Regional plankton diversity as a buffer against environmental change in freshwater ecosystems
Many experiments show that species diversity at small, local scales affects ecosystems; however, conservation is concerned with extinctions of species across broad landscapes. The relevance of global or regional diversity to ecosystems therefore remains in question. I asked whether regional biodi...
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ndltd-LACETR-oai-collectionscanada.gc.ca-BVAU.-174112013-06-05T04:18:11ZRegional plankton diversity as a buffer against environmental change in freshwater ecosystemsThompson, Patrick LynMany experiments show that species diversity at small, local scales affects ecosystems; however, conservation is concerned with extinctions of species across broad landscapes. The relevance of global or regional diversity to ecosystems therefore remains in question. I asked whether regional biodiversity in freshwater zooplankton affects the resilience and resistance of local ecosystems to the multiple stressors of warming and salinization. I hypothesised that dispersal of species from the regional community should buffer ecosystems against environmental change by providing species with traits adapted to the novel conditions. I subjected freshwater zooplankton communities in mesocosms that were either connected to or isolated from the larger regional species pool to a factorial manipulation of experimental warming and increased salinity. Dispersal introduced heat-tolerant regional taxa that were able to compensate for reductions in local taxa under warmed conditions. Dispersal also dampened the effects of warming on net primary productivity, suggesting that regional diversity can provide stability against some aspects of climate change. However, other measures of ecosystem performance like decomposition and sedimentation were affected by warming and salinity but not dispersal. The results indicate that regional biodiversity provides important insurance that can stabilize ecosystems in a dynamic environment. However, compensation by the regional biota could not buffer all ecosystem rates against all sources of stress. My results show that the connectivity of habitats to regional biodiversity introduces species with broad ranges of traits that can maintain some local ecosystem function in the face of environmental changes.University of British Columbia2010-01-04T16:11:15Z2010-01-04T16:11:15Z20092010-01-04T16:11:15Z2010-05Electronic Thesis or Dissertationhttp://hdl.handle.net/2429/17411eng |
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language |
English |
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NDLTD |
description |
Many experiments show that species diversity at small, local scales affects ecosystems;
however, conservation is concerned with extinctions of species across broad
landscapes. The relevance of global or regional diversity to ecosystems therefore
remains in question. I asked whether regional biodiversity in freshwater zooplankton
affects the resilience and resistance of local ecosystems to the multiple stressors of
warming and salinization. I hypothesised that dispersal of species from the regional
community should buffer ecosystems against environmental change by providing
species with traits adapted to the novel conditions. I subjected freshwater zooplankton
communities in mesocosms that were either connected to or isolated from the larger
regional species pool to a factorial manipulation of experimental warming and increased
salinity. Dispersal introduced heat-tolerant regional taxa that were able to compensate
for reductions in local taxa under warmed conditions. Dispersal also dampened the
effects of warming on net primary productivity, suggesting that regional diversity can
provide stability against some aspects of climate change. However, other measures of
ecosystem performance like decomposition and sedimentation were affected by
warming and salinity but not dispersal. The results indicate that regional biodiversity
provides important insurance that can stabilize ecosystems in a dynamic environment.
However, compensation by the regional biota could not buffer all ecosystem rates
against all sources of stress. My results show that the connectivity of habitats to
regional biodiversity introduces species with broad ranges of traits that can maintain
some local ecosystem function in the face of environmental changes. |
author |
Thompson, Patrick Lyn |
spellingShingle |
Thompson, Patrick Lyn Regional plankton diversity as a buffer against environmental change in freshwater ecosystems |
author_facet |
Thompson, Patrick Lyn |
author_sort |
Thompson, Patrick Lyn |
title |
Regional plankton diversity as a buffer against environmental change in freshwater ecosystems |
title_short |
Regional plankton diversity as a buffer against environmental change in freshwater ecosystems |
title_full |
Regional plankton diversity as a buffer against environmental change in freshwater ecosystems |
title_fullStr |
Regional plankton diversity as a buffer against environmental change in freshwater ecosystems |
title_full_unstemmed |
Regional plankton diversity as a buffer against environmental change in freshwater ecosystems |
title_sort |
regional plankton diversity as a buffer against environmental change in freshwater ecosystems |
publisher |
University of British Columbia |
publishDate |
2010 |
url |
http://hdl.handle.net/2429/17411 |
work_keys_str_mv |
AT thompsonpatricklyn regionalplanktondiversityasabufferagainstenvironmentalchangeinfreshwaterecosystems |
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1716587217591205888 |