The reorganization of predator–prey networks over 20 million years explains extinction patterns of mammalian carnivores

Linking the species interactions occurring at the scale of local communities to their potential impact at evolutionary timescales is challenging. Here, we used the high‐resolution fossil record of mammals from the Iberian Peninsula to reconstruct a timeseries of trophic networks spanning more than 2...

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Bibliographic Details
Published in:Ecology letters 2024-06, Vol.27 (6), p.e14448-n/a
Main Authors: Nascimento, João C. S., Blanco, Fernando, Domingo, M. Soledad, Cantalapiedra, Juan L., Pires, Mathias M.
Format: Article
Language:English
Subjects:
Animals
Annan geovetenskap
Availability
Biodiversity
Biological Evolution
Carnivora - physiology
Carnivores
Ecology
Ekologi
Evolutionary Biology
Evolutionsbiologi
extinction
Extinction, Biological
Food Chain
food webs
Fossils
Herbivores
Iberian Peninsula
Local communities
longevity
Mammals
Mammals - physiology
megafauna
Multidisciplinary Geosciences
Multidisciplinär geovetenskap
Networks
Other Earth Sciences
paleoecology
predation
Predator-prey interactions
Predators
Predatory Behavior
Prey
prey species
risk
Spain
species
Species extinction
Species richness
time series analysis
Trends
trophic interactions
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Summary:Linking the species interactions occurring at the scale of local communities to their potential impact at evolutionary timescales is challenging. Here, we used the high‐resolution fossil record of mammals from the Iberian Peninsula to reconstruct a timeseries of trophic networks spanning more than 20 million years and asked whether predator–prey interactions affected regional extinction patterns. We found that, despite small changes in species richness, trophic networks showed long‐term trends, gradually losing interactions and becoming sparser towards the present. This restructuring of the ecological networks was driven by the loss of medium‐sized herbivores, which reduced prey availability for predators. The decrease in prey availability was associated with predator longevity, such that predators with less available prey had greater extinction risk. These results not only reveal long‐term trends in network structure but suggest that prey species richness in ecological communities may shape large scale patterns of extinction and persistence among predators. We used the Iberian fossil records to reconstruct mammalian food webs throughout millions of years. We found that trophic networks became sparser and less connected towards the present and that a higher number of prey species buffered predators against extinction.
ISSN:1461-023X
1461-0248
1461-0248
DOI:10.1111/ele.14448