Temperature effects on fish production across a natural thermal gradient

Global warming is widely predicted to reduce the biomass production of top predators, or even result in species loss. Several exceptions to this expectation have been identified, however, and it is vital that we understand the underlying mechanisms if we are to improve our ability to predict future...

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Published in:Global Change Biology
Main Authors: O'Gorman, EJ, Ólafsson, Ó, Demars, BOL, Friberg, N, Guðbergsson, G, Hannesdóttir, ER, Jackson, MC, Johansson, LS, McLaughlin, Ó, Ólafsson, JS, Woodward, G, Gíslason, GM
Other Authors: Natural Environment Research Council (NERC), The Royal Society
Format: Article in Journal/Newspaper
Language:unknown
Published: Wiley 2016
Subjects:
Salmo trutta fario
Arctic
Hengill
PIT tag
ecosystem services
freshwater
mark-recapture
natural experiment
Ecology
06 Biological Sciences
05 Environmental Sciences
Global warming
Iceland
Online Access:http://hdl.handle.net/10044/1/28944
https://doi.org/10.1111/gcb.13233
id ftimperialcol:oai:spiral.imperial.ac.uk:10044/1/28944
record_format openpolar
spelling ftimperialcol:oai:spiral.imperial.ac.uk:10044/1/28944 2023-05-15T15:13:13+02:00 Temperature effects on fish production across a natural thermal gradient O'Gorman, EJ Ólafsson, Ó Demars, BOL Friberg, N Guðbergsson, G Hannesdóttir, ER Jackson, MC Johansson, LS McLaughlin, Ó Ólafsson, JS Woodward, G Gíslason, GM Natural Environment Research Council (NERC) Natural Environment Research Council (NERC) The Royal Society Natural Environment Research Council (NERC) 2016-01-10 http://hdl.handle.net/10044/1/28944 https://doi.org/10.1111/gcb.13233 unknown Wiley Global Change Biology © 2016 The Authors. Global Change Biology Published by John Wiley & Sons Ltd. 1 This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited. CC-BY 3220 3206 Salmo trutta fario Arctic Hengill PIT tag ecosystem services freshwater mark-recapture natural experiment Ecology 06 Biological Sciences 05 Environmental Sciences Journal Article 2016 ftimperialcol https://doi.org/10.1111/gcb.13233 2018-09-16T05:53:50Z Global warming is widely predicted to reduce the biomass production of top predators, or even result in species loss. Several exceptions to this expectation have been identified, however, and it is vital that we understand the underlying mechanisms if we are to improve our ability to predict future trends. Here, we used a natural warming experiment in Iceland and quantitative theoretical predictions to investigate the success of brown trout as top predators across a stream temperature gradient (4-25 °C). Brown trout are at the northern limit of their geographic distribution in this system, with ambient stream temperatures below their optimum for maximal growth, and above it in the warmest streams. A five-month mark-recapture study revealed that population abundance, biomass, growth rate, and production of trout all increased with stream temperature. We identified two mechanisms that contributed to these responses: (1) trout became more selective in their diet as stream temperature increased, feeding higher in the food web and increasing in trophic position; and (2) trophic transfer through the food web was more efficient in the warmer streams. We found little evidence to support a third potential mechanism: that external subsidies would play a more important role in the diet of trout with increasing stream temperature. Resource availability was also amplified through the trophic levels with warming, as predicted by metabolic theory in nutrient-replete systems. These results highlight circumstances in which top predators can thrive in warmer environments and contribute to our knowledge of warming impacts on natural communities and ecosystem functioning. Article in Journal/Newspaper Arctic Global warming Iceland Imperial College London: Spiral Arctic Hengill ENVELOPE(-21.306,-21.306,64.078,64.078) Global Change Biology 22 9 3206 3220
institution Open Polar
collection Imperial College London: Spiral
op_collection_id ftimperialcol
language unknown
topic Salmo trutta fario
Arctic
Hengill
PIT tag
ecosystem services
freshwater
mark-recapture
natural experiment
Ecology
06 Biological Sciences
05 Environmental Sciences
spellingShingle Salmo trutta fario
Arctic
Hengill
PIT tag
ecosystem services
freshwater
mark-recapture
natural experiment
Ecology
06 Biological Sciences
05 Environmental Sciences
O'Gorman, EJ
Ólafsson, Ó
Demars, BOL
Friberg, N
Guðbergsson, G
Hannesdóttir, ER
Jackson, MC
Johansson, LS
McLaughlin, Ó
Ólafsson, JS
Woodward, G
Gíslason, GM
Temperature effects on fish production across a natural thermal gradient
topic_facet Salmo trutta fario
Arctic
Hengill
PIT tag
ecosystem services
freshwater
mark-recapture
natural experiment
Ecology
06 Biological Sciences
05 Environmental Sciences
description Global warming is widely predicted to reduce the biomass production of top predators, or even result in species loss. Several exceptions to this expectation have been identified, however, and it is vital that we understand the underlying mechanisms if we are to improve our ability to predict future trends. Here, we used a natural warming experiment in Iceland and quantitative theoretical predictions to investigate the success of brown trout as top predators across a stream temperature gradient (4-25 °C). Brown trout are at the northern limit of their geographic distribution in this system, with ambient stream temperatures below their optimum for maximal growth, and above it in the warmest streams. A five-month mark-recapture study revealed that population abundance, biomass, growth rate, and production of trout all increased with stream temperature. We identified two mechanisms that contributed to these responses: (1) trout became more selective in their diet as stream temperature increased, feeding higher in the food web and increasing in trophic position; and (2) trophic transfer through the food web was more efficient in the warmer streams. We found little evidence to support a third potential mechanism: that external subsidies would play a more important role in the diet of trout with increasing stream temperature. Resource availability was also amplified through the trophic levels with warming, as predicted by metabolic theory in nutrient-replete systems. These results highlight circumstances in which top predators can thrive in warmer environments and contribute to our knowledge of warming impacts on natural communities and ecosystem functioning.
author2 Natural Environment Research Council (NERC)
Natural Environment Research Council (NERC)
The Royal Society
Natural Environment Research Council (NERC)
format Article in Journal/Newspaper
author O'Gorman, EJ
Ólafsson, Ó
Demars, BOL
Friberg, N
Guðbergsson, G
Hannesdóttir, ER
Jackson, MC
Johansson, LS
McLaughlin, Ó
Ólafsson, JS
Woodward, G
Gíslason, GM
author_facet O'Gorman, EJ
Ólafsson, Ó
Demars, BOL
Friberg, N
Guðbergsson, G
Hannesdóttir, ER
Jackson, MC
Johansson, LS
McLaughlin, Ó
Ólafsson, JS
Woodward, G
Gíslason, GM
author_sort O'Gorman, EJ
title Temperature effects on fish production across a natural thermal gradient
title_short Temperature effects on fish production across a natural thermal gradient
title_full Temperature effects on fish production across a natural thermal gradient
title_fullStr Temperature effects on fish production across a natural thermal gradient
title_full_unstemmed Temperature effects on fish production across a natural thermal gradient
title_sort temperature effects on fish production across a natural thermal gradient
publisher Wiley
publishDate 2016
url http://hdl.handle.net/10044/1/28944
https://doi.org/10.1111/gcb.13233
long_lat ENVELOPE(-21.306,-21.306,64.078,64.078)
geographic Arctic
Hengill
geographic_facet Arctic
Hengill
genre Arctic
Global warming
Iceland
genre_facet Arctic
Global warming
Iceland
op_source 3220
3206
op_relation Global Change Biology
op_rights © 2016 The Authors. Global Change Biology Published by John Wiley & Sons Ltd. 1 This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
op_rightsnorm CC-BY
op_doi https://doi.org/10.1111/gcb.13233
container_title Global Change Biology
container_volume 22
container_issue 9
container_start_page 3206
op_container_end_page 3220
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