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      Towards evidence‐based conservation of subterranean ecosystems

      research-article
      1 , 2 , , 3 , 4 , 5 , 6 , 7 , 8 , 9 , 10 , 11 , 12 , 13 , 8 , 13 , 2 , 14 , 15 , 16 , 17 , 18 , 19 , 20 , 11 , 2 , 19 , 21 , 22 , 19 , 19 , 23 , 24 , 11 , 25 , 19 , 26 , 27 , 5 , 28 , 29 , 30 , 31 , 8 , 8 , 1 , 4
      Biological Reviews of the Cambridge Philosophical Society
      Blackwell Publishing Ltd
      biospeleology, cave, climate change, conservation biology, ecosystem management, extinction risk, groundwater, legislation, pollution, subterranean biology

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          ABSTRACT

          Subterranean ecosystems are among the most widespread environments on Earth, yet we still have poor knowledge of their biodiversity. To raise awareness of subterranean ecosystems, the essential services they provide, and their unique conservation challenges, 2021 and 2022 were designated International Years of Caves and Karst. As these ecosystems have traditionally been overlooked in global conservation agendas and multilateral agreements, a quantitative assessment of solution‐based approaches to safeguard subterranean biota and associated habitats is timely. This assessment allows researchers and practitioners to understand the progress made and research needs in subterranean ecology and management. We conducted a systematic review of peer‐reviewed and grey literature focused on subterranean ecosystems globally (terrestrial, freshwater, and saltwater systems), to quantify the available evidence‐base for the effectiveness of conservation interventions. We selected 708 publications from the years 1964 to 2021 that discussed, recommended, or implemented 1,954 conservation interventions in subterranean ecosystems. We noted a steep increase in the number of studies from the 2000s while, surprisingly, the proportion of studies quantifying the impact of conservation interventions has steadily and significantly decreased in recent years. The effectiveness of 31% of conservation interventions has been tested statistically. We further highlight that 64% of the reported research occurred in the Palearctic and Nearctic biogeographic regions. Assessments of the effectiveness of conservation interventions were heavily biased towards indirect measures (monitoring and risk assessment), a limited sample of organisms (mostly arthropods and bats), and more accessible systems (terrestrial caves). Our results indicate that most conservation science in the field of subterranean biology does not apply a rigorous quantitative approach, resulting in sparse evidence for the effectiveness of interventions. This raises the important question of how to make conservation efforts more feasible to implement, cost‐effective, and long‐lasting. Although there is no single remedy, we propose a suite of potential solutions to focus our efforts better towards increasing statistical testing and stress the importance of standardising study reporting to facilitate meta‐analytical exercises. We also provide a database summarising the available literature, which will help to build quantitative knowledge about interventions likely to yield the greatest impacts depending upon the subterranean species and habitats of interest. We view this as a starting point to shift away from the widespread tendency of recommending conservation interventions based on anecdotal and expert‐based information rather than scientific evidence, without quantitatively testing their effectiveness.

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          The PRISMA 2020 statement: an updated guideline for reporting systematic reviews

          The Preferred Reporting Items for Systematic reviews and Meta-Analyses (PRISMA) statement, published in 2009, was designed to help systematic reviewers transparently report why the review was done, what the authors did, and what they found. Over the past decade, advances in systematic review methodology and terminology have necessitated an update to the guideline. The PRISMA 2020 statement replaces the 2009 statement and includes new reporting guidance that reflects advances in methods to identify, select, appraise, and synthesise studies. The structure and presentation of the items have been modified to facilitate implementation. In this article, we present the PRISMA 2020 27-item checklist, an expanded checklist that details reporting recommendations for each item, the PRISMA 2020 abstract checklist, and the revised flow diagrams for original and updated reviews.
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            Preferred reporting items for systematic reviews and meta-analyses: the PRISMA statement

            David Moher and colleagues introduce PRISMA, an update of the QUOROM guidelines for reporting systematic reviews and meta-analyses
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              A Coefficient of Agreement for Nominal Scales

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                Author and article information

                Contributors
                stefano.mammola@helsinki.fi , stefano.mammola@cnr.it
                Journal
                Biol Rev Camb Philos Soc
                Biol Rev Camb Philos Soc
                10.1111/(ISSN)1469-185X
                BRV
                Biological Reviews of the Cambridge Philosophical Society
                Blackwell Publishing Ltd (Oxford, UK )
                1464-7931
                1469-185X
                21 March 2022
                August 2022
                : 97
                : 4 ( doiID: 10.1111/brv.v97.4 )
                : 1476-1510
                Affiliations
                [ 1 ] Laboratory for Integrative Biodiversity Research (LIBRe) Finnish Museum of Natural History (LUOMUS), University of Helsinki Pohjoinen Rautatiekatu 13 Helsinki 00100 Finland
                [ 2 ] Molecular Ecology Group (dark‐MEG) Water Research Institute (IRSA), National Research Council (CNR) Largo Tonolli, 50 Verbania‐Pallanza 28922 Italy
                [ 3 ] BatLab Finland, Finnish Museum of Natural History Luomus (LUOMUS) University of Helsinki Pohjoinen Rautatiekatu 13 Helsinki 00100 Finland
                [ 4 ] cE3c—Centre for Ecology, Evolution and Environmental Changes / Azorean Biodiversity Group / CHANGE – Global Change and Sustainability Institute University of Azores, Faculty of Agrarian Sciences and Environment (FCAA), Rua Capitão João d'Àvila Pico da Urze, 9700‐042 Angra do Heroísmo Azores Portugal
                [ 5 ] Departament of Ecology and Hidrology University of Murcia Murcia 30100 Spain
                [ 6 ] Department of Environmental Science American University 4400 Massachusetts Avenue, N.W Washington DC 20016 U.S.A.
                [ 7 ] Institut de Systématique, Evolution, Biodiversité (ISYEB), CNRS UMR 7205, MNHN, UPMC, EPHE Museum National d'Histoire Naturelle, Sorbonne Université Paris France
                [ 8 ] SubBio Lab, Department of Biology, Biotechnical Faculty University of Ljubljana Jamnikarjeva 101 Ljubljana 1000 Slovenia
                [ 9 ] Research Institute on Terrestrial Ecosystems (IRET‐CNR), National Research Council Via Madonna del Piano 10, 50019 Sesto Fiorentino Florence Italy
                [ 10 ] Division of Zoology, Department of Biology Faculty of Science, University of Zagreb Rooseveltov Trg 6 Zagreb 10000 Croatia
                [ 11 ] Croatian Biospeleological Society Rooseveltov Trg 6 Zagreb 10000 Croatia
                [ 12 ] Center of Studies in Subterranean Biology, Biology Department, Federal University of Lavras Campus universitário s/n, Aquenta Sol Lavras MG 37200‐900 Brazil
                [ 13 ] Department of Life, Health and Environmental Sciences University of L'Aquila Via Vetoio 1, Coppito L'Aquila 67100 Italy
                [ 14 ] Department of Environment, Faculty of Environment Ionian University, M. Minotou‐Giannopoulou str Panagoula Zakynthos 29100 Greece
                [ 15 ] Hellenic Centre for Marine Research (HCMR), Institute of Marine Biology Biotechnology and Aquaculture (IMBBC) Thalassocosmos, Gournes Crete 71500 Greece
                [ 16 ] Department of Functional and Evolutionary Ecology, Division of Limnology University of Vienna Djerassiplatz 1 Vienna 1030 Austria
                [ 17 ] Bennelongia Environmental Consultants 5 Bishop Street Jolimont WA 6014 Australia
                [ 18 ] Hawaii Biological Survey, Bishop Museum Honolulu Hawaii U.S.A.
                [ 19 ] Department of Life Sciences and Systems Biology University of Turin Via Accademia Albertina, 13 Torino I‐10123 Italy
                [ 20 ] Department of Biological Sciences Ohio University 57 Oxbow Trail Athens OH 45701 U.S.A.
                [ 21 ] Emil Racovita Institute of Speleology Clinicilor 5 Cluj‐Napoca 400006 Romania
                [ 22 ] Romanian Institute of Science and Technology Saturn 24‐26 Cluj‐Napoca 400504 Romania
                [ 23 ] Department of Biological Sciences The University of Alabama in Huntsville 301 Sparkman Drive NW Huntsville AL 35899 U.S.A.
                [ 24 ] Departamento de Biogeografía y Cambio Global Museo Nacional de Ciencias Naturales, CSIC Calle de José Gutiérrez Abascal 2 Madrid 28006 Spain
                [ 25 ] Ruđer Bošković Institute Bijenička cesta 54 Zagreb 10000 Croatia
                [ 26 ] ZRC SAZU Karst Research Institute Novi trg 2 Ljubljana 1000 Slovenia
                [ 27 ] UNESCO Chair on Karst Education University of Nova Gorica Glavni trg 8 Vipava 5271 Slovenia
                [ 28 ] Research Centre for Ecological Change, Organismal and Evolutionary Biology Research Programme University of Helsinki Viikinkaari 1 Helsinki 00014 Finland
                [ 29 ] Institute of Hydrobiology, Biology Centre CAS Na Sádkách 702/7 České Budějovice 370 05 Czech Republic
                [ 30 ] Department of Lake Research Helmholtz Centre for Environmental Research Brückstraße 3a Magdeburg 39114 Germany
                [ 31 ] Department of Biological Sciences Center for Adaptable Western Landscapes, Box 5640, Northern Arizona University Flagstaff AZ 86011 U.S.A.
                Author notes
                [*] [* ] Address for correspondence (Tel: +39 0323 518363; E‐mail: stefano.mammola@ 123456helsinki.fi ; stefano.mammola@ 123456cnr.it )

                [†]

                Equal first authors.

                Author information
                https://orcid.org/0000-0002-4471-9055
                https://orcid.org/0000-0003-2384-1999
                https://orcid.org/0000-0001-6710-0581
                https://orcid.org/0000-0003-0408-0629
                https://orcid.org/0000-0001-8119-9960
                Article
                BRV12851
                10.1111/brv.12851
                9545027
                35315207
                87e46996-bb0e-4568-96d9-a7a23eea18ec
                © 2022 The Authors. Biological Reviews published by John Wiley & Sons Ltd on behalf of Cambridge Philosophical Society.

                This is an open access article under the terms of the http://creativecommons.org/licenses/by-nc/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited and is not used for commercial purposes.

                History
                : 22 February 2022
                : 01 September 2021
                : 01 March 2022
                Page count
                Figures: 4, Tables: 3, Pages: 35, Words: 48664
                Funding
                Funded by: European Commission , doi 10.13039/501100000780;
                Award ID: 882221
                Funded by: Ministero dell'Istruzione, dell'Università e della Ricerca
                Award ID: 2017HTXT2R
                Categories
                Original Article
                Original Articles
                Custom metadata
                2.0
                August 2022
                Converter:WILEY_ML3GV2_TO_JATSPMC version:6.2.0 mode:remove_FC converted:07.10.2022

                Ecology
                biospeleology,cave,climate change,conservation biology,ecosystem management,extinction risk,groundwater,legislation,pollution,subterranean biology

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