Thums, M and Bradshaw, CJA and Sumner, MD and Horsburgh, JM and Hindell, MA, Depletion of deep marine food patches forces divers to give up early, Journal of Animal Ecology, 82, (1) pp. 72-83. ISSN 0021-8790 (2013) [Refereed Article]
Copyright 2012 The Authors. Journal of Animal Ecology Copyright 2012 British Ecological Society
- Many optimal foraging models for diving animals examine strategies that maximize time spent in the foraging zone, assuming that prey acquisition increases linearly with search time. Other models have considered the effect of patch quality and predict a net energetic benefit if dives where no prey is encountered early in the dive are abandoned. For deep divers, however, the energetic benefit of giving up is reduced owing to the elevated energy costs associated with descending to physiologically hostile depths, so patch residence time should be invariant. Others consider an asymptotic gain function where the decision to leave a patch is driven by patch-depletion effects - the marginal value theorem. As predator behaviour is increasingly being used as an index of marine resource density and distribution, it is important to understand the nature of this gain function.
- We investigated the dive behaviour of the world's deepest-diving seal, the southern elephant seal Mirounga leonina, in response to patch quality. Testing these models has largely been limited to controlled experiments on captive animals. By integrating in situ measurements of the seal's relative lipid content obtained from drift rate data (a measure of foraging success) with area-restricted search behaviour identified from first-passage time analysis, we identified regions of high- and low-quality patches.
- Dive durations and bottom times were not invariant and did not increase in regions of high quality; rather, both were longer when patches were of relatively low quality. This is consistent with the predictions of the marginal value theorem and provides support for a nonlinear relationship between search time and prey acquisition.
- We also found higher descent and ascent rates in high-quality patches suggesting that seals minimized travel time to the foraging patch when quality was high; however, this was not achieved by increasing speed or dive angle. Relative body lipid content was an important predictor of dive behaviour.
- Seals did not schedule their diving to maximize time spent in the foraging zone in higher-quality patches, challenging the widely held view that maximizing time in the foraging zone translates to greater foraging success.
|Item Type:||Refereed Article|
|Keywords:||aerobic dive limit, functional response, patch model|
|Research Division:||Biological Sciences|
|Research Field:||Marine and estuarine ecology (incl. marine ichthyology)|
|Objective Division:||Environmental Management|
|Objective Group:||Coastal and estuarine systems and management|
|Objective Field:||Assessment and management of coastal and estuarine ecosystems|
|UTAS Author:||Thums, M (Ms Michele Thums)|
|UTAS Author:||Sumner, MD (Mr Michael Sumner)|
|UTAS Author:||Horsburgh, JM (Dr Judy Horsburgh)|
|UTAS Author:||Hindell, MA (Professor Mark Hindell)|
|Funding Support:||Australian Research Council (A00104696)|
|Web of Science® Times Cited:||39|
|Deposited By:||IMAS Research and Education Centre|
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