Mate similarity in foraging Kerguelen shags: a combined bio-logging and stable isotope investigation

Similarity or dissimilarity between 2 individuals that have formed a pair to breed can occur in morphology, behaviour and diet. Such patterns influence partners' cooperation when rearing their offspring, consequently influencing reproductive success. They may confer different benefits, dependin...

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Bibliographic Details
Main Authors: Elodie Camprasse, Y Cherel, John Arnould, A J Hoskins, P Bustamante, C A Bost
Format: Other Non-Article Part of Journal/Newspaper
Language:unknown
Published: 2017
Subjects:
Oceanography
Ecology
Zoology
pair similarity
mate choice
kerguelen shags
spatial use
diving behaviour
diet
stable isotopes
Science & Technology
Life Sciences & Biomedicine
Physical Sciences
Marine & Freshwater Biology
Environmental Sciences & Ecology
SEXUAL SIZE DIMORPHISM
REPRODUCTIVE SUCCESS
PHALACROCORAX-ARISTOTELIS
SOUTHERN-OCEAN
PARENTAL CARE
INDIVIDUAL-DIFFERENCES
AVIAN PERSONALITIES
SEABIRD
BEHAVIOR
CONSEQUENCES
Southern Ocean
Kerguelen
Online Access:http://hdl.handle.net/10536/DRO/DU:30102992
https://figshare.com/articles/journal_contribution/Mate_similarity_in_foraging_Kerguelen_shags_a_combined_bio-logging_and_stable_isotope_investigation/20832004
Description
Summary:Similarity or dissimilarity between 2 individuals that have formed a pair to breed can occur in morphology, behaviour and diet. Such patterns influence partners' cooperation when rearing their offspring, consequently influencing reproductive success. They may confer different benefits, depending on species and contexts. However, the extent to which breeding partners are more similar in morphology, behaviour, and diet is poorly documented. Furthermore, the relationship between behavioural consistency and mate choice is particularly poorly understood. To investigate these issues, Kerguelen shags Phalacrocorax verrucosus, which are monogamous with high mate fidelity across years, were studied. Partners were equipped with GPS and diving behaviour loggers. Feather and blood samples were analysed for stable isotopes (δ 13 C, a proxy of foraging habitat, and δ 15 N, a proxy of diet/trophic position). Generalized linear mixed effects models and permutation tests were used to investigate pair similarity in morphology, foraging behaviour, behavioural consistency, overlap in foraging areas, and diets/foraging habitats. Mates were found not to exhibit size-Assortative mating, but were more similar in foraging behaviour. They did not show assortative or disassortative mating based on foraging behavioural consistency. Furthermore, they followed more similar bearings and overlapped more in foraging areas. In accordance with this, partners were more similar in δ 15 N. Given the lack of assortative mating by morphology, the similarity in behaviour could be due to individuals selecting mates with similar foraging abilities, linked with individual quality, and/or subsequently using information gained from their partners' foraging strategies (e.g. local enhancement). This could help breeding pairs increase their foraging efficiency and reproductive success.

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