Spatial segregation in a sexually dimorphic central place forager: Competitive exclusion or niche divergence?
Spatial segregation in a sexually dimorphic central place forager: Competitive exclusion or niche divergence?
Sexual competition is increasingly recognized as an important selective pressure driving species distributions. However, few studies have investigated the relative importance of interpopulation versus intrapopulation competition in relation to habitat availability and selection. To explain spatial segregation between sexes that often occurs in non-territorial and central place foragers, such as seabirds, two hypotheses are commonly used. The ‘competitive exclusion’ hypothesis states that dominant individuals should exclude subordinate individuals through direct competition, whereas the ‘niche divergence’ hypothesis states that segregation occurs due to past competition and habitat specialization. We tested these hypotheses in two populations of an extreme wide-ranging and sexually dimorphic seabird, investigating the relative role of intrapopulation and interpopulation competition in influencing sex-specific distribution and habitat preferences. Using GPS loggers, we tracked 192 wandering albatrosses Diomedea exulans during four consecutive years (2016–2019), from two neighbouring populations in the Southern Ocean (Prince Edward and Crozet archipelagos). We simulated pseudo-tracks to create a null spatial distribution and used Kernel Density Estimates (KDE) and Resource Selection Functions (RSF) to distinguish the relative importance of within- versus between-population competition. Kernel Density Estimates showed that only intrapopulation sexual segregation was significant for each monitoring year, and that tracks between the two colonies resulted in greater overlap than expected from the null distribution, especially for the females. RSF confirmed these results and highlighted key at-sea foraging areas, even if the estimated of at-sea densities were extremely low. These differences in selected areas between sites and sexes were, however, associated with high interannual variability in habitat preferences, with no clear specific preferences per site and sex. Our results suggest that even with low at-sea population densities, historic intrapopulation competition in wide-ranging seabirds may have led to sexual dimorphism and niche specialization, favouring the ‘niche divergence’ hypothesis. In this study, we provide a protocol to study competition within as well as between populations of central place foragers. This is relevant for understanding their distribution patterns and population regulation, which could potentially improve management of threatened populations.
bio-logging, central place foraging, ecological niche theory, intraspecific competition, kernel density estimates, resource selection functions, sexual segregation, wandering albatross
2404-2420
Orgeret, Florian
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Reisinger, Ryan R.
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Carpenter‐Kling, Tegan
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Keys, Danielle Z.
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Corbeau, Alexandre
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Bost, Charles‐André
57705c66-0489-4a11-a5c6-7a716aaece79
Weimerskirch, Henri
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Pistorius, Pierre A.
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29 October 2021
Orgeret, Florian
32651520-5ba1-405e-8212-488cfa4a711e
Reisinger, Ryan R.
4eaf9440-48e5-41fa-853f-d46457e5444e
Carpenter‐Kling, Tegan
1d35fc56-1e0f-4d27-ab94-41bd2b876a91
Keys, Danielle Z.
55e122b0-2936-49f2-ab47-3267fbf67213
Corbeau, Alexandre
563457f3-0c91-4b54-ac17-1aec1890e2b9
Bost, Charles‐André
57705c66-0489-4a11-a5c6-7a716aaece79
Weimerskirch, Henri
fb5128e3-1789-4c1b-91b7-cabd1d8d7547
Pistorius, Pierre A.
a288f7c6-fa98-4314-9f85-53790fa2b905
Orgeret, Florian, Reisinger, Ryan R., Carpenter‐Kling, Tegan, Keys, Danielle Z., Corbeau, Alexandre, Bost, Charles‐André, Weimerskirch, Henri and Pistorius, Pierre A.
(2021)
Spatial segregation in a sexually dimorphic central place forager: Competitive exclusion or niche divergence?
Journal of Animal Ecology, 90 (10), .
(doi:10.1111/1365-2656.13552).
Abstract
Sexual competition is increasingly recognized as an important selective pressure driving species distributions. However, few studies have investigated the relative importance of interpopulation versus intrapopulation competition in relation to habitat availability and selection. To explain spatial segregation between sexes that often occurs in non-territorial and central place foragers, such as seabirds, two hypotheses are commonly used. The ‘competitive exclusion’ hypothesis states that dominant individuals should exclude subordinate individuals through direct competition, whereas the ‘niche divergence’ hypothesis states that segregation occurs due to past competition and habitat specialization. We tested these hypotheses in two populations of an extreme wide-ranging and sexually dimorphic seabird, investigating the relative role of intrapopulation and interpopulation competition in influencing sex-specific distribution and habitat preferences. Using GPS loggers, we tracked 192 wandering albatrosses Diomedea exulans during four consecutive years (2016–2019), from two neighbouring populations in the Southern Ocean (Prince Edward and Crozet archipelagos). We simulated pseudo-tracks to create a null spatial distribution and used Kernel Density Estimates (KDE) and Resource Selection Functions (RSF) to distinguish the relative importance of within- versus between-population competition. Kernel Density Estimates showed that only intrapopulation sexual segregation was significant for each monitoring year, and that tracks between the two colonies resulted in greater overlap than expected from the null distribution, especially for the females. RSF confirmed these results and highlighted key at-sea foraging areas, even if the estimated of at-sea densities were extremely low. These differences in selected areas between sites and sexes were, however, associated with high interannual variability in habitat preferences, with no clear specific preferences per site and sex. Our results suggest that even with low at-sea population densities, historic intrapopulation competition in wide-ranging seabirds may have led to sexual dimorphism and niche specialization, favouring the ‘niche divergence’ hypothesis. In this study, we provide a protocol to study competition within as well as between populations of central place foragers. This is relevant for understanding their distribution patterns and population regulation, which could potentially improve management of threatened populations.
Text
Orgeret et al 2022 Journal of Animal Ecology - Post print
More information
Accepted/In Press date: 29 May 2021
Published date: 29 October 2021
Keywords:
bio-logging, central place foraging, ecological niche theory, intraspecific competition, kernel density estimates, resource selection functions, sexual segregation, wandering albatross
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Local EPrints ID: 453053
URI: http://eprints.soton.ac.uk/id/eprint/453053
ISSN: 0021-8790
PURE UUID: b8fa22f3-738a-438e-a75c-d1c3ea8dadba
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Date deposited: 07 Jan 2022 17:48
Last modified: 17 Mar 2024 04:08
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Contributors
Author:
Florian Orgeret
Author:
Tegan Carpenter‐Kling
Author:
Danielle Z. Keys
Author:
Alexandre Corbeau
Author:
Charles‐André Bost
Author:
Henri Weimerskirch
Author:
Pierre A. Pistorius
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