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Main Authors: van Benthem, Koen J, Nagel, Rebecca, Beckmann, Lara Maleen, Hoffman, Joseph I, Wittmann, Meike J
Format: Artículo científico
Language:en
Published: Scientific reports 2026
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/41571703/
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author van Benthem, Koen J
Nagel, Rebecca
Beckmann, Lara Maleen
Hoffman, Joseph I
Wittmann, Meike J
author_facet van Benthem, Koen J
Nagel, Rebecca
Beckmann, Lara Maleen
Hoffman, Joseph I
Wittmann, Meike J
van Benthem, Koen J
Nagel, Rebecca
Beckmann, Lara Maleen
Hoffman, Joseph I
Wittmann, Meike J
collection PubMed - marine biology
contents The marginal male hypothesis explains only small amounts of spatial variation in density in pinnipeds. van Benthem, Koen J Nagel, Rebecca Beckmann, Lara Maleen Hoffman, Joseph I Wittmann, Meike J Animals Male Fur Seals Population Density Female Caniformia Models, Biological The marginal male hypothesis is a mechanism proposed to explain gregariousness in pinnipeds. Here, we explore whether this mechanism, combined with density-dependent pup survival, can also account for heterogeneity in density across colonies, as observed in Antarctic fur seals (Arctocephalus gazella). We built a discrete-time matrix model inspired by the Antarctic fur seal to investigate how differences in density between two colonies can emerge through mate choice and density-dependent pup mortality. Our model assumes a heritable male colony preference that is coupled to competitive ability, i.e. a local siring advantage. Female colony preference is modelled as an independent trait that is allowed to evolve separately. Pup survival decreases with local density. We observe slight differences in density between the colonies at equilibrium. When siring advantage is high and the survival penalty for males with siring advantage is low, the colony that is preferred by the high-quality males becomes the less dense colony. Our model serves as a proof of concept that such density differences can emerge, although the predicted density differences are much smaller than those observed in the field. We expect that by including additional environmental factors, future models will explain more of the observed variation in density.
format Artículo científico
id pubmed_41571703
institution PubMed
language en
publishDate 2026
publisher Scientific reports
record_format pubmed
spellingShingle The marginal male hypothesis explains only small amounts of spatial variation in density in pinnipeds.
van Benthem, Koen J
Nagel, Rebecca
Beckmann, Lara Maleen
Hoffman, Joseph I
Wittmann, Meike J
Animals
Male
Fur Seals
Population Density
Female
Caniformia
Models, Biological
The marginal male hypothesis explains only small amounts of spatial variation in density in pinnipeds. van Benthem, Koen J Nagel, Rebecca Beckmann, Lara Maleen Hoffman, Joseph I Wittmann, Meike J Animals Male Fur Seals Population Density Female Caniformia Models, Biological The marginal male hypothesis is a mechanism proposed to explain gregariousness in pinnipeds. Here, we explore whether this mechanism, combined with density-dependent pup survival, can also account for heterogeneity in density across colonies, as observed in Antarctic fur seals (Arctocephalus gazella). We built a discrete-time matrix model inspired by the Antarctic fur seal to investigate how differences in density between two colonies can emerge through mate choice and density-dependent pup mortality. Our model assumes a heritable male colony preference that is coupled to competitive ability, i.e. a local siring advantage. Female colony preference is modelled as an independent trait that is allowed to evolve separately. Pup survival decreases with local density. We observe slight differences in density between the colonies at equilibrium. When siring advantage is high and the survival penalty for males with siring advantage is low, the colony that is preferred by the high-quality males becomes the less dense colony. Our model serves as a proof of concept that such density differences can emerge, although the predicted density differences are much smaller than those observed in the field. We expect that by including additional environmental factors, future models will explain more of the observed variation in density.
title The marginal male hypothesis explains only small amounts of spatial variation in density in pinnipeds.
topic Animals
Male
Fur Seals
Population Density
Female
Caniformia
Models, Biological
url https://pubmed.ncbi.nlm.nih.gov/41571703/