The effects of a thermal discharge on the macroinvertebrate community of a large British river: implications for climate change.
The effects of a thermal discharge on the macroinvertebrate community of a large British river: implications for climate change.
Anthropogenic changes to the temperature regimes of rivers, whether through thermal pollution, removal of shade, or climate change, could affect community stability and cause phenological changes in aquatic species. This study examines the impact of a thermal discharge from a power station on the diversity and composition of the aquatic macroinvertebrate community in the River Severn, UK. Daily temperatures up to 2 km downstream of the thermal discharge averaged 4.5°C above ambient. Abundance and taxon richness metrics were reduced at a site approximately 0.5 km downstream of the power station outfall, but were largely unaffected at a second site about 2 km downstream. The majority of the macroinvertebrate taxa observed were recorded at both control and heated sites, suggesting species were below their thermal tolerance threshold or had developed adaptations to survive increased temperatures. However, indicator species analysis suggests certain taxa were associated with particular sites; abundances of Musculium lacustre, Simulium reptans, and Orthocladiinae were greater at the unheated control site, whereas more pollution-tolerant species such Asellus aquaticus and Erpobdella octoculata were more common in the thermally impacted reaches. Overall, the results provide an indication of potential species and community response to future warming under climate change scenarios.
81-95
Worthington, T.A.
8113f02a-e550-46a9-9c13-cab4044c3bc6
Shaw, P.J.
935dfebf-9fb6-483c-86da-a21dba8c1989
Daffern, J.R.
80eccddf-56d2-4456-b461-dc1f6f5bdb71
Langford, T.E.L.
59da19df-8391-4774-9cb9-7223b22492a6
July 2015
Worthington, T.A.
8113f02a-e550-46a9-9c13-cab4044c3bc6
Shaw, P.J.
935dfebf-9fb6-483c-86da-a21dba8c1989
Daffern, J.R.
80eccddf-56d2-4456-b461-dc1f6f5bdb71
Langford, T.E.L.
59da19df-8391-4774-9cb9-7223b22492a6
Worthington, T.A., Shaw, P.J., Daffern, J.R. and Langford, T.E.L.
(2015)
The effects of a thermal discharge on the macroinvertebrate community of a large British river: implications for climate change.
Hydrobiologia, 753 (1), .
(doi:10.1007/s10750-015-2197-1).
Abstract
Anthropogenic changes to the temperature regimes of rivers, whether through thermal pollution, removal of shade, or climate change, could affect community stability and cause phenological changes in aquatic species. This study examines the impact of a thermal discharge from a power station on the diversity and composition of the aquatic macroinvertebrate community in the River Severn, UK. Daily temperatures up to 2 km downstream of the thermal discharge averaged 4.5°C above ambient. Abundance and taxon richness metrics were reduced at a site approximately 0.5 km downstream of the power station outfall, but were largely unaffected at a second site about 2 km downstream. The majority of the macroinvertebrate taxa observed were recorded at both control and heated sites, suggesting species were below their thermal tolerance threshold or had developed adaptations to survive increased temperatures. However, indicator species analysis suggests certain taxa were associated with particular sites; abundances of Musculium lacustre, Simulium reptans, and Orthocladiinae were greater at the unheated control site, whereas more pollution-tolerant species such Asellus aquaticus and Erpobdella octoculata were more common in the thermally impacted reaches. Overall, the results provide an indication of potential species and community response to future warming under climate change scenarios.
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Accepted/In Press date: 24 January 2015
e-pub ahead of print date: 4 February 2015
Published date: July 2015
Organisations:
Centre for Environmental Science
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Local EPrints ID: 394143
URI: http://eprints.soton.ac.uk/id/eprint/394143
ISSN: 0018-8158
PURE UUID: e4776ff4-914f-420b-a428-c4c58993dbda
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Date deposited: 12 May 2016 09:26
Last modified: 15 Mar 2024 02:47
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Author:
T.A. Worthington
Author:
J.R. Daffern
Author:
T.E.L. Langford
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