Activity seascapes highlight central place foraging strategies in marine predators that never stop swimming

In this study, the stable isotope ratios of δ13C and δ15N of bridled terns’ (Onychoprion anaethetus) tail feathers were used to investigate changes in the food sources assimilated by the birds on Penguin Island, Western Australia, during different phases of the breeding season. Samples were taken immediately after they arrived on the island returning from migration (BM), before egg-laying (BEL), after egg-laying (AEL), after hatching (AH) and from fledglings (F). A one-way MANOVA (excluding the BM phase) and two one-way ANOVAs (including all phases), showed that the δ13C and δ15N values differed significantly between the stages of the breeding season, with the greatest differences between the BM and BEL stages. The mean δ13C values were higher and those for δ15N were lower for BM birds than all other stages, indicating that the food source assimilated by the birds, and their foraging locations, changed during the breeding season. These results support the hypothesis of the Central Place Foraging Theory, i.e. that adult breeding birds adjust their foraging strategies when they are bound to a central place to care for their young. Induced feathers were regenerated over ~70 days and their regrowth rates were similar before and after egg-laying.

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Population and Community Consequences of Spatial Subsidies Derived from Central-Place Foraging

The American Naturalist ◽

10.2307/4541163 ◽

2007 ◽

Vol 170 (6) ◽

pp. 902

Author(s):

Fagan ◽

Frithjof Lutscher ◽

Katie Schneider

Keyword(s):

Central Place ◽

Central Place Foraging ◽

Spatial Subsidies

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Tree Swallow selection for wetlands in agricultural landscapes predicted by central-place foraging theory

The Condor ◽

10.1093/condor/duaa039 ◽

2020 ◽

Author(s):

Andrew S Elgin ◽

Robert G Clark ◽

Christy A Morrissey

Keyword(s):

Habitat Selection ◽

Central Place ◽

Foraging Theory ◽

Agricultural Landscapes ◽

Tree Swallow ◽

Field Margins ◽

Central Place Foraging ◽

Prairie Pothole ◽

Prairie Wetlands ◽

Selection For

Abstract Millions of wetland basins, embedded in croplands and grasslands, are biodiversity hotspots in North America’s Prairie Pothole Region, but prairie wetlands continue to be degraded and drained, primarily for agricultural activities. Aerial insectivorous swallows are known to forage over water, but it is unclear whether swallows exhibit greater selection for wetlands relative to other habitats in croplands and grasslands. Central-place foraging theory suggests that habitat selectivity should increase with traveling distance from a central place, such that foragers compensate for traveling costs by selecting more profitable foraging habitat. Using global positioning system (GPS) tags, we evaluated habitat selection by female Tree Swallows (Tachycineta bicolor) at 4 sites containing wetlands and where terrestrial land cover was dominated by grasslands (grass, herbaceous cover) and/or cultivated cropland. We also used sweep-net transects to assess the abundance and biomass of flying insects in different habitats available to swallows (wetland pond margins, grassy field margins, and representative uplands). As expected for a central-place forager, GPS-tagged swallows selected more for wetland ponds (disproportionate to availability), and appeared to increasingly select for wetlands with increasing distance from their nests. On cropland-dominated sites, insect abundance and biomass tended to be higher in pond margins or grassy field margins compared to cropped uplands, while abundance and biomass were more uniform among sampled habitats at sites dominated by grass and herbaceous cover. Swallow habitat selection was not clearly explained by the distribution of sampled insects among habitats; however, traditional terrestrial sampling methods may not adequately reflect prey distribution and availability to aerially foraging swallows. Overall, our results underscore the importance of protecting and enhancing prairie wetlands and other non-crop habitats in agricultural landscapes, given their disproportionate use and capacity to support breeding swallow and insect populations.

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Central place foraging in wheatears (Oenanthe oenanthe L.): foraging itineraries when feeding nestlings

Behavioral Ecology and Sociobiology ◽

10.1007/bf00295543 ◽

1985 ◽

Vol 16 (4) ◽

pp. 307-316 ◽

Cited By ~ 11

Author(s):

Allan Carlson ◽

Juan Moreno

Keyword(s):

Central Place ◽

Central Place Foraging ◽

Oenanthe Oenanthe

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The influence of travel distance on sugar loading decisions and water balance in the central place foraging ant Solenopsis invicta

Insectes Sociaux ◽

10.1007/s00040-008-0980-y ◽

2008 ◽

Vol 55 (2) ◽

pp. 129-136 ◽

Cited By ~ 3

Author(s):

J. B. Martin ◽

S. B. Vinson

Keyword(s):

Water Balance ◽

Solenopsis Invicta ◽

Central Place ◽

Travel Distance ◽

Central Place Foraging ◽

Sugar Loading

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Central place foraging in the white-fronted bee-eater

Animal Behaviour ◽

10.1016/s0003-3472(82)80183-8 ◽

1982 ◽

Vol 30 (4) ◽

pp. 953-963 ◽

Cited By ~ 22

Author(s):

Robert E. Hegner

Keyword(s):

Central Place ◽

Central Place Foraging

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Diving deep into trouble: the role of foraging strategy and morphology in adapting to a changing environment

Conservation Physiology ◽

10.1093/conphys/coaa111 ◽

2020 ◽

Vol 8 (1) ◽

Author(s):

Monique Ladds ◽

David Rosen ◽

Carling Gerlinsky ◽

David Slip ◽

Robert Harcourt

Keyword(s):

Foraging Strategy ◽

Central Place ◽

Dive Duration ◽

Foraging Strategies ◽

Body Morphology ◽

Sea Lions ◽

Fur Seals ◽

Adequate Food ◽

Physiological Capacity ◽

Total Body Oxygen

Abstract Physiology places constraints on an animal’s ability to forage and those unable to adapt to changing conditions may face increased challenges to reproduce and survive. As the global marine environment continues to change, small, air-breathing, endothermic marine predators such as otariids (fur seals and sea lions) and particularly females, who are constrained by central place foraging during breeding, may experience increased difficulties in successfully obtaining adequate food resources. We explored whether physiological limits of female otariids may be innately related to body morphology (fur seals vs sea lions) and/or dictate foraging strategies (epipelagic vs mesopelagic or benthic). We conducted a systematic review of the increased body of literature since the original reviews of Costa et al. (When does physiology limit the foraging behaviour of freely diving mammals? Int Congr Ser 2004;1275:359–366) and Arnould and Costa (Sea lions in drag, fur seals incognito: insights from the otariid deviants. In Sea Lions of the World Fairbanks. Alaska Sea Grant College Program, Alaska, USA, pp. 309–324, 2006) on behavioural (dive duration and depth) and physiological (total body oxygen stores and diving metabolic rates) parameters. We estimated calculated aerobic dive limit (cADL—estimated duration of aerobic dives) for species and used simulations to predict the proportion of dives that exceeded the cADL. We tested whether body morphology or foraging strategy was the primary predictor of these behavioural and physiological characteristics. We found that the foraging strategy compared to morphology was a better predictor of most parameters, including whether a species was more likely to exceed their cADL during a dive and the ratio of dive time to cADL. This suggests that benthic and mesopelagic divers are more likely to be foraging at their physiological capacity. For species operating near their physiological capacity (regularly exceeding their cADL), the ability to switch strategies is limited as the cost of foraging deeper and longer is disproportionally high, unless it is accompanied by physiological adaptations. It is proposed that some otariids may not have the ability to switch foraging strategies and so be unable adapt to a changing oceanic ecosystem.

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