Prey selection by an apex predator: the importance of sampling uncertainty

The impact of predation on prey populations has long been a focus of ecologists, but a firm understanding of the factors influencing prey selection, a key predictor of that impact, remains elusive. High levels of variability observed in prey selection may reflect true differences in the ecology of d...

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Bibliographic Details
Published in:PloS one 2012-10, Vol.7 (10), p.e47894-e47894
Main Authors: Davis, Miranda L, Stephens, Philip A, Willis, Stephen G, Bassi, Elena, Marcon, Andrea, Donaggio, Emanuela, Capitani, Claudia, Apollonio, Marco
Format: Article
Language:English
Subjects:
Animal behavior
Animals
Annual variations
Availability
Biology
Canidae
Canis lupus
Census
Choice Behavior - physiology
Confidence intervals
Data Collection - methods
Deer
Deer - physiology
Diet
Ecological effects
Ecology
Estimates
Feces - chemistry
Food Chain
Intervals
Italy
Mathematics
Models, Biological
Population Dynamics
Predation
Predatory Behavior - physiology
Prey
Prey selection
Sampling
Sampling error
Species Specificity
Studies
Sus scrofa
Temporal variations
Uncertainty
Ungulates
Variability
Wolves
Wolves - physiology
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Summary:The impact of predation on prey populations has long been a focus of ecologists, but a firm understanding of the factors influencing prey selection, a key predictor of that impact, remains elusive. High levels of variability observed in prey selection may reflect true differences in the ecology of different communities but might also reflect a failure to deal adequately with uncertainties in the underlying data. Indeed, our review showed that less than 10% of studies of European wolf predation accounted for sampling uncertainty. Here, we relate annual variability in wolf diet to prey availability and examine temporal patterns in prey selection; in particular, we identify how considering uncertainty alters conclusions regarding prey selection.Over nine years, we collected 1,974 wolf scats and conducted drive censuses of ungulates in Alpe di Catenaia, Italy. We bootstrapped scat and census data within years to construct confidence intervals around estimates of prey use, availability and selection. Wolf diet was dominated by boar (61.5 ± 3.90 [SE] % of biomass eaten) and roe deer (33.7 ± 3.61%). Temporal patterns of prey densities revealed that the proportion of roe deer in wolf diet peaked when boar densities were low, not when roe deer densities were highest. Considering only the two dominant prey types, Manly's standardized selection index using all data across years indicated selection for boar (mean = 0.73 ± 0.023). However, sampling error resulted in wide confidence intervals around estimates of prey selection. Thus, despite considerable variation in yearly estimates, confidence intervals for all years overlapped. Failing to consider such uncertainty could lead erroneously to the assumption of differences in prey selection among years. This study highlights the importance of considering temporal variation in relative prey availability and accounting for sampling uncertainty when interpreting the results of dietary studies.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0047894