Data from: predator-induced defences under tropicalisation: a biogeographic approach
Data from: predator-induced defences under tropicalisation: a biogeographic approach
Aim: The biogeography of predator-induced defences is an understudied area of predator-prey dynamics. Range overlap with predators that induce the response and local demographics (e.g., prey abundances) are likely to be important factors for determining the biogeographic distribution of induced defences within species. However, with climate warming, range expanding warm-water predators are increasingly preying upon temperate species. This is a consequence of a wider phenomenon known as tropicalisation. We aim to determine: (i) if individuals of a temperate barnacle with induced defences ("bent morphs") are primarily present where they co-occur with range-expanding warm-water predators (muricid snails) and, (ii) if bent morphs are size-structured within populations. Location: North-eastern Pacific rocky intertidal zone (~26-40ºN) Taxon: Tetraclita rubescens (Nilsson-Cantell, 1931), Balanomorpha Methods: We use photo quadrats from sites across the range of T. rubescens to determine the biogeographic distribution of populations with bent morphs and to assess size-structure. We use a combination of field surveys, literature, and museum occurrences to assess range overlap between cool and warm-water predators of T. rubescens and their association with populations with bent morphs and abundance patterns of T. rubescens. Results: Bent morphs are commonly found within the equatorward portion of the species' range (where abundances are highest), in populations overlapping with range expanding warm-water predators. Bent morphs primarily occur within the smaller size classes. Main conclusions: To be partly resilient to the effects of tropicalisation, temperate prey must acclimatize/adapt to altered predator-prey dynamics. Predator-induced defences are one way to do this. We show that bent morphs within a temperate prey species (T. rubescens) are largely restricted to populations that overlap with large-bodied and range-expanding warm-water predators. This is evidence for the partial resilience of T. rubescens to tropicalisation and provides the rationale for further exploration of the eco-evolutionary consequences of tropicalisation in this study system and others.
Paz-Garcia, David
dd1aed4c-901e-4a93-b06f-ce4922f0415c
Beas-Luna, Rodrigo
990469b2-8f29-4042-bcf8-d376d05640d2
Raimondi, Peter
c5a4d55e-b300-4bac-a4ce-79be59a81c94
Zarzyczny, Karolina
f413d318-ce7a-4899-8502-88989b9af01a
Sones, Jacqueline
e67574d5-e207-4ce7-a95a-6ad3e5d537bb
MacLean, Moira
61661eb4-5549-4b68-b085-6fdd352664cb
Sanford, Eric
832bf800-d386-4b67-869b-db77d154c755
Fenberg, Phillip
c73918cd-98cc-41e6-a18c-bf0de4f1ace8
Igic, Boris
dd0ea63c-817f-45be-a44e-a75945a155f9
Paz-Garcia, David
dd1aed4c-901e-4a93-b06f-ce4922f0415c
Beas-Luna, Rodrigo
990469b2-8f29-4042-bcf8-d376d05640d2
Raimondi, Peter
c5a4d55e-b300-4bac-a4ce-79be59a81c94
Zarzyczny, Karolina
f413d318-ce7a-4899-8502-88989b9af01a
Sones, Jacqueline
e67574d5-e207-4ce7-a95a-6ad3e5d537bb
MacLean, Moira
61661eb4-5549-4b68-b085-6fdd352664cb
Sanford, Eric
832bf800-d386-4b67-869b-db77d154c755
Fenberg, Phillip
c73918cd-98cc-41e6-a18c-bf0de4f1ace8
Igic, Boris
dd0ea63c-817f-45be-a44e-a75945a155f9
(2023)
Data from: predator-induced defences under tropicalisation: a biogeographic approach.
Zenodo
doi:10.5061/dryad.djh9w0w5q
[Dataset]
Abstract
Aim: The biogeography of predator-induced defences is an understudied area of predator-prey dynamics. Range overlap with predators that induce the response and local demographics (e.g., prey abundances) are likely to be important factors for determining the biogeographic distribution of induced defences within species. However, with climate warming, range expanding warm-water predators are increasingly preying upon temperate species. This is a consequence of a wider phenomenon known as tropicalisation. We aim to determine: (i) if individuals of a temperate barnacle with induced defences ("bent morphs") are primarily present where they co-occur with range-expanding warm-water predators (muricid snails) and, (ii) if bent morphs are size-structured within populations. Location: North-eastern Pacific rocky intertidal zone (~26-40ºN) Taxon: Tetraclita rubescens (Nilsson-Cantell, 1931), Balanomorpha Methods: We use photo quadrats from sites across the range of T. rubescens to determine the biogeographic distribution of populations with bent morphs and to assess size-structure. We use a combination of field surveys, literature, and museum occurrences to assess range overlap between cool and warm-water predators of T. rubescens and their association with populations with bent morphs and abundance patterns of T. rubescens. Results: Bent morphs are commonly found within the equatorward portion of the species' range (where abundances are highest), in populations overlapping with range expanding warm-water predators. Bent morphs primarily occur within the smaller size classes. Main conclusions: To be partly resilient to the effects of tropicalisation, temperate prey must acclimatize/adapt to altered predator-prey dynamics. Predator-induced defences are one way to do this. We show that bent morphs within a temperate prey species (T. rubescens) are largely restricted to populations that overlap with large-bodied and range-expanding warm-water predators. This is evidence for the partial resilience of T. rubescens to tropicalisation and provides the rationale for further exploration of the eco-evolutionary consequences of tropicalisation in this study system and others.
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Published date: 15 September 2023
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Local EPrints ID: 484560
URI: http://eprints.soton.ac.uk/id/eprint/484560
PURE UUID: ee49817a-6c74-49d0-a1c0-3820691f05de
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Date deposited: 16 Nov 2023 15:00
Last modified: 18 Nov 2023 02:45
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Contributors
Contributor:
David Paz-Garcia
Contributor:
Rodrigo Beas-Luna
Contributor:
Peter Raimondi
Contributor:
Jacqueline Sones
Contributor:
Eric Sanford
Contributor:
Boris Igic
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