Obligate vertebrate scavengers must be large soaring fliers.
about
Using tri-axial acceleration data to identify behavioral modes of free-ranging animals: general concepts and tools illustrated for griffon vulturesSpatio-temporal hotspots of satellite-tracked arctic foxes reveal a large detection range in a mammalian predator.Q27496567From daily movements to population distributions: weather affects competitive ability in a guild of soaring birdsForaging ranges of immature African white-backed vultures (Gyps africanus) and their use of protected areas in southern AfricaGenomic signatures of diet-related shifts during human originsIntra-guild competition and its implications for one of the biggest terrestrial predators, Tyrannosaurus rexHow cheap is soaring flight in raptors? A preliminary investigation in freely-flying vultures.How predictability of feeding patches affects home range and foraging habitat selection in avian social scavengers?The evolutionary pathway to obligate scavenging in Gyps vultures.Dropping dead: causes and consequences of vulture population declines worldwide.Scavengers on the move: behavioural changes in foraging search patterns during the annual cycle.Donor-Control of Scavenging Food Webs at the Land-Ocean InterfaceResource selection by the California condor (Gymnogyps californianus) relative to terrestrial-based habitats and meteorological conditions.Mixed strategies of griffon vultures' (Gyps fulvus) response to food deprivation lead to a hump-shaped movement patternInter-specific interactions linking predation and scavenging in terrestrial vertebrate assemblages.The first whole genome and transcriptome of the cinereous vulture reveals adaptation in the gastric and immune defense systems and possible convergent evolution between the Old and New World vulturesDecision-making by a soaring bird: time, energy and risk considerations at different spatio-temporal scalesAfrican vultures don't follow migratory herds: scavenger habitat use is not mediated by prey abundance.Understanding selection for long necks in different taxa.Understanding how mammalian scavengers use information from avian scavengers: cue from above.Ecological role of vertebrate scavengers in urban ecosystems in the UKBird sky networks: how do avian scavengers use social information to find carrion?Food predictability determines space use of endangered vultures: implications for management of supplementary feeding.Effects of vulture declines on facultative scavengers and potential implications for mammalian disease transmission.Not in wilderness: African vulture strongholds remain in areas with high human density.GPS tracking of non-breeding ravens reveals the importance of anthropogenic food sources during their dispersal in the Eastern Alps.Effects of vulture exclusion on carrion consumption by facultative scavengers.Vultures acquire information on carcass location from scavenging eagles.The nested structure of a scavenger community.The significance of facultative scavenging in generalist predator nutrition: detecting decayed prey in the guts of predators using PCR.A recipe for scavenging in vertebrates - the natural history of a behaviourTasmanian devil (Sarcophilus harrisii) extinction on the Australian mainland in the mid-Holocene: multicausality and ENSO intensificationCarrion cycling in food webs: comparisons among terrestrial and marine ecosystemsThe carabid Pterostichus melanarius uses chemical cues for opportunistic predation and saprophagy but not for finding healthy preyThe importance of managing the costs and benefits of bird activity for agricultural sustainabilityCarrion ecology modelling for vulture conservation: are vulture restaurants needed to sustain the densest breeding population of the African white-backed vulture?Carcass size shapes the structure and functioning of an African scavenging assemblageFacultative predation and scavenging by mammalian carnivores: seasonal, regional and intra-guild comparisonsCarcasses provide resources not exclusively to scavengers: patterns of carrion exploitation by passerine birds
P2860
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P2860
Obligate vertebrate scavengers must be large soaring fliers.
description
2004 nî lūn-bûn
@nan
2004 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
name
Obligate vertebrate scavengers must be large soaring fliers.
@ast
Obligate vertebrate scavengers must be large soaring fliers.
@en
Obligate vertebrate scavengers must be large soaring fliers.
@nl
type
label
Obligate vertebrate scavengers must be large soaring fliers.
@ast
Obligate vertebrate scavengers must be large soaring fliers.
@en
Obligate vertebrate scavengers must be large soaring fliers.
@nl
prefLabel
Obligate vertebrate scavengers must be large soaring fliers.
@ast
Obligate vertebrate scavengers must be large soaring fliers.
@en
Obligate vertebrate scavengers must be large soaring fliers.
@nl
P1476
Obligate vertebrate scavengers must be large soaring fliers.
@en
P2093
David C Houston
Graeme D Ruxton
P304
P356
10.1016/J.JTBI.2004.02.005
P407
P577
2004-06-01T00:00:00Z