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References (63)
-
A. Helbig, Annett Kocum, I. Seibold, M. Braun (2005)
A multi-gene phylogeny of aquiline eagles (Aves: Accipitriformes) reveals extensive paraphyly at the genus level.Molecular phylogenetics and evolution, 35 1
-
J. Ragle, D. Remsen (2010)
IUCN Red List of Threatened Species -
B. Meatyard (2001)
Threatened Birds of the WorldBiological Conservation, 101
-
O. Krüger, N. Davies (2004)
The evolution of egg size in the brood parasitic cuckoosBehavioral Ecology, 15
-
A. Purvis, A. Rambaut (1995)
Comparative analysis by independent contrasts (CAIC): an Apple Macintosh application for analysing comparative dataComputer applications in the biosciences : CABIOS, 11 3
-
Fowlie Fowlie, Krüger Krüger (2003)
The evolution of plumage polymorphism in birds of prey and owlsthe apostatic selection hypothesis revisited, 16
-
R. Green, I. Newton, S. Shultz, A. Cunningham, M. Gilbert, D. Pain, V. Prakash (2004)
Diclofenac poisoning as a cause of vulture population declines across the Indian subcontinentJournal of Applied Ecology, 41
-
A. Purvis, J. Gittleman, G. Cowlishaw, G. Mace (2000)
Predicting extinction risk in declining speciesProceedings of the Royal Society of London. Series B: Biological Sciences, 267
-
Owens Owens, Bennett Bennett (2000)
Ecological basis of extinction risk in birdshabitat loss versus human persecution and introduced predators, 97
-
O. Krüger (2005)
The Evolution of Reversed Sexual Size Dimorphism in Hawks, Falcons and Owls: A Comparative StudyEvolutionary Ecology, 19
-
Krüger Krüger (2000)
Correlates of population density and body weight of raptors in the family Accipitridaea comparative study, 250
-
R. Macarthur, E. Wilson (1969)
The Theory of Island Biogeography -
D. Hoyt (1979)
PRACTICAL METHODS OF ESTIMATING VOLUME AND FRESH WEIGHT OF BIRD EGGSThe Auk, 96
-
Blomberg Blomberg, Garland Garland, Ives Ives (2003)
Testing for phylogenetic signal in comparative databehavioral traits are more labile, 57
-
(1994)
Family accipitridae -
Peter Long, Tamás Székely, Melanie Kershaw, Mark O'Connell (2007)
Ecological factors and human threats both drive wildfowl population declinesAnimal Conservation, 10
-
Kate Jones, A. Purvis, J. Gittleman (2003)
Biological Correlates of Extinction Risk in BatsThe American Naturalist, 161
-
H. Regan, R. Lupia, A. Drinnan, M. Burgman (2001)
The Currency and Tempo of ExtinctionThe American Naturalist, 157
-
K. Gaston, T. Blackburn (1996)
Global scale macroecology: Interactions between population size, geographic range size and body size in the AnseriformesJournal of Animal Ecology, 65
-
(2004)
Phylogenetic relationships in diurnal raptors based on nucleotide sequences of mitochondrial and nuclear marker genes -
A. Gamauf, E. Haring (2004)
Molecular phylogeny and biogeography of Honey‐buzzards (genera Pernis and Henicopernis)Journal of Zoological Systematics and Evolutionary Research, 42
-
P. Hedrick, C. Schonewald-Cox, S. Chambers, Bruce Macbryde, W. Thomas (1985)
Genetics and Conservation@@@Genetics and Conservation, A Reference for Managing Wild Animal and Plant Populations.Evolution, 39
-
Krüger Krüger (2005)
The evolution of reversed size dimorphism in hawks, falcons and owlsa comparative analysis, 19
-
D. Ackerly (2000)
TAXON SAMPLING, CORRELATED EVOLUTION, AND INDEPENDENT CONTRASTS, 54
-
A. Harcourt, S. Coppeto, Sean Parks (2002)
Rarity, specialization and extinction in primatesJournal of Biogeography, 29
-
Krüger Krüger, Davies Davies (2002)
The evolution of cuckoo parasitisma comparative analysis, 269
-
T. Blackburn, J. Lawton (1994)
POPULATION ABUNDANCE AND BODY-SIZE IN ANIMAL ASSEMBLAGESPhilosophical Transactions of the Royal Society B, 343
-
(2006)
Status and current distribution of the Harpy Eagle (Harpia harpyja) in Central -
J. Emlen (2008)
ON THE RELATIONSHIP BETWEEN ABUNDANCE AND DISTRIBUTION OF SPECIES -
Julian O'Grady, D. Reed, B. Brook, R. Frankham (2004)
What are the best correlates of predicted extinction riskBiological Conservation, 118
-
(1984)
Normal’ extinction of isolated populations -
D. Fisher, S. Blomberg, I. Owens (2003)
Extrinsic versus intrinsic factors in the decline and extinction of Australian marsupialsProceedings of the Royal Society of London. Series B: Biological Sciences, 270
-
D. Reichle (1973)
Analysis of Temperate Forest EcosystemsJournal of Wildlife Management, 36
-
(1994)
An exploratory phylogenetic analysis of the genera of the Accipitridae, with notes on the biogeography of the family -
R. Fullera, Philip McGowana, John Carrollb, René Dekkerc, Peter Garsond (2003)
What does IUCN species action planning contribute to the conservation processBiological Conservation, 112
-
M. Mckinney (1997)
Extinction Vulnerability and Selectivity: Combining Ecological and Paleontological ViewsAnnual Review of Ecology, Evolution, and Systematics, 28
-
G. Thomas, R. Lanctot, T. Székely (2006)
Can intrinsic factors explain population declines in North American breeding shorebirds? A comparative analysisAnimal Conservation, 9
-
Gaston Gaston, Blackburn Blackburn (1996)
Global scale macroecologyinteractions between population size, geographic range size and body size in the Anseriformes, 65
-
Purvis Purvis, Rambaut Rambaut (1995)
Comparative analysis by independent contrasts (CAIC)an Apple Macintosh application for analysing comparative data, 11
-
D. Fisher, I. Owens (2004)
The comparative method in conservation biology.Trends in ecology & evolution, 19 7
-
(2000)
Advances in the molecular systematics of African raptors -
M. Cardillo, A. Purvis, W. Sechrest, J. Gittleman, J. Bielby, G. Mace (2004)
Human Population Density and Extinction Risk in the World's CarnivoresPLoS Biology, 2
-
O. Krüger (2000)
Correlates of population density and body weight of raptors in the family Accipitridae: a comparative studyJournal of Zoology, 250
-
T. Blackburn, K. Gaston (2002)
Extrinsic factors and the population sizes of threatened birdsEcology Letters, 5
-
McKinney McKinney (1997)
Extinction vulnerability and selectivitycombining ecological and paleontological views, 28
-
S. Pimm, H. Jones, J. Diamond (1988)
On the Risk of ExtinctionThe American Naturalist, 132
-
O. Krüger, N. Davies (2002)
The evolution of cuckoo parasitism: a comparative analysisProceedings of the Royal Society of London. Series B: Biological Sciences, 269
-
J. Felsenstein (1985)
Phylogenies and the Comparative MethodThe American Naturalist, 125
-
Carrete Carrete, Donazar Donazar, Margalida Margalida (2006)
Density‐dependent productivity depression in Pyrenean bearded vulturesimplications for conservation, 16
-
Blackburn Blackburn, Lawton Lawton (1994)
Population abundance and body size in animal assemblagesPhilos. Trans. Roy. Soc. Lond. B, 343
-
M. Schönwetter (2005)
Handbuch der OologieAnzeiger für Schädlingskunde, 34
-
J. Shephard (2002)
Raptors of the WorldEmu - Austral Ornithology, 102
-
M. Fowlie, Oliver Krüger (2003)
The evolution of plumage polymorphism in birds of prey and owls: the apostatic selection hypothesis revisitedJournal of Evolutionary Biology, 16
-
M. Cardillo, G. Mace, J. Gittleman, A. Purvis (2006)
Latent extinction risk and the future battlegrounds of mammal conservation.Proceedings of the National Academy of Sciences of the United States of America, 103 11
-
O. Krüger (2005)
The evolution of reversed size dimorphism in hawks, falcons and owls: a comparative analysisEvolutionary Ecology, 19
-
Norman Myers (2004)
RarityBiodiversity & Conservation, 6
-
I. Owens, P. Bennett (2000)
Ecological basis of extinction risk in birds: habitat loss versus human persecution and introduced predators.Proceedings of the National Academy of Sciences of the United States of America, 97 22
-
G. Gage, M. Brooke, M. Symonds, D. Wege (2004)
Ecological correlates of the threat of extinction in Neotropical bird speciesAnimal Conservation, 7
-
Vargas Vargas, Whitacre Whitacre, Mosquera Mosquera, Albuquerque Albuquerque, Piana Piana, Thiollay Thiollay, Marquez Marquez, Sanchez Sanchez, Lezama‐Lopez Lezama‐Lopez, Midence Midence, Matola Matola, Aquilar Aquilar, Rettig Rettig, Sanaiotti Sanaiotti (2006)
Status and current distribution of the Harpy Eagle ( Harpia harpyja ) in Central and South AmericaOrn. Neotrop., 17
-
R. Frankham (1996)
Relationship of genetic variation to population size in wildlifeConservation Biology, 10
-
M. Carrete, J. Donázar, A. Margalida (2006)
Density-dependent productivity depression in Pyrenean Bearded Vultures: implications for conservation.Ecological applications : a publication of the Ecological Society of America, 16 5
-
S. Blomberg, T. Garland, A. Ives (2003)
TESTING FOR PHYLOGENETIC SIGNAL IN COMPARATIVE DATA: BEHAVIORAL TRAITS ARE MORE LABILE, 57
-
D. Simberloff (2001)
Threatened Birds of the World, 118
- Publisher
- Wiley
- Copyright
- © 2008 The Authors
- ISSN
- 1367-9430
- eISSN
- 1469-1795
- DOI
- 10.1111/j.1469-1795.2007.00155.x
- Publisher site
- See Article on Publisher Site
Abstract
One of the most important tasks in conservation biology is identifying species at risk from extinction and establishing the most likely factors influencing this risk. Here, we consider an ecologically well‐defined, monophyletic group of organisms, the true hawks of the family Accipitridae, which are not only among the most studied, but also contain some of the rarest bird species in the world. We investigate which intrinsic and extrinsic factors, covering morphology, life history and ecology, covary with International Union for the Conservation of Nature and Natural Resources threat status, as well as global population size and geographic range size. By decomposing threat status into population size and range size, we test whether any factors are generally important: we found that species with less habitat specialization, a larger clutch size and more plumage polymorphism were associated with lower extinction risk and larger population and range sizes. Species with special habitat requirements might be less capable of dealing with habitat transformation and fragmentation, while species with small clutch sizes might not be able to reverse population declines. Plumage polymorphism might indicate the size of the species' gene pool and could be a good marker of extinction risk. The analyses also emphasized that no single factor is likely to be sufficient when predicting the threat of extinction.
Journal
Animal Conservation – Wiley
Published: Apr 1, 2008