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G. Buchanan, P. Donald, S. Butchart (2011)
Identifying Priority Areas for Conservation: A Global Assessment for Forest-Dependent BirdsPLoS ONE, 6
M. Kuussaari, R. Bommarco, R. Heikkinen, A. Helm, J. Krauss, R. Lindborg, Erik Ockinger, M. Pärtel, J. Pino, F. Rodà, C. Stefanescu, T. Teder, M. Zobel, I. Steffan‐Dewenter (2009)
Extinction debt: a challenge for biodiversity conservation.Trends in ecology & evolution, 24 10
J. Watson, T. Evans, O. Venter, B. Williams, A. Tulloch, Claire Stewart, I. Thompson, J. Ray, K. Murray, Álvaro Salazar, C. McAlpine, P. Potapov, J. Walston, John Robinson, M. Painter, D. Wilkie, C. Filardi, W. Laurance, R. Houghton, S. Maxwell, H. Grantham, C. Samper, Stephanie Wang, L. Laestadius, Rebecca Runting, G. Silva-Chávez, J. Ervin, D. Lindenmayer (2018)
The exceptional value of intact forest ecosystemsNature Ecology & Evolution, 2
Barbara Haurez, K. Daïnou, C. Vermeulen, F. Kleinschroth, F. Mortier, S. Gourlet‐Fleury, J. Doucet (2017)
A look at Intact forest Landscapes (IFLs) and their relevance in Central African forest policyForest Policy and Economics, 80
(2006)
Roadmap to Recovery: the world’s last intact forest landscapes
P. Potapov, A. Yaroshenko, S. Turubanova, M. Dubinin, L. Laestadius, Christoph Thies, D. Aksenov, A. Egorov, Yelena Yesipova, I. Glushkov, Mikhail Karpachevskiy, A. Kostikova, A. Manisha, E. Tsybikova, I. Zhuravleva (2008)
Mapping the World's Intact Forest Landscapes by Remote SensingEcology and Society, 13
M. Hansen, R. DeFries, J. Townshend, M. Carroll, C. DiMiceli, R. Sohlberg (2003)
Global Percent Tree Cover at a Spatial Resolution of 500 Meters: First Results of the MODIS Vegetation Continuous Fields AlgorithmEarth Interactions, 7
J. Hoyo, A. Elliott, J. Sargatal, D. Christie (2010)
Handbook of the Birds of the World
C. Peres (2005)
Why We Need Megareserves in AmazoniaConservation Biology, 19
P. Potapov, M. Hansen, L. Laestadius, S. Turubanova, A. Yaroshenko, Christoph Thies, Wynet Smith, I. Zhuravleva, A. Komarova, S. Minnemeyer, E. Esipova (2017)
The last frontiers of wilderness: Tracking loss of intact forest landscapes from 2000 to 2013Science Advances, 3
Łukasz Tracewski, S. Butchart, M. Marco, G. Ficetola, C. Rondinini, Andy Symes, Hannah Wheatley, A. Beresford, G. Buchanan (2016)
Toward quantification of the impact of 21st‐century deforestation on the extinction risk of terrestrial vertebratesConservation Biology, 30
(2018)
Ordinal - Regression Models for Ordinal Data
I. Zhuravleva, S. Turubanova, P. Potapov, M. Hansen, A. Tyukavina, S. Minnemeyer, N. Laporte, S. Goetz, F. Verbelen, Christoph Thies (2013)
Satellite-based primary forest degradation assessment in the Democratic Republic of the Congo, 2000–2010Environmental Research Letters, 8
Jeremy Bird, G. Buchanan, A. Lees, R. Clay, P. Develey, Itala Yépez, S. Butchart (2012)
Integrating spatially explicit habitat projections into extinction risk assessments: a reassessment of Amazonian avifauna incorporating projected deforestationDiversity and Distributions, 18
S. Pimm, Clinton Jenkins, Binbin Li (2018)
How to protect half of Earth to ensure it protects sufficient biodiversityScience Advances, 4
H. Öttl, W. Keydel (2000)
Shuttle Radar Topography Mission
M. Betts, C. Wolf, W. Ripple, B. Phalan, Kimberley Millers, Adam Duarte, S. Butchart, Taal Levi (2017)
Global forest loss disproportionately erodes biodiversity in intact landscapesNature, 547
F. Kleinschroth, J. Healey, S. Gourlet‐Fleury, F. Mortier, R. Stoica (2016)
Effects of logging on roadless space in intact forest landscapes of the Congo BasinConservation Biology, 31
(2016)
A Global Standard for the Identification of Key Biodiversity Areas, Version 1.0
K. Hylander, J. Ehrlén (2013)
The mechanisms causing extinction debts.Trends in ecology & evolution, 28 6
Marion Pfeifer, Marion Pfeifer, Veronique Lefebvre, Carlos Peres, Cristina Banks‐Leite, Oliver Wearn, Charles Marsh, Stuart Butchart, Stuart Butchart, V. Arroyo‐Rodríguez, Jos Barlow, Alexis Cerezo, Laura Cisneros, Neil D'Cruze, Deborah Faria, A. Hadley, S. Harris, Brian Klingbeil, Urs Kormann, Luc Lens, G. Medina-Rangel, J. Morante‐Filho, Pieter Olivier, S. Peters, A. Pidgeon, Danilo Ribeiro, Christoph Scherber, L. Schneider-Maunoury, M. Struebig, J. Urbina-Cardona, J. Watling, M. Willig, Eric Wood, R. Ewers (2017)
Creation of forest edges has a global impact on forest vertebratesNature, 551
D. Tilman, R. May, C. Lehman, M. Nowak (1994)
Habitat destruction and the extinction debtNature, 371
(2009)
Global mapping and monitoring the extent of forest alteration: The Intact Forest Landscapes method: Forest Resources Assessment, Working Paper 166. Rome: FAO
R. Chazdon (2018)
Protecting intact forests requires holistic approachesNature Ecology & Evolution, 2
J. Watson, Danielle Shanahan, M. Marco, James Allan, W. Laurance, E. Sanderson, B. Mackey, O. Venter (2016)
Catastrophic Declines in Wilderness Areas Undermine Global Environment TargetsCurrent Biology, 26
M. Heino, M. Kummu, M. Makkonen, M. Mulligan, P. Verburg, M. Jalava, T. Räsänen (2015)
Forest Loss in Protected Areas and Intact Forest Landscapes: A Global AnalysisPLoS ONE, 10
(2008)
Bird species distribution maps of the world . Version 7 . 0
A. Beresford, G. Buchanan, P. Donald, S. Butchart, L. Fishpool, C. Rondinini (2011)
Minding the protection gap: estimates of species' range sizes and holes in the Protected Area networkAnimal Conservation, 14
R. Team (2014)
R: A language and environment for statistical computing.MSOR connections, 1
C. Rondinini, M. Marco, Federica Chiozza, Giulia Santulli, D. Baisero, P. Visconti, M. Hoffmann, J. Schipper, S. Stuart, M. Tognelli, G. Amori, A. Falcucci, L. Maiorano, L. Boitani (2011)
Global habitat suitability models of terrestrial mammalsPhilosophical Transactions of the Royal Society B: Biological Sciences, 366
P. Beier, K. Burnham, David Anderson (2001)
Model Selection and Inference: A Practical Information-Theoretic ApproachJournal of Wildlife Management, 65
R. Fraga, Juan Barnett (1997)
Handbook of the Birds of the WorldEl Hornero
G. Buchanan, S. Butchart, G. Dutson, J. Pilgrim, M. Steininger, K. Bishop, P. Mayaux (2008)
Using remote sensing to inform conservation status assessment: Estimates of recent deforestation rates on New Britain and the impacts upon endemic birdsBiological Conservation, 141
Only around a third of the world's remaining forest cover survives in the form of Intact Forest Landscapes (IFL), and that proportion is declining. Loss of intactness could impact on biodiversity in many ways but the relationship between intactness and extinction risk has not been quantified. We created Extent of Suitable Habitat (ESH) maps for all the world's forest‐dependent birds and intersected them with an independently derived IFL layer. We also estimate the proportion of the total global range‐rarity of forest‐dependent birds that is captured by IFL. The majority of forest‐dependent bird species are now confined largely or entirely to be degraded, disturbed, or fragmented (non‐IFL) forests. Furthermore, only 22.5% of global hotspots of range‐rarity for forest‐dependent birds are found within intact forests. We find a very strong positive relationship between the global extinction risk of forest‐dependent birds and the proportion of forest within their ESH that is no longer intact. This effect was independent of overall range size and phylogeny. There was also a tendency for extinction risk to be higher in species that lost more intactness in their forest ESHs between 2000 and 2016. Restoring intactness to forest landscapes will reduce global extinction risk in forest‐dependent birds.
Animal Conservation – Wiley
Published: Aug 1, 2019
Keywords: ; ; ; ; ; ;
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