Vulnerability to fluctuations in prey and predation landscape in a central place foraging marine predator

Introduction: Human-induced environmental change is driving a global redistribution of biodiversity, resulting in shifting prey and predation landscapes. These shifting landscapes can lead to changes in behavior, health, and vital rates, with potential implications for population dynamics. Methods:...

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Bibliographic Details
Main Authors: CN Speakman, EA McHuron, John Arnould
Format: Article in Journal/Newspaper
Language:unknown
Published: 2024
Subjects:
Biological sciences
Ecology
Geology
Oceanography
Science & Technology
Life Sciences & Biomedicine
Environmental Sciences
Marine & Freshwater Biology
Environmental Sciences & Ecology
benthic predator
bioenergetic modelling
dynamic state variable modelling
income breeding
pinniped
population dynamics
state-dependent life-history theory
stochastic dynamic programming
ANTARCTIC FUR SEALS
INTERANNUAL VARIATION
PUP PRODUCTION
CLIMATE-CHANGE
POPULATION
GROWTH
IDENTIFICATION
CONSEQUENCES
CALIFORNIA
DYNAMICS
Pediatric
3 Good Health and Well Being
Antarctic
Antarc*
Antarctic Fur Seals
Online Access:http://hdl.handle.net/10779/DRO/DU:25764186.v1
https://figshare.com/articles/journal_contribution/Vulnerability_to_fluctuations_in_prey_and_predation_landscape_in_a_central_place_foraging_marine_predator/25764186
Description
Summary:Introduction: Human-induced environmental change is driving a global redistribution of biodiversity, resulting in shifting prey and predation landscapes. These shifting landscapes can lead to changes in behavior, health, and vital rates, with potential implications for population dynamics. Methods: In the present study, a state-dependent life-history theory model was developed to investigate the individual- and population-level responses of Australian fur seals (Arctocephalus pusillus doriferus) to changes in prey availability and at-sea mortality risk. Results: Rates of pregnancy, pup nursing, and abortion were unaffected by prey availability in the simulated population. Likewise, on-land and at-sea durations were largely unaffected by prey availability, with more pronounced affects for nonreproductive and pregnant females than for lactating females. There was a strong influence of prey availability on the proportion of females that were concurrently pregnant and lactating, largely due to an increase in pup abandonments under low prey availability scenarios. This effect on pup abandonments also had flow on effects for pup recruitment. Increasing at-sea mortality risk resulted in greater offspring losses due to maternal death. The combined impact of prey availability and at-sea mortality risk on the number of simulated female offspring reaching sexual maturity was substantial. Discussion: Consequently, our results suggest high vulnerability of the Australian fur seal population to shifting prey and predation landscapes. These results indicate a need for continued monitoring of Australian fur seal pup production and population dynamics in the face of rapid environmental change.

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