Data from: When the "selfish herd" becomes the "frozen herd": spatial dynamics and population persistence in a colonial seabird

Aggregations are common in ecological systems at a range of scales and may be driven by exogenous constraints such as environmental heterogeneity and resource availability or by 'self-organizing' interactions among individuals. One mechanism leading to self-organized animal aggregations is...

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Bibliographic Details
Main Authors: McDowall, Philip, Lynch, Heather
Format: Article in Journal/Newspaper
Language:unknown
Published: 2019
Subjects:
aggregation
self-organization
coloniality
spatial ecology
Adélie penguin
Antarc*
Antarctica
Pygoscelis adeliae
Online Access:http://hdl.handle.net/10255/dryad.220175
https://doi.org/10.5061/dryad.8778hh9
id ftdryad:oai:v1.datadryad.org:10255/dryad.220175
record_format openpolar
spelling ftdryad:oai:v1.datadryad.org:10255/dryad.220175 2023-05-15T14:04:38+02:00 Data from: When the "selfish herd" becomes the "frozen herd": spatial dynamics and population persistence in a colonial seabird McDowall, Philip Lynch, Heather Antarctica 2019-07-18T14:52:41Z http://hdl.handle.net/10255/dryad.220175 https://doi.org/10.5061/dryad.8778hh9 unknown doi:10.5061/dryad.8778hh9/1 doi:10.1002/ecy.2823 doi:10.5061/dryad.8778hh9 McDowall P, Lynch HJ (2019) When the “selfish herd” becomes the “frozen herd”: spatial dynamics and population persistence in a colonial seabird. Ecology. http://hdl.handle.net/10255/dryad.220175 aggregation self-organization coloniality spatial ecology Adélie penguin Article 2019 ftdryad https://doi.org/10.5061/dryad.8778hh9 https://doi.org/10.5061/dryad.8778hh9/1 https://doi.org/10.1002/ecy.2823 2020-01-01T16:30:37Z Aggregations are common in ecological systems at a range of scales and may be driven by exogenous constraints such as environmental heterogeneity and resource availability or by 'self-organizing' interactions among individuals. One mechanism leading to self-organized animal aggregations is captured by Hamilton's ‘selfish herd’ hypothesis, which suggests that aggregations may be driven by an individual's effort to minimize their risk of predation by surrounding themselves with conspecifics. We demonstrate that aggregations observed in Adélie penguin (Pygoscelis adeliae) colonies are a convolution of both self-organized dynamics and external forcing arising from landscape terrain. In fluid, highly mobile aggregations, individuals are constantly moving in response to changing environmental conditions, the locations of predators, or the movements of conspecifics. However, when the ability to rearrange is limited and spatial reconfiguration occurs on slower time scales than changes in population size, systems may become trapped in sub-optimal arrangements. We use simulated annealing to demonstrate that Adélie penguin colonies are frozen in sub-optimal spatial arrangements, and employ an individual-based modelling approach to demonstrate that this sub-optimal spatial configuration is driven by a convolution of nest site fidelity and stochastic events at the level of individual nests. The resulting spatial dynamics are responsible for a hysteretic response to long-term changes in abundance. We find that declining abundance leads to fragmentation even in a homogeneous environment, which has population-level consequences for reproductive success because predation is biased towards colony edges. Strong edge effects from heterogeneous predation coupled with fragmentation in response to population declines creates a positive feedback cycle that can accelerate population decline. This work provides a mechanistic understanding of complex spatial structuring in penguin colonies, provides a link between current spatial patterning and past dynamics, and suggests the possibility of critical collapse in seabird populations. Article in Journal/Newspaper Antarc* Antarctica Pygoscelis adeliae Dryad Digital Repository (Duke University)
institution Open Polar
collection Dryad Digital Repository (Duke University)
op_collection_id ftdryad
language unknown
topic aggregation
self-organization
coloniality
spatial ecology
Adélie penguin
spellingShingle aggregation
self-organization
coloniality
spatial ecology
Adélie penguin
McDowall, Philip
Lynch, Heather
Data from: When the "selfish herd" becomes the "frozen herd": spatial dynamics and population persistence in a colonial seabird
topic_facet aggregation
self-organization
coloniality
spatial ecology
Adélie penguin
description Aggregations are common in ecological systems at a range of scales and may be driven by exogenous constraints such as environmental heterogeneity and resource availability or by 'self-organizing' interactions among individuals. One mechanism leading to self-organized animal aggregations is captured by Hamilton's ‘selfish herd’ hypothesis, which suggests that aggregations may be driven by an individual's effort to minimize their risk of predation by surrounding themselves with conspecifics. We demonstrate that aggregations observed in Adélie penguin (Pygoscelis adeliae) colonies are a convolution of both self-organized dynamics and external forcing arising from landscape terrain. In fluid, highly mobile aggregations, individuals are constantly moving in response to changing environmental conditions, the locations of predators, or the movements of conspecifics. However, when the ability to rearrange is limited and spatial reconfiguration occurs on slower time scales than changes in population size, systems may become trapped in sub-optimal arrangements. We use simulated annealing to demonstrate that Adélie penguin colonies are frozen in sub-optimal spatial arrangements, and employ an individual-based modelling approach to demonstrate that this sub-optimal spatial configuration is driven by a convolution of nest site fidelity and stochastic events at the level of individual nests. The resulting spatial dynamics are responsible for a hysteretic response to long-term changes in abundance. We find that declining abundance leads to fragmentation even in a homogeneous environment, which has population-level consequences for reproductive success because predation is biased towards colony edges. Strong edge effects from heterogeneous predation coupled with fragmentation in response to population declines creates a positive feedback cycle that can accelerate population decline. This work provides a mechanistic understanding of complex spatial structuring in penguin colonies, provides a link between current spatial patterning and past dynamics, and suggests the possibility of critical collapse in seabird populations.
format Article in Journal/Newspaper
author McDowall, Philip
Lynch, Heather
author_facet McDowall, Philip
Lynch, Heather
author_sort McDowall, Philip
title Data from: When the "selfish herd" becomes the "frozen herd": spatial dynamics and population persistence in a colonial seabird
title_short Data from: When the "selfish herd" becomes the "frozen herd": spatial dynamics and population persistence in a colonial seabird
title_full Data from: When the "selfish herd" becomes the "frozen herd": spatial dynamics and population persistence in a colonial seabird
title_fullStr Data from: When the "selfish herd" becomes the "frozen herd": spatial dynamics and population persistence in a colonial seabird
title_full_unstemmed Data from: When the "selfish herd" becomes the "frozen herd": spatial dynamics and population persistence in a colonial seabird
title_sort data from: when the "selfish herd" becomes the "frozen herd": spatial dynamics and population persistence in a colonial seabird
publishDate 2019
url http://hdl.handle.net/10255/dryad.220175
https://doi.org/10.5061/dryad.8778hh9
op_coverage Antarctica
genre Antarc*
Antarctica
Pygoscelis adeliae
genre_facet Antarc*
Antarctica
Pygoscelis adeliae
op_relation doi:10.5061/dryad.8778hh9/1
doi:10.1002/ecy.2823
doi:10.5061/dryad.8778hh9
McDowall P, Lynch HJ (2019) When the “selfish herd” becomes the “frozen herd”: spatial dynamics and population persistence in a colonial seabird. Ecology.
http://hdl.handle.net/10255/dryad.220175
op_doi https://doi.org/10.5061/dryad.8778hh9
https://doi.org/10.5061/dryad.8778hh9/1
https://doi.org/10.1002/ecy.2823
_version_ 1766275841202847744

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