Role of biological habitat amelioration in altering the relative responses of congeneric species to climate change
Role of biological habitat amelioration in altering the relative responses of congeneric species to climate change
The distribution of most species is expected to alter in response to climate change. Predictions
for the extent of these range shifts are frequently based on ‘climate envelope’ approaches,
which often oversimplify species responses because many do not consider interactions between
physical and biological factors. The local persistence of some species, however, is likely to be strongly
modulated by microhabitat-forming organisms. Using congeneric patellid gastropods with northern/
boreal and southern/lusitanian distributions, we have demonstrated how the loss of habitat-forming
macroalgal species could modify species responses to climate change. The northern limpet Patella
vulgata preferentially aggregates beneath Fucus spp. When Fucus vesiculosus was experimentally
removed, to simulate a decline in macroalgal abundance in response to climatic warming, P. vulgata
suffered increased mortality or relocated home scars, often to nearby Fucus spp. patches. In contrast,
the southern limpet P. depressa did not aggregate beneath Fucus spp. and showed no response in
terms of movement or mortality to the loss of F. vesiculosus. Based on these results, we predict that
the loss of Fucus spp. will influence the relative abundance of these 2 limpet species, particularly at
the distributional limit of Fucus spp. In addition, differences in the aggregative behaviour of these
limpet species will result in changes in the spatial distribution of grazing in the intertidal, with likely
consequences for community dynamics. These outcomes could not be anticipated from predictions
based on direct responses to temperature alone, highlighting the need for biotic and abiotic factors to
be incorporated into predictions of species responses to climate change.
Biological interactions, Biologically generated habitat, Climate change, Climate envelope, Limpets, Macroalgae
11-19
Moore, P.
986569cb-7f1f-4faa-a4d3-80a816384728
Hawkins, S.J.
758fe1c1-30cd-4ed1-bb65-2471dc7c11fa
Thompson, R.C.
d632e905-6f51-49a0-9426-13c42c3d0a18
26 March 2007
Moore, P.
986569cb-7f1f-4faa-a4d3-80a816384728
Hawkins, S.J.
758fe1c1-30cd-4ed1-bb65-2471dc7c11fa
Thompson, R.C.
d632e905-6f51-49a0-9426-13c42c3d0a18
Moore, P., Hawkins, S.J. and Thompson, R.C.
(2007)
Role of biological habitat amelioration in altering the relative responses of congeneric species to climate change.
Marine Ecology Progress Series, 334, .
(doi:10.3354/meps).
Abstract
The distribution of most species is expected to alter in response to climate change. Predictions
for the extent of these range shifts are frequently based on ‘climate envelope’ approaches,
which often oversimplify species responses because many do not consider interactions between
physical and biological factors. The local persistence of some species, however, is likely to be strongly
modulated by microhabitat-forming organisms. Using congeneric patellid gastropods with northern/
boreal and southern/lusitanian distributions, we have demonstrated how the loss of habitat-forming
macroalgal species could modify species responses to climate change. The northern limpet Patella
vulgata preferentially aggregates beneath Fucus spp. When Fucus vesiculosus was experimentally
removed, to simulate a decline in macroalgal abundance in response to climatic warming, P. vulgata
suffered increased mortality or relocated home scars, often to nearby Fucus spp. patches. In contrast,
the southern limpet P. depressa did not aggregate beneath Fucus spp. and showed no response in
terms of movement or mortality to the loss of F. vesiculosus. Based on these results, we predict that
the loss of Fucus spp. will influence the relative abundance of these 2 limpet species, particularly at
the distributional limit of Fucus spp. In addition, differences in the aggregative behaviour of these
limpet species will result in changes in the spatial distribution of grazing in the intertidal, with likely
consequences for community dynamics. These outcomes could not be anticipated from predictions
based on direct responses to temperature alone, highlighting the need for biotic and abiotic factors to
be incorporated into predictions of species responses to climate change.
Text
Moore_etal_2007_MEPS.pdf
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Published date: 26 March 2007
Keywords:
Biological interactions, Biologically generated habitat, Climate change, Climate envelope, Limpets, Macroalgae
Organisations:
Ocean and Earth Science
Identifiers
Local EPrints ID: 188123
URI: http://eprints.soton.ac.uk/id/eprint/188123
PURE UUID: 5f98be31-f5d6-4317-9897-c4281812de3c
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Date deposited: 20 May 2011 10:50
Last modified: 14 Mar 2024 03:29
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Author:
P. Moore
Author:
R.C. Thompson
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