- Martin Mikoláš1,2,
- Martin Tejkal3,
- Tobias Kuemmerle4,5,
- Patrick Griffiths5,
- Miroslav Svoboda1,
- Tomáš Hlásny1,6,
- Pedro J. Leitão5 &
- …
- Robert C. Morrissey1,7
2021Accesses
14Altmetric
1Mention
Abstract
Context
Distribution and connectivity of suitable habitat for species of conservation concern is critical for effective conservation planning. Capercaillie (Tetrao urogallus), an umbrella species for biodiversity conservation, is increasingly threatened because of habitat loss and fragmentation.
Objective
We assessed the impact of drastic changes in forest management in the Carpathian Mountains, a major stronghold of capercaillie in Europe, on habitat distribution and connectivity.
Methods
We used field data surveys with a forest disturbance dataset for 1985–2010 to map habitat suitability, and we used graph theory to analyse habitat connectivity.
Results
Climate, topography, forest proportion and fragmentation, and the distance to roads and settlements best identified capercaillie presence. Suitable habitat area was 7510 km2 in 1985; by 2010, clear-cutting had reduced that area by 1110 km2. More suitable habitat was lost inside protected areas (571 km2) than outside (413 km2). Habitat loss of 15 % reduced functional connectivity by 33 % since 1985.
Conclusions
Forest management, particularly large-scale clear-cutting and salvage logging, have substantially diminished and fragmented suitable capercaillie habitat, regardless of the status of forest protection. Consequently, larger areas with suitable habitat are now isolated and many patches are too small to sustain viable populations. Given that protection of capercaillie habitat would benefit many other species, including old-growth specialists and large carnivores, conservation actions to halt the loss of capercaillie habitat is urgently needed. We recommend adopting policies to protect natural forests, limiting large-scale clear-cutting and salvage logging, implementing ecological forestry, and restricting road building to reduce forest fragmentation.
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References
Araújo MB, Guisan A (2006) Five (or so) challenges for species distribution modelling. J Biogeogr 33:1677–1688
Bañuelos MJ, Quevedo M, Obeso JR (2008) Habitat partitioning in endangered Cantabrian capercaillieTetrao urogallus cantabricus. J Ornithol 149:245–252
Baumann M, Kuemmerle T, Elbakidze M, Ozdogan M, Radeloff VC, Keuler NS, Prishchepov AV, Kruhlov I, Hostert P (2011) Patterns and drivers of post-socialist farmland abandonment in western Ukraine. Land Use Policy 28:552–562
Beudert B, Bässler C, Thorn S, Noss R, Schröder B, Dieffenbach-Fries H, Foullois N, Müller J (2015) Bark beetles increase biodiversity while maintaining drinking water quality. Conserv Lett 8:272–281
Bohn U, Gollub G, Hettwer C, Weber H, Neuhäuslová Z, Raus T, Schlüter H (2004) Karte der natürlichen Vegetation Europas [Map of the natural vegetation of Europe]. Landwirtschaftsverlag, Münster
Bollmann K, Graf RF, Suter W (2011) Quantitative predictions for patch occupancy of capercaillie in fragmented habitats. Ecography 34:276–286
Bollmann K, Müller J (2012) Naturwaldreservate: welche, wo und wofür? (Essay). Schweiz Z Forstw 163:187–198
Bollmann K, Weibel P, Graf RF (2005) An analysis of central Alpine capercaillie spring habitat at the forest stand scale. For Ecol Manag 215:307–318
Böttcher H, Verkerk PJ, Gusti M, Havlík P, Grassi G (2012) Projection of the future EU forest CO2 sink as affected by recent bioenergy policies using two advanced forest management models. GCB Bioenergy 4:773–783
Bouriaud L (2005) Causes of illegal logging in Central and Eastern Europe. Small Scale For Econ Manag Policy 4:269–292
Braunisch V, Suchant R (2007) A model for evaluating the ‘habitat potential’ of a landscape for capercaillieTetrao urogallus: a tool for conservation planning. Wildl Biol 13:21–33
Braunisch V, Suchant R (2008) Using ecological forest site mapping for long-term habitat suitability assessments in wildlife conservation—demonstrated for capercaillie (Tetrao urogallus). For Ecol Manag 256:1209–1221
Braunisch V, Suchant R (2013) The capercaillieTetrao urogallus action plan in the black forest: an integrative concept for the conservation of a viable population. Vogelwelt 134:29–41
Braunisch V, Coppes J, Arlettaz R, Suchant R, Zellweger F, Bollmann K (2014) Temperate mountain forest biodiversity under climate change: compensating negative effects by increasing structural complexity. PLoS One 9:e97718
Brockerhoff EG, Jactel H, Parrotta JA, Quine CP, Sayer J (2008) Plantation forests and biodiversity: oxymoron or opportunity? Biodivers Conserv 17:925–951
Broome A, Connolly T, Quine CP (2014) An evaluation of thinning to improve habitat for capercaillie (Tetrao urogallus). For Ecol Manag 314:94–103
CERI (2001) The status of the Carpathians WWF—Danube-Carpathian programme. Carpathian Ecoregion Initiative, Vienna
Chapron G, Kaczensky P, Linnell JD, von Arx M, Huber D, Andrén H, López-Bao JV, Adamec M, Álvares F, Anders O, Balčiauskas L (2014) Recovery of large carnivores in Europe’s modern human-dominated landscapes. Science 346:1517–1519
Courbin N, Daniel F, Christian D, Réhaume C (2009) Landscape management for woodland caribou: the protection of forest blocks influences wolf-caribou co-occurrence. Landscape Ecol 24:1375–1388
Dormann CF, Elith J, Bacher S, Buchmann C, Carl G, Carré G, Marquéz JRG, Gruber B, Lafourcade B, Leitão PJ, Münkemüller T, Mcclean C, Osborne PE, Reineking B, Schröder B, Skidmore AK, Zurell D, Lautenbach S (2013) Collinearity: A review of methods to deal with it and a simulation study evaluating their performance. Ecography 36:027–046
Dorresteijn I, Hanspach J, Kecskés A, Latková H, Mezey Z, Sugár S, Wehrden H, Fischer J (2014) Human-carnivore coexistence in a traditional rural landscape. Landscape Ecol 29:1145–1155
Ehrbar R, Bollmann K, Mollet P (2011) Ein Sonderwaldreservat für das Auerhuhn-das Beispiel Amden (Kanton St. Gallen) [A special forest reserve for the capercaillie-the model of Amden (Canton St Gallen)]. Schweiz Z Forstw 162:11–21
Eliassen S, Wegge P (2007) Ranging behaviour of male capercaillieTetrao urogallus outside the lekking ground in spring. J Avian Biol 38:37–43
Elith J, Phillips SJ, Hastie T, Dudik M, Chee YE, Yates CJ (2011) A statistical explanation of Maxent for ecologists. Divers Distrib 17:43–57
Fahrig L (2003) Effects of habitat fragmentation on biodiversity. Annu Rev Ecol Evol Syst 34:487–515
FAO (2010) Global forest resources assessment 2010. Food and Agricultural Organization of the United Nations, Rome
Fourcade Y, Engler JO, Rödder D, Secondi J (2014) Mapping species distributions with MAXENT using a geographically biased sample of presence data: a performance assessment of methods for correcting sampling bias. PLoS One 9:e97122
Gjerde I, Wegge P (1989) Spacing pattern, habitat use and survival of capercaillie in a fragmented winter habitat. Ornis Scand 20:219–225
Graf RF, Bollmann K, Suter W, Bugmann H (2005) The importance of spatial scale in habitat models: capercaillie in the Swiss Alps. Landscape Ecol 20:703–717
Graf RF, Kramer-Schadt S, Fernández N, Grimm V (2007) What you see is where you go? Modeling dispersal in mountainous landscapes. Landscape Ecol 22:853–866
Graf RF, Mathys L, Bollmann K (2009) Habitat assessment for forest dwelling species using LiDAR remote sensing: capercaillie in the Alps. For Ecol Manag 257:160–167
Griffiths P, Kuemmerle T, Baumann M, Radeloff VC, Abrudan IV, Lieskovsky J, Munteanu C, Ostapowicz K, Hostert P (2014) Forest disturbances, forest recovery, and changes in forest types across the Carpathian ecoregion from 1985 to 2010 based on Landsat image composites. Remote Sens Environ 151:72–88
Griffiths P, Kuemmerle T, Kennedy RE, Abrudan IV, Knorn J, Hostert P (2012) Using annual time-series of Landsat images to assess the effects of forest restitution in post-socialist Romania. Remote Sens Environ 118:199–214
Griffiths P, Müller D, Kuemmerle T, Hostert P (2013) Agricultural land change in the Carpathian ecoregion after the breakdown of socialism and expansion of the European Union. Environ Res Lett 8:045024
Grimm V, Storch I (2000) Minimum viable population size of capercaillieTetrao urogallus : results from a stochastic model. Wildl Biol 6:219–225
Grodzińska K, Godzik B, Frączek W, Badea O, Oszlányi J, Postelnicu D, Shparyk Y (2004) Vegetation of the selected forest stands and land use in the Carpathian Mountains. Environ Pollut 130:17–32
Gurung AB, Bokwa A, Chełmicki W, Elbakidze M, Hirschmugl M, Hostert P, Ibisch P, Kozak J, Kuemmerle T, Matei E, Ostapowicz K, Pociask-Karteczka J, Schmidt L, van der Linden S, Zebisch M (2009) Global change research in the Carpathian mountain region. Mt Res Dev 29:282–288
Gustafsson L, Baker SC, Bauhus J, Beese WJ, Brodie A, Kouki J, Franklin JF (2012) Retention forestry to maintain multifunctional forests: a world perspective. BioScience 62:633–645
Hanley JA, McNeil BJ (1982) The meaning and use of the area under a receiver operating characteristic (ROC) curve. Radiology 143:29–36
Helm A (2015) Habitat restoration requires landscape-scale planning. Appl Veg Sci 18:177–178
Hijmans RJ, Cameron SE, Parra JL, Jones PG, Jarvis A (2005) Very high resolution interpolated climate surfaces for global land areas. Int J Climatol 25:1965–1978
Hjeljord O, Wegge P, Rolstad J, Ivanova M, Beshkarev AB (2000) Spring-summer movements of male capercaillieTetrao urogallus: a test of the ‘landscape mosaic’ hypothesis. Wildl Biol 6:251–256
Houle M, Fortin D, Dussault Ch, Courtois R, Ouellet L-P (2010) Cumulative effects of forestry on habitat use by gray wolf (Canis lupus) in the boreal forest. Landscape Ecol 25:419–433
Irland L (2008) State failure, corruption, and warfare: challenges for forest policy. J Sustain For 27:189–223
Jiménez-Valverde A, Lobo JM (2007) Threshold criteria for conversion of probability of species presence to either–or presence–absence. Acta Oecol 31:361–369
Klinga P, Mikoláš M, Zhelev P, Höglund J, Paule L (2015) Genetic differentiation of western capercaillie in the Carpathian Mountains: the importance of post glacial expansions and habitat connectivity. Biol J Linn Soc 116:873–889
Knorn J, Kuemmerle T, Radeloff VC, Keeton SW, Gancz V, Biris I, Svoboda M, Griffiths P, Hagatis A, Hostert P (2012a) Continued loss of temperate old-growth forests in the Romanian Carpathians despite an increasing protected area network. Environ Conserv 40:182–193
Knorn J, Kuemmerle T, Radeloff VC, Szabo A, Mindrescu M, Keeton WS, Abrudan I, Griffiths P, Gancz V, Hostert P (2012b) Forest restitution and protected area effectiveness in post-socialist Romania. Biol Conserv 146:204–212
Kormann U, Gugerli F, Ray N, Excoffier L, Bollmann K (2012) Parsimony-based pedigree analysis and individual-based landscape genetics suggest topography to restrict dispersal and connectivity in the endangered capercaillie. Biol Conserv 152:241–252
Křenová Z, Kindlmann P (2015) Natura 2000—solution for Eastern Europe or just a good start? The Šumava National Park as a test case. Biol Conserv 186:268–275
Kuemmerle T, Chaskovskyy O, Knorn J, Radeloff VC, Kruhlov I, Keeton WS, Hostert P (2009) Forest cover change and illegal logging in the Ukrainian Carpathians in the transition period from 1988 to 2007. Remote Sens Environ 113:1194–1207
Kuemmerle T, Perzanowski K, Chaskovskyy O, Ostapowicz K, Halada L, Bashta AT, Kruhlov I, Hostert P, Waller DM, Radeloff VC (2010) European bison habitat in the Carpathian mountains. Biol Conserv 143:908–916
Laita A, Kotiaho JS, Mönkkönen M (2011) Graph-theoretic connectivity measures: what do they tell us about connectivity? Landscape Ecol 26:951–967
Levers C, Verkerk PJ, Müller D, Verburg PH, Butsic V, Leitão PJ, Lindner M, Kuemmerle T (2014) Drivers of forest harvesting intensity patterns in Europe. For Ecol Manag 315:160–172
Litvaitis JA, Reed GC, Carroll RP, Litvaitis MK, Tash J, Mahard T, Broman DJA, Callahan C, Ellingwood M (2015) Bobcats (Lynx rufus) as a model organism to investigate the effects of roads on wide-ranging carnivores. Environ Manag 55:1366–1376
Liu C, Berry PM, Dawson TP, Pearson RG (2005) Selecting thresholds of occurrence in the prediction of species distributions. Ecography 28:385–393
Liu C, White M, Newell G (2013) Selecting thresholds for the prediction of species occurrence with presence-only data. J Biogeogr 40:778–789
MacMillan DC, Marshall K (2004) Optimising capercaillie habitat in commercial forestry plantations. For Ecol Manag 198:351–365
Main-Knorn M, Hostert P, Kozak J, Kuemmerle T (2009) How pollution legacies and land use histories shape post-communist forest cover trends in the Western Carpathians. For Ecol Manag 258:60–70
McNeely JA (1994) Lessons from the past: forests and biodiversity. Biodivers Conserv 3:3–20
Merow C, Smith MJ, Silander JA (2013) A practical guide to MaxEnt for modeling species’ distributions: what it does, and why inputs and settings matter. Ecography 36:1058–1069
Mikoláš M, Kalafusová I, Tejkal M, Černajová I, Zuzana M, Hlásny T, Barka I, Zrníková K, Bače R, Svoboda M (2013) Habitat conditions of the core population of the Western Capercaillie (Tetrao urogallus) in the Western Carpathians: is there still place for the species in Slovakia? Sylvia 49:79–98
Mikoláš M, Svitok M, Tejkal M, Leitão PJ, Morrissey RC, Svoboda M, Seedre M, Fontaine JB (2015) Evaluating forest management intensity on an umbrella species: capercaillie persistence in central Europe. For Ecol Manag 354:26–34
Moning C, Müller J (2009) Critical forest age thresholds for the diversity of lichens, molluscs and birds in beech (Fagus sylvatica L.) dominated forests. Ecol Ind 9:922–932
Moss R, Picozzi N, Catt DC (2006) Natal dispersal of capercaillieTetrao urogallus in northeast Scotland. Wildl Biol 12:227–232
Paillet Y, Bergès L, Hjältén J, Ódor P, Avon C, Bernhardt-römermann M, Bijlsma RJ, De Bruyn L, Fuhr M, Grandin U, Kanka R, Lundin L, Luque S, Magura T, Matesanz S, Mészáros I, Sebastià MT, Schmidt W, Standovár T, Tóthmérész B, Uotila A, Valladares F, Vellak K, Virtanen R (2010) Compromises in data selection in a meta-analysis of biodiversity in managed and unmanaged forests: response to Halme et al. Conserv Biol 24:1157–1160
Pakkala T, Pellikka J, Lindén H (2003) CapercaillieTetrao urogallus—a good candidate for an umbrella species in taiga forests. Wildl Biol 4:309–316
Pascual-Hortal L, Saura S (2008) Integrating landscape connectivity in broad-scale forest planning through a new graph-based habitat availability methodology: application to capercaillie (Tetrao urogallus) in Catalonia (NE Spain). Eur J For Res 127:23–31
Pearce J, Ferrier S (2000) Evaluating the predictive performance of habitat models developed using logistic regression. Ecol Model 133:225–245
Phillips SJ, Anderson RP, Schapire RE (2006) Maximum entropy modelling of species geographic distributions. Ecol Model 190:231–259
Phillips SJ, Dudik M (2008) Modeling of species distributions with Maxent: new extensions and a comprehensive evaluation. Ecography 31:161–175
Quevedo M, Bañuelos MJ, Obeso JR (2006) The decline of Cantabrian capercaillie: how much does habitat configuration matter? Biol Conserv 127:190–200
Riley SJ, Gloria SD, Elliot R (1999) A terrain ruggedness index that quantifies topographic heterogeneity. Int J Sci 5:1–4
Rolstad J, Wegge P (1987) Distribution and size of capercaillie leks in relation to old forest fragmentation. Oecologia 72:389–394
Rösner S, Mussard-Forster E, Lorenc T, Müller J (2014) Recreation shapes a “landscape of fear” for a threatened forest bird species in Central Europe. Landscape Ecol 29:55–66
Saniga M (2002) Habitat features of the capercaillie (Tetrao urogallus) leks in the West Carpathians. J For Sci 48:415–424
Saniga M (2003) Ecology of the capercaillie (Tetrao urogallus) and forest management in relation to its protection in the West Carpathians. J For Sci 49:229–239
Sappington J, Longshore KM, Thompson DB (2007) Quantifying landscape ruggedness for animal habitat analysis: a case study using bighorn sheep in the Mojave Desert. J Wildl Manag 71:1419–1426
Saura S, Estreguil C, Mouton C, Rodríguez-Freire M (2011) Network analysis to assess landscape connectivity trends: application to European forests (1990–2000). Ecol Indic 11:407–416
Saura S, Pascual-Hortal L (2007) A new habitat availability index to integrate connectivity in landscape conservation planning: comparison with existing indices and application to a case study. Landsc Urban Plan 83:91–103
Saura S, Torné J (2009) Conefor Sensinode 2.2: a software package for quantifying the importance of habitat patches for landscape connectivity. Environ Model Softw 24:135–139
Segelbacher G, Höglund J, Storch I (2003) From connectivity to isolation: genetic consequences of population fragmentation in capercaillie across Europe. Mol Ecol 12:1773–1780
Seibold S, Bässler C, Brandl R, Gossner MM, Thorn S, Ulyshen MD, Müller J (2015) Experimental studies of dead-wood biodiversity—a review identifying global gaps in knowledge. Biol Conserv 191:139–149
Selva N, Kreft S, Kati V, Schluck M, Jonsson BG, Mihok B, Okarma H, Ibisch PL (2011) Roadless and low-traffic areas as conservation targets in Europe. J Environ Manag 48:865–877
Simpson M, Prots B (2012) Predicting the distribution of invasive plants in the Ukrainian Carpathians under climatic change and intensification of anthropogenic disturbances: implications for biodiversity conservation. Environ Conserv 40:1–15
Soille P, Vogt P (2008) Morphological segmentation of binary patterns. Pattern Recogn Lett 30:456–459
Storch I (1993) Habitat selection by capercaillie in summer and autumn: is bilberry important? Oecologia 95:257–265
Storch I (1995) Habitat requirements of capercaillie. Proc Int Symp Grouse 6:151–154
Storch I (2000) Conservation status and threats to grouse worldwide: an overview. Wildl Biol 6:195–204
Storch I (2002) On spatial resolution in habitat models: can small-scale forest structure explain capercaillie numbers ? Conserv Ecol 6:6
Storch I (2007) Conservation status of grouse worldwide: an update. Wildl Biol 13:5–12
Storch I, Leidenberger C (2003) Tourism, mountain huts and distribution of corvids in the Bavarian Alps, Germany. Wildl Biol 9:301–308
Storch I, Segelbacher G (2000) Genetic correlates of spatial population structure in central European capercaillieTetrao urogallus and black grouseT. tetrix: a project in progress. Wildl Biol 6:305–310
Suter W, Graf RF, Hesst R (2002) Capercaillie (Tetrao urogallus) and avian biodiversity: testing the umbrella-species concept. Conserv Biol 16:778–788
Svoboda M, Janda P, Bače R, Fraver S, Nagel TA, Rejzek J, Mikoláš M, Douda J, Boublík K, Šamonil P, Čada V, Trotsiuk V, Teodosiu M, Bouriaud O, Biriş AI, Sýkora O, Uzel P, Zelenka J, Sedlák V, Lehejček J (2014) Landscape-level variability in historical disturbance in primaryPicea abies mountain forests of the Eastern Carpathians, Romania. J Veg Sci 25:386–401
Teuscher M, Brandl R, Förster B, Hothorn T, Rösner S, Müller J (2013) Forest inventories are a valuable data source for habitat modelling of forest species: an alternative to remote-sensing data. Forestry 86:241–253
Thiel D, Jenni-Eiermann S, Palme R, Jenni L (2011) Winter tourism increases stress hormone levels in the CapercaillieTetrao urogallus. Ibis 153:122–133
Trombulak S, Frissell C (2000) Review of ecological effects of roads on terrestrial and aquatic communities. Conserv Biol 14:18–30
Trotsiuk V, Svoboda M, Janda P, Mikolas M, Bace R, Rejzek J, Samonil P, Chaskovskyy O, Korol M, Myklush S (2014) A mixed severity disturbance regime in the primaryPicea abies (L.) Karst. forests of the Ukrainian Carpathians. For Ecol Manag 334:144–153
Uezu A, Metzger JP, Vielliard JME (2005) Effects of structural and functional connectivity and patch size on the abundance of seven Atlantic Forest bird species. Biol Conserv 123:507–519
UNEP (2007) Carpathians environment outlook. United Nations Environment Programme, Geneva
Vogt P (2015) GuidosToolbox (graphical user interface for the description of image objects and their shapes): digital image analysis software collection available at the following web site:http://forest.jrc.ec.europa.eu/download/software/guidos. Accessed 9 April 2016
Wallenius T, Niskanen L, Virtanen T, Hottola J, Brumelis G, Angervuori A, Julkunen J, Pihlström M (2010) Loss of habitats, naturalness and species diversity in Eurasian forest landscapes. Ecol Indic 10:1093–1101
Walpole AA, Bowman J, Murray DL, Wilson PJ (2012) Functional connectivity of lynx at their southern range periphery in Ontario, Canada. Landscape Ecol 27:761–773
Warren DL, Seifert SN (2011) Ecological niche modeling in Maxent: the importance of model complexity and the performance of model selection criteria. Ecol Appl 21:335–342
Wegge P, Rolstad J (2011) Clearcutting forestry and Eurasian boreal forest grouse: long-term monitoring of sympatric capercaillieTetrao urogallus and black grouseT. tetrix reveals unexpected effects on their population performances. For Ecol Manag 261:1520–1529
Wilcove DS, Rothstein D, Dubow J, Phillips A, Losos E (1998) Quantifying threats to imperiled species in the United States. BioScience 48:607–615
Acknowledgments
We thank three anonymous reviewers for their constructive and helpful comments on the manuscript. This study was supported by Czech Science Foundation project (GACR 15-14840S) and Czech University of Life Sciences, Prague (CIGA No. 20154316). TK gratefully acknowledges support by the Einstein Foundation Berlin.
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Faculty of Forestry and Wood Sciences, Czech University of Life Sciences Prague, Kamýcká 129, Praha 6, 165 21, Suchdol, Czech Republic
Martin Mikoláš, Miroslav Svoboda, Tomáš Hlásny & Robert C. Morrissey
PRALES, Odtrnovie 563, 013 22, Rosina, Slovakia
Martin Mikoláš
Faculty of Environmental Sciences, Czech University of Life Sciences Prague, Kamýcká 129, Praha 6, 165 21, Suchdol, Czech Republic
Martin Tejkal
Integrative Research Institute on Transformation in Human-Environment Systems (IRI THESys), Humboldt-University Berlin, Unter den Linden 6, 10099, Berlin, Germany
Tobias Kuemmerle
Geography Department, Humboldt-University Berlin, Unter den Linden 6, 10099, Berlin, Germany
Tobias Kuemmerle, Patrick Griffiths & Pedro J. Leitão
Department of Forest and Landscape Ecology, National Forest Centre – Forest Research Institute Zvolen, T. G. Masaryka 22, Zvolen, Slovakia
Tomáš Hlásny
Plant and Environmental Sciences, New Mexico State University, Las Cruces, NM, 88003, USA
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Martin Mikoláš and Martin Tejkal have contributed equally to this work.
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Mikoláš, M., Tejkal, M., Kuemmerle, T.et al. Forest management impacts on capercaillie (Tetrao urogallus) habitat distribution and connectivity in the Carpathians.Landscape Ecol32, 163–179 (2017). https://doi.org/10.1007/s10980-016-0433-3
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