYLAISIADELPHACEAE Heterophyllium affine DD   DD   No No RADULACEAE Radula aquilegia LC   LC   No No Radula carringtonii NT B2ab(iii) NT B2ab(iii) Yes Yes Radula complanata LC   LC   No No Radula holtii NT B2ab(iii) NT B2ab(iii) Yes Yes Radula jonesii EN C2a(i) EN C2a(i) Yes Yes Radula lindenbergiana LC   LC   No No Radula nudicaulis VU C2a(i) VU C2a(i) No No Radula visianica CR D CR D Yes Yes Radula voluta NT D1 NT D1 No No Radula wichurae NT A3c NT A3c Yes Yes RHABDOWEISIACEAE Amphidium curvipes NT B2b(iii) NT B2b(iii) Yes Yes Amphidium lapponicum LC   LC   No No Amphidium mougeotii LC   LC   No No Arctoa anderssonii VU D1 EN D No No Arctoa fulvella LC   LC   No No Arctoa hyperborea VU D1 VU D1 No No Cynodontium asperifolium NT B2a NE   No No Cynodontium bruntonii LC   LC   No No Cynodontium fallax NT D1 VU D1 No No Cynodontium gracilescens LC   LC   No No Cynodontium jenneri LC   LC   No No Cynodontium polycarpon LC   LC   No No 78 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Cynodontium strumiferum LC   LC   No No Cynodontium suecicum LC   LC   Yes No Cynodontium tenellum LC   LC   No No Dichodontium flavescens DD   DD   No No Dichodontium pellucidum LC   LC   No No Dicranoweisia cirrata LC   LC   No No Glyphomitrium daviesii LC   LC   Yes No Hymenoloma compactum DD   DD   No No Hymenoloma crispulum LC   LC   No No Hymenoloma mulahaceni DD   DD   No No Kiaeria blyttii LC   LC   No No Kiaeria falcata LC   NT   No No Kiaeria glacialis LC   NT   No No Kiaeria riparia CR C2a(i) CR C2a(i); D No No Kiaeria starkei LC   NT   No No Oncophorus demetrii LC   LC   No No Oncophorus dendrophilus CR D CR D No No Oncophorus elongatus LC   LC   No No Oncophorus integerrimus LC   LC   Yes No Oncophorus virens LC   LC   No No Oncophorus wahlenbergii LC   LC   No No Oreas martiana VU D1 VU D1 No No Oreoweisia torquescens VU D1 VU D1 No No Rhabdoweisia crenulata LC   LC   No No Rhabdoweisia crispata LC   LC   No No Rhabdoweisia fugax LC   LC   No No RHIZOGONIACEAE Calomnion complanatum NA   NA   No No RHYTIDIACEAE Rhytidium rugosum LC   LC   No No RICCIACEAE Riccia atlantica CR C2a(i) CR C2a(i) Yes Yes Riccia atromarginata EN B2ab(iii) EN B2ab(iii) No No Riccia beyrichiana LC   LC   No No Riccia bicarinata LC   LC   No No Riccia bifurca LC   LC   No No Riccia breidleri VU D1 VU D1 No No Riccia canaliculata LC   LC   No No Riccia cavernosa LC   LC   No No Riccia ciliata DD   DD   No No Riccia ciliifera LC   LC   No No Riccia crinita LC   LC   No No Riccia crozalsii LC   LC   No No Riccia crustata VU B2ab(i,iii) NT   No No Riccia crystallina LC   LC   No No Riccia duplex DD   DD   No No Riccia fluitans LC   LC   No No Riccia frostii LC   LC   No No Riccia glauca LC   LC   No No Riccia gothica NT D1 NT   Yes No Riccia gougetiana LC   LC   No No 79 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Riccia huebeneriana LC   LC   No No Riccia lamellosa LC   LC   No No Riccia ligula EN B2ab(v) EN B2ab(v) No No Riccia macrocarpa LC   LC   No No Riccia michelii LC   LC   No No Riccia nigrella LC   LC   No No Riccia papillosa LC   LC   No No Riccia perennis LC   LC   No No Riccia rhenana LC   LC   No No Riccia sommieri NT B2b(iii,v) NT B2b(iii,v) No No Riccia sorocarpa LC   LC   No No Riccia subbifurca LC   LC   No No Riccia trabutiana LC   LC   No No Riccia warnstorfii VU C2a(i) VU C2a(i) No No Ricciocarpos natans LC   LC   No No RIELLACEAE Riella affinis EN B1ab(iii)+2ab(iii) EN B1ab(iii)+2ab(iii) No No Riella bialata DD   DD   No No Riella cossoniana NT   NT   No No Riella echinata EN B2ab(iii,v) EN B2ab(iii,v) No No Riella helicophylla NT B2b(iii) NT B2b(iii) No No Riella mediterranea DD   DD   No No Riella notarisii NT B2b(iii) NT B2b(iii) No No Riella parisii RE   RE   No No SCAPANIACEAE Anastrepta orcadensis LC   LC   No No Anastrophyllum alpinum NT D1 NT D1 No No Anastrophyllum assimile LC   VU D1 No No Anastrophyllum donnianum NT   NT   No No Anastrophyllum joergensenii VU D1 VU D1 No No Anastrophyllum michauxii NT   NT   No No Barbilophozia barbata LC   LC   No No Barbilophozia hatcheri LC   LC   No No Barbilophozia lycopodioides LC   LC   No No Barbilophozia rubescens DD   DD   No No Barbilophozia sudetica LC   LC   No No Diplophyllum albicans LC   LC   No No Diplophyllum obtusatum DD   DD   No No Diplophyllum obtusifolium LC   LC   No No Diplophyllum taxifolium LC   LC   No No Douinia ovata LC   LC   No No Gymnocolea borealis LC   LC   No No Gymnocolea fascinifera DD   NE   No No Gymnocolea inflata LC   LC   No No Isopaches alboviridis DD   NE   No No Isopaches bicrenatus LC   LC   No No Isopaches decolorans VU D1 EN D No No Scapania aequiloba LC   LC   No No Scapania apiculata NT   NT   No No Scapania aspera LC   LC   No No Scapania brevicaulis VU C2a(i) VU C2a(i) No No 80 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Scapania calcicola LC   LC   No No Scapania carinthiaca EN C2a(i) EN C2a(i) No No Scapania compacta LC   LC   No No Scapania crassiretis LC   VU D1 No No Scapania curta LC   LC   No No Scapania cuspiduligera LC   LC   No No Scapania degenii NT   NT   No No Scapania glaucocephala EN B2ab(ii,iii,iv,v); C2a(i) CR C2a(i) No No Scapania gracilis LC   LC   No No Scapania gymnostomophila LC   VU C2a(i) No No Scapania helvetica LC   LC   No No Scapania hyperborea LC   LC   No No Scapania irrigua LC   LC   No No Scapania kaurinii VU D1 VU D1 No No Scapania ligulifolia DD   NE   No No Scapania lingulata NT D1 NT   No No Scapania mucronata LC   LC   No No Scapania nemorea LC   LC   No No Scapania nimbosa NT B2b(iii) NT B2b(iii) No No Scapania obcordata LC   DD   No No Scapania obscura DD   DD   No No Scapania ornithopodioides NT B2b(iii,iv,v) NT B2b(iii,iv,v) No No Scapania paludicola LC   LC   No No Scapania paludosa LC   LC   No No Scapania parvifolia NT D1 VU D1 No No Scapania praetervisa LC   LC   No No Scapania scandica LC   LC   No No Scapania scapanioides CR D CR D Yes No Scapania simmonsii VU D2 NE   No No Scapania sphaerifera CR D NE   No No Scapania spitsbergensis VU B2ab(iii,iv,v) EN B2ab(iii,iv,v); C2a(i) No No Scapania subalpina LC   LC   No No Scapania tundrae LC   LC   No No Scapania uliginosa LC   LC   No No Scapania umbrosa LC   LC   No No Scapania undulata LC   LC   No No Scapania verrucosa VU D1 VU D1 No No Scapania zemliae DD   NE   No No Schistochilopsis grandiretis LC   VU B2ab(ii,iii,iv,v); C2a(i) No No Schistochilopsis hyperarctica DD   NE   No No Schistochilopsis incisa LC   LC   No No Schistochilopsis opacifolia LC   LC   No No Sphenolobopsis pearsonii LC   LC   No No Sphenolobus minutus LC   LC   No No Sphenolobus saxicola LC   LC   No No SCHISTOSTEGACEAE Schistostega pennata LC   LC   No No SCORPIDIACEAE Scorpidium cossonii LC   LC   No No Scorpidium revolvens LC   LC   No No 81 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Scorpidium scorpioides NT   NT   No No SELIGERIACEAE Blindia acuta LC   LC   No No Blindia caespiticia LC   LC   No No Blindiadelphus campylopodus NT B2b(ii,iii,iv,v); C2a(i) NT   No No Blindiadelphus diversifolius NT D1 VU D1 No No Blindiadelphus polaris VU D1 NE   No No Blindiadelphus recurvatus LC   LC   No No Blindiadelphus subimmersus EN D EN D No No Brachydontium trichodes LC   LC   No No Seligeria acutifolia LC   LC   No No Seligeria austriaca VU D1 VU D1 No No Seligeria brevifolia LC   LC   No No Seligeria calcarea LC   LC   No No Seligeria calycina LC   LC   Yes No Seligeria carniolica EN D EN D Yes No Seligeria donniana LC   LC   No No Seligeria irrigata VU D1 VU D1 Yes Yes Seligeria oelandica NT D1 VU D1 No No Seligeria patula LC   LC   No No Seligeria pusilla LC   LC   No No Seligeria trifaria DD   DD   No No Seligeria tristichoides NT D1 VU D1 No No SEMATOPHYLLACEAE Brotherella lorentziana NT D1 VU D1 Yes No Sematophyllum adnatum NA   NA   No No Sematophyllum demissum LC   LC   No No Sematophyllum substrumulosum LC   LC   No No SOLENOSTOMATACEAE Cryptocolea imbricata CR D RE   No No Nardia breidleri LC   VU C2ai No No Nardia compressa LC   LC   No No Nardia geoscyphus LC   LC   No No Nardia insecta LC   LC   No No Nardia japonica LC   DD   No No Nardia scalaris LC   LC   No No Solenostoma callithrix NT B2ab(iii,v) NT B2ab(iii,v) No No Solenostoma confertissimum LC   LC   No No Solenostoma gracillimum LC   LC   No No Solenostoma handelii CR C2a(i); D CR C2a(i); D No No Solenostoma hyalinum LC   LC   No No Solenostoma obovatum LC   LC   No No Solenostoma paroicum LC   LC   Yes No Solenostoma sphaerocarpum LC   LC   No No SPHAEROCARPACEAE Sphaerocarpos europaeus LC   LC   No No Sphaerocarpos michelii LC   LC   No No Sphaerocarpos stipitatus NA   NA   No No SPHAGNACEAE Sphagnum affine LC   NT   No No Sphagnum angermanicum LC   NT   No No 82 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Sphagnum angustifolium LC   LC   No No Sphagnum annulatum LC   LC   No No Sphagnum aongstroemii LC   LC   No No Sphagnum arcticum NT D1 NE   No No Sphagnum auriculatum LC   LC   No No Sphagnum austinii NT A3c NT A3c No No Sphagnum balticum LC   LC   No No Sphagnum beothuk LC   NT   No No Sphagnum capillifolium LC   LC   No No Sphagnum centrale LC   LC   No No Sphagnum compactum LC   LC   No No Sphagnum contortum LC   LC   No No Sphagnum cuspidatum LC   LC   No No Sphagnum divinum LC   LC   No No Sphagnum fallax LC   LC   No No Sphagnum fimbriatum LC   LC   No No Sphagnum flexuosum LC   LC   No No Sphagnum fuscum LC   NT   No No Sphagnum girgensohnii LC   LC   No No Sphagnum inundatum LC   LC   No No Sphagnum jensenii LC   LC   No No Sphagnum lenense NT B2b(iii) NE   No No Sphagnum lindbergii LC   LC   No No Sphagnum majus LC   LC   No No Sphagnum medium LC   LC   No No Sphagnum molle LC   LC   No No Sphagnum nitidulum CR B1ab(iii) CR B1ab(iii) Yes Yes Sphagnum obtusum LC   LC   No No Sphagnum olafii VU D1 NE   No No Sphagnum palustre LC   LC   No No Sphagnum papillosum LC   LC   No No Sphagnum platyphyllum LC   LC   No No Sphagnum pulchrum LC   LC   No No Sphagnum pylaesii EN B2ab(iii) EN B2ab(iii) No No Sphagnum quinquefarium LC   LC   No No Sphagnum recurvum EN B1ab(iii)+2ab(iii) EN B1ab(iii)+2ab(iii) No No Sphagnum riparium LC   NT   No No Sphagnum rubellum LC   LC   No No Sphagnum rubiginosum LC   NE   No No Sphagnum russowii LC   LC   No No Sphagnum skyense LC   LC   Yes Yes Sphagnum squarrosum LC   LC   No No Sphagnum strictum LC   LC   No No Sphagnum subfulvum LC   LC   No No Sphagnum subnitens LC   LC   No No Sphagnum subsecundum LC   LC   No No Sphagnum tenellum LC   LC   No No Sphagnum teres LC   LC   No No Sphagnum troendelagicum EN B2ab(iii); C2a(i) NE   Yes No Sphagnum tundrae NT D1 NE   No No Sphagnum venustum DD   NE   No No 83 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Sphagnum warnstorfii LC   LC   No No Sphagnum wulfianum LC   LC   No No SPLACHNACEAE Aplodon wormskioldii LC   NT   No No Splachnum ampullaceum NT   VU C2a(i)b No No Splachnum luteum LC   LC   No No Splachnum melanocaulon EN C2a(i) EN C2a(i) Yes No Splachnum pensylvanicum DD   DD   No No Splachnum rubrum LC   LC   No No Splachnum sphaericum LC   LC   No No Splachnum vasculosum LC   LC   No No Tayloria acuminata VU D1 CR D No No Tayloria froelichiana NT B2b(iii) NT B2b(iii) No No Tayloria hornschuchii EN D EN D No No Tayloria lingulata LC   LC   No No Tayloria rudolphiana EN B2ab(i,ii,iii,iv,v); C2a(i) EN B2ab(i,ii,iii,iv,v); C2a(i) No No Tayloria serrata NT B2b(iii,v) NT   No No Tayloria splachnoides LC   LC   No No Tayloria tenuis VU C2a(i) EN C2a(i) No No Tetraplodon angustatus LC   LC   No No Tetraplodon blyttii EN D RE   Yes No Tetraplodon mnioides LC   LC   No No Tetraplodon pallidus LC   LC   No No Tetraplodon paradoxus VU D1 EN D No No Tetraplodon urceolatus EN D EN D No No Voitia hyperborea VU D1 NE   No No Voitia nivalis CR C2a(i); D CR C2a(i); D No No SPLACHNOBRYACEAE Splachnobryum obtusum VU D1 VU D1 No No TARGIONIACEAE Targionia hypophylla LC   LC   No No Targionia lorbeeriana LC   LC   No No TETRAPHIDACEAE Tetraphis pellucida LC   LC   No No Tetrodontium brownianum LC   LC   No No Tetrodontium ovatum NT B2b(iii,iv) NT   No No Tetrodontium repandum LC   NT   No No THUIDIACEAE Abietinella abietina LC   LC   No No Claopodium rostratum VU D1 VU D1 No No Claopodium whippleanum LC   LC   No No Haplocladium angustifolium DD   DD   No No Haplocladium microphyllum CR C2a(i); D DD   No No Haplocladium virginianum CR D CR D No No Pelekium atlanticum EN C2a(i) EN C2a(i) Yes Yes Pelekium minutulum EN B2ab(iii,v); C2a(i) EN B2ab(i, ii, iii, iv), C2a(i) No No Thuidiopsis sparsa NA   NA   No No Thuidium assimile LC   LC   No No Thuidium delicatulum LC   LC   No No 84 Taxonomy IUCN Red List Category (Europe) IUCN Red List Criteria (Europe) IUCN Red List Category (EU 28) IUCN Red List Criteria (EU 28) Endemic to Europe Endemic to EU 28 Thuidium recognitum LC   LC   No No Thuidium tamariscinum LC   LC   No No TIMMIACEAE Timmia austriaca LC   LC   No No Timmia bavarica LC   LC   No No Timmia comata LC   VU D1 No No Timmia megapolitana LC   NT   No No Timmia norvegica LC   LC   No No Timmia sibirica EN B2ab(iii,v); C2a(i) CR B2ab(iii,v); C2a(i,ii); D No No TRICHOCOLEACEAE Trichocolea tomentella NT A2c NT A2c No No 85 Appendix 4. Listing of bryophyte species under Annex II and Annex V of the Habitats Directive, Appendix I of the Bern Convention, and the Red List status on the current European Red List Species protected under the: Habitats Directive Bern Convention Red List Status ANNEX II ANNEX V APPENDIX I Bruchia vogesiaca Schwaegr. √ √ EN Brachythecium novae-angliae (Sull & Lesq.) A.Jaeger (Bryhnia novae-angliae (Sull & Lesq.) Grou) √ LC Bryoerythrophyllum campylocarpum (C. Müll.) Crum. (Bryoerythrophyllum machadoanum (Sergio) M.O. Hill) √ √ VU Buxbaumia viridis (Moug.) Moug. & Nestl. √ √ LC Cephalozia macounii (Aust.) Aust. √ √ CR Cynodontium suecicum (H. Arn. & C. Jens.) I. Hag. √ √ LC Dichelyma capillaceum (Dicks) Myr. √ √ NT Dicranum viride (Sull. & Lesq.) Lindb. √ √ LC Distichophyllum carinatum Dix. & Nich. √ √ CR Hamatocaulis (Drepanocladus) vernicosus (Mitt.) Hedenäs. √ √ VU Encalypta mutica (I. Hagen) √ VU Hamatocaulis lapponicus (Norrl.) Hedenäs √ EN Herzogiella turfacea (Lindb.) I. Wats. √ NT Hygrohypnum montanum (Lindb.) Broth. √ VU Jungermannia handelii (Schiffn.) Amak. √ √ CR Mannia triandra (Scop.) Grolle √ √ VU Marsupella profunda Lindb. √ √ VU Meesia longiseta Hedw. √ √ VU Notothylas orbicularis (Schwein.) Sull.* √ √ EN Ochyraea tatrensis Vana √ CR Orthothecium lapponicum (Schimp.) C. Hartm. √ VU Orthotrichum rogeri Brid. √ √ LC Petalophyllum ralfsii (Wils.) Nees & Gott. √ √ LC Plagiomnium drummondii (Bruch & Schimp.) T. Kop. √ EN Riccia breidleri Jur. √ √ VU Riella helicophylla (Bory & Mont.) Mont. √ √ NT Scapania carinthiaca J.B. Jack ex Lindb. (Scapania massolongi (K. Müll.) K. Müll.) √ √ EN Sphagnum pylaesii Brid. (Sphagnum pylaisii Brid.) √ √ EN Tayloria rudolphiana (Garov) B. & S. √ √ EN Tortella rigens (N. Alberts) √ LC 86 Species protected under the: Habitats Directive Bern Convention Red List Status ANNEX II ANNEX V APPENDIX I Echinodium spinosum (Mitt.) Jur. √ √ EN Thamnobryum fernandesii Sergio √ √ VU MUSCI √ All species under this genus, as stated in Appendix 3 LEUCOBRYACEAE Leucobryum glaucum (Hedw.) AAngstr. √ LC SPHAGNACEAE Sphagnum L. spp. (except Sphagnum pylaisii Brid.) √ All species under this genus (except Sphagnum pylaisii Brid.), as stated in Appendix 3 Frullania parvistipula Steph. √ CR Atractylocarpus alpinus (Schimp. ex Milde) Lindb. √ CR Pyramidula tetragona (Brid.) Brid. √ EN 87 IUCN Red List of Threatened Species™ – European Regional Assessment Reports • The Status and Distribution of European Mammals. Temple and Terry (compilers), 2007. https://portals.iucn.org/library/node/9047 • European Red List of Reptiles. Cox and Temple (compilers), 2009. https://doi.org/10.2779/74504 • European Red List of Amphibians. Temple and Cox (compilers), 2009. https://doi.org/10.2779/73661 • European Red List of Dragonflies. Kalkman et al. (compilers), 2010. https://doi.org/10.2779/84650 • European Red List of Saproxylic Beetles. Nieto and Alexander (compilers), 2010. https://doi.org/10.2779/84561 • European Red List of Butterflies. van Swaay et al. (compilers), 2010. https://doi.org/10.2779/83897 • European Red List of Non-marine Molluscs. Cuttelod et al., 2011. https://doi.org/10.2779/84538 • European Red List of Freshwater Fishes. Freyhof and Brooks, 2011. https://doi.org/10.2779/85903 • European Red List of Vascular Plants. Bilz et al., 2011. https://doi.org/10.2779/8515 • European Red List of Medicinal Plants. Allen et al., 2014. https://doi.org/10.2779/907382 • European Red List of Bees. Nieto et al., 2014. https://doi.org/10.2779/51181 • European Red List of Birds. BirdLife International, 2015. https://doi.org/10.2779/975810 • European Red List of Marine Fishes. Nieto et al., 2015. https://doi.org/10.2779/082723 • European Red List of Grasshoppers, Crickets and Bush-Crickets. Hochkirch et al., 2016. https://doi.org/10.2779/60944 • European Red List of Lycopods and Ferns. García Criado et al., 2017. https://doi.org/10.2305/IUCN.CH.2017.ERL.1.en • European Red List of Saproxylic Beetles. Cálix et al., 2018. Update to Nieto and Alexander, (2010). https://portals.iucn.org/library/node/47296 • A miniature world in decline: European Red List of Mosses, Liverworts and Hornworts. Hodgetts et al., 2019. https://doi.org/10.2305/IUCN.CH.2019.ERL.2.en • European Red List of Trees. Rivers et al., 2019. https://doi.org/10.2305/IUCN.CH.2019.ERL.1.en • European Red List of Terrestrial Molluscs: Snails, slugs, and semi-slugs. Neubert et al., 2019. Update to Cuttelod et al., 2011. https://portals.iucn.org/library/node/48439 • European Red List of Selected Endemic Shrubs. Wilson et al., 2019. https://portals.iucn.org/library/node/48438 The European Red List is a review of the status of European species according to IUCN regional Red Listing guidelines. It identifies those species that are threatened with extinction at the regional level – in order that appropriate conservation action can be taken to improve their status. This publication summarises results for all Europe’s native species of mosses, liverworts and hornworts (1,817 species). 22.5% of species are threatened with extinction at the European level mainly due to human-induced modifications to natural systems, climate change, and agriculture. The European Red List was compiled by IUCN with support from the IUCN Species Survival Commission and other experts. It is the product of a LIFE project funded by the European Commission (LIFE14 PRE BE 001). It is available online at http://ec.europa.eu/environment/nature/conservation/species/redlist and https://www.iucnredlist.org/regions/europe