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Modelled mid-trophic pelagic prey fields improve understanding of marine predator foraging behaviour


Green, DB and Bestley, S and Trebilco, R and Corney, SP and Lehody, P and McMahon, CR and Guinet, C and Hindell, MA, Modelled mid-trophic pelagic prey fields improve understanding of marine predator foraging behaviour, Ecography, 43, (7) pp. 1014-1026. ISSN 0906-7590 (2020) [Refereed Article]


Copyright Statement

Copyright 2020 the authors. Licensed under Creative Commons Attribution 3.0 Unported (CC BY 3.0)

DOI: doi:10.1111/ecog.04939


Biophysical interactions are influential in determining the scale of key ecological processes within marine ecosystems. For oceanic predators, this means foraging behaviour is influenced by processes shaping the distribution of prey. However, oceanic prey is difficult to observe and its abundance and distribution is regionally generalised. We use a spatiotemporally resolved simulation model to describe mid‐trophic prey distribution within the Southern Ocean and demonstrate insights that this modelled prey field provides into the foraging behaviour of a widely distributed marine predator, the southern elephant seal.

From a five‐year simulation of prey biomass, we computed climatologies of mean prey biomass (average prey conditions) and prey biomass variability (meso‐scale variability). We also compiled spatially gridded metrics of seal density and diving behaviour from 13 yr of tracking data. We statistically modelled these metrics as non‐linear functions of prey biomass (both mean and variability) and used these to predict seal distribution and behaviour. Our predictions were consistent with observations (R2adj = 0.23), indicating that seals aggregate in regions of high mesoscale activity where eddies concentrate prey. Here, seals dived deeper (R2marg = 0.12, R2cond = 0.51) and spent less time hunting (R2marg = 0.05, R2cond = 0.56), likely targeting deep but profitable prey patches. Seals generally avoided areas of low eddy activity where prey was likely dispersed. Most seals foraged south of the Subantarctic Front, despite north of the front exhibiting consistently high simulated prey biomasses. This likely reflects seal prey or habitat preferences, but also emphasises the importance of mesoscale prey biomass variability relative to regionally high mean biomass. This work demonstrates the value of coupling mechanistic representations of prey biomass with predator observations to provide insight into how biophysical processes combine to shape species distributions. This will be increasingly important for the robust prediction of speciesí responses to rapid system change.

Item Details

Item Type:Refereed Article
Keywords:Southern Ocean, southern elephant seals, marine predators, foraging success, biotelemetry, mid-trophic prey, mesopelagic, ecosystem modelling, Kerguelen Plateau, predators prey interaction
Research Division:Biological Sciences
Research Group:Ecology
Research Field:Marine and estuarine ecology (incl. marine ichthyology)
Objective Division:Environmental Management
Objective Group:Management of Antarctic and Southern Ocean environments
Objective Field:Biodiversity in Antarctic and Southern Ocean environments
UTAS Author:Green, DB (Mr David Green)
UTAS Author:Bestley, S (Dr Sophie Bestley)
UTAS Author:Corney, SP (Dr Stuart Corney)
UTAS Author:McMahon, CR (Dr Clive McMahon)
UTAS Author:Hindell, MA (Professor Mark Hindell)
ID Code:138657
Year Published:2020
Funding Support:Australian Research Council (DE180100828)
Web of Science® Times Cited:1
Deposited By:Ecology and Biodiversity
Deposited On:2020-04-20
Last Modified:2020-12-08
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