Phytoplankton cell size reduction in response to warming mediated by nutrient limitation

Shrinking of body size has been proposed as one of the universal responses of organisms to global climate warming. Using phytoplankton as an experimental model system has supported the negative effect of warming on body-size, but it remains controversial whether the size reduction under increasing t...

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Veröffentlicht in:	PloS one 2013-09, Vol.8 (9), p.e71528
Hauptverfasser:	Peter, Kalista Higini, Sommer, Ulrich
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Sprache:	eng
Schlagworte:	Biogeography Body size Cell Size Climate change Communities Experiments Global climate Global Warming High temperature Metabolism Nitrogen Oxides - metabolism Nutrient transport Nutrients Nutritional Physiological Phenomena Phosphates - metabolism Phytoplankton Phytoplankton - cytology Phytoplankton - physiology Plankton Ratios Shrinkage Silicon - metabolism Size reduction Stress Stress, Physiological Stresses Surface water Temperature Temperature effects
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description	Shrinking of body size has been proposed as one of the universal responses of organisms to global climate warming. Using phytoplankton as an experimental model system has supported the negative effect of warming on body-size, but it remains controversial whether the size reduction under increasing temperatures is a direct temperature effect or an indirect effect mediated over changes in size selective grazing or enhanced nutrient limitation which should favor smaller cell-sizes. Here we present an experiment with a factorial combination of temperature and nutrient stress which shows that most of the temperature effects on phytoplankton cell size are mediated via nutrient stress. This was found both for community mean cell size and for the cell sizes of most species analyzed. At the highest level of nutrient stress, community mean cell size decreased by 46% per °C, while it decreased only by 4.7% at the lowest level of nutrient stress. Individual species showed qualitatively the same trend, but shrinkage per °C was smaller. Overall, our results support the hypothesis that temperature effects on cell size are to a great extent mediated by nutrient limitation. This effect is expected to be exacerbated under field conditions, where higher temperatures of the surface waters reduce the vertical nutrient transport.
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This effect is expected to be exacerbated under field conditions, where higher temperatures of the surface waters reduce the vertical nutrient transport.</description><identifier>ISSN: 1932-6203</identifier><identifier>EISSN: 1932-6203</identifier><identifier>DOI: 10.1371/journal.pone.0071528</identifier><identifier>PMID: 24039717</identifier><language>eng</language><publisher>United States: Public Library of Science</publisher><subject>Biogeography ; Body size ; Cell Size ; Climate change ; Communities ; Experiments ; Global climate ; Global Warming ; High temperature ; Metabolism ; Nitrogen Oxides - metabolism ; Nutrient transport ; Nutrients ; Nutritional Physiological Phenomena ; Phosphates - metabolism ; Phytoplankton ; Phytoplankton - cytology ; Phytoplankton - physiology ; Plankton ; Ratios ; Shrinkage ; Silicon - metabolism ; Size reduction ; Stress ; Stress, Physiological ; Stresses ; Surface water ; Temperature ; Temperature effects</subject><ispartof>PloS one, 2013-09, Vol.8 (9), p.e71528</ispartof><rights>COPYRIGHT 2013 Public Library of Science</rights><rights>2013 Peter, Sommer. 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Using phytoplankton as an experimental model system has supported the negative effect of warming on body-size, but it remains controversial whether the size reduction under increasing temperatures is a direct temperature effect or an indirect effect mediated over changes in size selective grazing or enhanced nutrient limitation which should favor smaller cell-sizes. Here we present an experiment with a factorial combination of temperature and nutrient stress which shows that most of the temperature effects on phytoplankton cell size are mediated via nutrient stress. This was found both for community mean cell size and for the cell sizes of most species analyzed. At the highest level of nutrient stress, community mean cell size decreased by 46% per °C, while it decreased only by 4.7% at the lowest level of nutrient stress. Individual species showed qualitatively the same trend, but shrinkage per °C was smaller. 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subjects	Biogeography Body size Cell Size Climate change Communities Experiments Global climate Global Warming High temperature Metabolism Nitrogen Oxides - metabolism Nutrient transport Nutrients Nutritional Physiological Phenomena Phosphates - metabolism Phytoplankton Phytoplankton - cytology Phytoplankton - physiology Plankton Ratios Shrinkage Silicon - metabolism Size reduction Stress Stress, Physiological Stresses Surface water Temperature Temperature effects
title	Phytoplankton cell size reduction in response to warming mediated by nutrient limitation
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