Community structure and functioning in intertidal rock pools: effects of pool size and shore height at different successional stages
Community structure and functioning in intertidal rock pools: effects of pool size and shore height at different successional stages
Rock pools are dynamic and intermittently isolated habitats in the rocky intertidal. They
can be used as model systems to provide a more general insight into the ecology of patchy habitats,
which are less amenable to experimentation, such as islands and wildlife reserves. In the present
study, a range of pools of differing sizes was selected at 2 vertical levels on the shore to assess the
importance of habitat size and shore height on the structure and functioning of rock pool macroalgal
communities. Half of these pools were denuded of biota by scraping and chiselling, while the other
half were left unmanipulated, to compare the effect of patch size on communities at different
successional stages. Pool depth was shown to be markedly more important than area in determining
community structure of rock pools, although its effect varied with shore height. The diversity,
abundance of some macroalgal morphological groups, and algal gross primary productivity in some
circumstances were correlated with pool size, whereas total algal cover generally was not. There was
evidence that, even within the same morphological group, species responded differently to the
influence of pool size, thus emphasising the importance of species identity when predicting
responses to changes in environmental conditions (e.g. temperature stress). This study revealed the
importance of pool depth over area in dictating macroalgal community structure, but also highlights
the existence of various other effects of rock pool size that were more idiosyncratic.
Rock pool, Patch size, Shore height, Abiotic factors, Successional stages, Macroalgae, Gross primary productivity
43-55
Martins, G.M.
e58970f9-089c-4881-b8af-deaf2987d042
Hawkins, S.J.
758fe1c1-30cd-4ed1-bb65-2471dc7c11fa
Thompson, R.C.
d632e905-6f51-49a0-9426-13c42c3d0a18
Jenkins, S.R.
f160f172-4162-4e5b-bf70-9048d9e7ec8d
11 January 2007
Martins, G.M.
e58970f9-089c-4881-b8af-deaf2987d042
Hawkins, S.J.
758fe1c1-30cd-4ed1-bb65-2471dc7c11fa
Thompson, R.C.
d632e905-6f51-49a0-9426-13c42c3d0a18
Jenkins, S.R.
f160f172-4162-4e5b-bf70-9048d9e7ec8d
Martins, G.M., Hawkins, S.J., Thompson, R.C. and Jenkins, S.R.
(2007)
Community structure and functioning in intertidal rock pools: effects of pool size and shore height at different successional stages.
Marine Ecology Progress Series, 329, .
(doi:10.3354/meps).
Abstract
Rock pools are dynamic and intermittently isolated habitats in the rocky intertidal. They
can be used as model systems to provide a more general insight into the ecology of patchy habitats,
which are less amenable to experimentation, such as islands and wildlife reserves. In the present
study, a range of pools of differing sizes was selected at 2 vertical levels on the shore to assess the
importance of habitat size and shore height on the structure and functioning of rock pool macroalgal
communities. Half of these pools were denuded of biota by scraping and chiselling, while the other
half were left unmanipulated, to compare the effect of patch size on communities at different
successional stages. Pool depth was shown to be markedly more important than area in determining
community structure of rock pools, although its effect varied with shore height. The diversity,
abundance of some macroalgal morphological groups, and algal gross primary productivity in some
circumstances were correlated with pool size, whereas total algal cover generally was not. There was
evidence that, even within the same morphological group, species responded differently to the
influence of pool size, thus emphasising the importance of species identity when predicting
responses to changes in environmental conditions (e.g. temperature stress). This study revealed the
importance of pool depth over area in dictating macroalgal community structure, but also highlights
the existence of various other effects of rock pool size that were more idiosyncratic.
Text
Martins_etal_2007_MEPS.pdf
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Published date: 11 January 2007
Keywords:
Rock pool, Patch size, Shore height, Abiotic factors, Successional stages, Macroalgae, Gross primary productivity
Organisations:
Ocean and Earth Science
Identifiers
Local EPrints ID: 188127
URI: http://eprints.soton.ac.uk/id/eprint/188127
PURE UUID: ebd36491-359d-4454-bdf0-2ff91749c09b
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Date deposited: 20 May 2011 11:02
Last modified: 14 Mar 2024 03:30
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Contributors
Author:
G.M. Martins
Author:
R.C. Thompson
Author:
S.R. Jenkins
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