The underestimated role of carrion in vertebrates' diet studies

Aim Despite the increasing scientific evidence on the importance of carrion in the ecology and evolution of many vertebrates, scavenging is still barely considered in diet studies. Here, we draw attention to how scientific literature has underestimated the role of vertebrates as scavengers, identify...

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Published inGlobal ecology and biogeography Vol. 32; no. 8; pp. 1302 - 1310
Main Authors Sebastián‐González, Esther, Morant, Jon, Moleón, Marcos, Redondo‐Gómez, Daniel, Morales‐Reyes, Zebensui, Pascual‐Rico, Roberto, Pérez‐García, Juan Manuel, Arrondo, Eneko
Format Journal Article
LanguageEnglish
Published Oxford Wiley Subscription Services, Inc 01.08.2023
Subjects
biases studies
carnivory
Carrion
Detritus
Diet
Ecology
Food chains
Food sources
Food webs
Mammals
omnivory
predator
Predators
prey items
Scavengers
Scavenging
Species
Vertebrates
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Summary:Aim Despite the increasing scientific evidence on the importance of carrion in the ecology and evolution of many vertebrates, scavenging is still barely considered in diet studies. Here, we draw attention to how scientific literature has underestimated the role of vertebrates as scavengers, identifying the ecological traits that characterize those species whose role as scavengers could have gone especially unnoticed. Location Global. Time Period 1938–2022. Major Taxa Studied Terrestrial vertebrate scavengers. Methods We analysed and compared (a) the largest database available on scavenging patterns by carrion‐consuming vertebrates, (b) 908 diet studies about 156 scavenger species and (c) one of the most complete databases on bird and mammal diets (Elton Traits database). For each of these 156 species, we calculated their scavenging degree (i.e. proportion of carcases where the species is detected consuming carrion) as a proxy for carrion consumption, and related their ecological traits with the probability of being identified as scavengers in diet studies and in the Elton Traits database. Results More than half of the species identified as scavengers at monitored carcasses were not assigned carrion as food source in their diet studies nor in the Elton Traits database. Using a subset of study sites, we found a direct relationship between a species' scavenging degree and its rate of carrion biomass removal. In addition, scavenger species, which were classified as non‐predators and mammals had a lower probability of being identified as scavengers in diet studies and in the Elton Traits database, respectively. Main Conclusions Our results clearly indicate an underestimation of the role of scavenging in vertebrate food webs. Given that detritus recycling is fundamental to ecosystem functioning, we encourage further recognition and investigation of the role of carrion as a food resource for vertebrates, especially for non‐predator species and mammals with higher scavenging degree.
ISSN:1466-822X
1466-8238
DOI:10.1111/geb.13707