Multiple-stage decisions in a marine central-place forager.

Published

Journal Article

Air-breathing marine animals face a complex set of physical challenges associated with diving that affect the decisions of how to optimize feeding. Baleen whales (Mysticeti) have evolved bulk-filter feeding mechanisms to efficiently feed on dense prey patches. Baleen whales are central place foragers where oxygen at the surface represents the central place and depth acts as the distance to prey. Although hypothesized that baleen whales will target the densest prey patches anywhere in the water column, how depth and density interact to influence foraging behaviour is poorly understood. We used multi-sensor archival tags and active acoustics to quantify Antarctic humpback whale foraging behaviour relative to prey. Our analyses reveal multi-stage foraging decisions driven by both krill depth and density. During daylight hours when whales did not feed, krill were found in deep high-density patches. As krill migrated vertically into larger and less dense patches near the surface, whales began to forage. During foraging bouts, we found that feeding rates (number of feeding lunges per hour) were greatest when prey was shallowest, and feeding rates decreased with increasing dive depth. This strategy is consistent with previous models of how air-breathing diving animals optimize foraging efficiency. Thus, humpback whales forage mainly when prey is more broadly distributed and shallower, presumably to minimize diving and searching costs and to increase feeding rates overall and thus foraging efficiency. Using direct measurements of feeding behaviour from animal-borne tags and prey availability from echosounders, our study demonstrates a multi-stage foraging process in a central place forager that we suggest acts to optimize overall efficiency by maximizing net energy gain over time. These data reveal a previously unrecognized level of complexity in predator-prey interactions and underscores the need to simultaneously measure prey distribution in marine central place forager studies.

Full Text

Duke Authors

Cited Authors

  • Friedlaender, AS; Johnston, DW; Tyson, RB; Kaltenberg, A; Goldbogen, JA; Stimpert, AK; Curtice, C; Hazen, EL; Halpin, PN; Read, AJ; Nowacek, DP

Published Date

  • May 11, 2016

Published In

Volume / Issue

  • 3 / 5

Start / End Page

  • 160043 -

PubMed ID

  • 27293784

Pubmed Central ID

  • 27293784

Electronic International Standard Serial Number (EISSN)

  • 2054-5703

International Standard Serial Number (ISSN)

  • 2054-5703

Digital Object Identifier (DOI)

  • 10.1098/rsos.160043

Language

  • eng