Shifting impacts of climate change : long-term patterns of plant response to elevated CO2, drought, and warming across ecosystems

Field experiments that expose terrestrial ecosystems to climate change factors by manipulations are expensive to maintain, and typically only last a few years. Plant biomass is commonly used to assess responses to climate treatments and to predict climate change impacts. However, response to the tre...

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Hauptverfasser:	Andresen, Louise C, Müller, Christoph, de Dato, Giovanbattista de, Dukes, Jeffrey, Emmett, Bridget, Estiarte, Marc, Jentsch, Anke, Kröel-Dulay, György, Lüscher, Andreas, Niu, Shuli, Peñuelas, Josep, Reich, Peter, Reinsch, Sabine, Ogaya Inurrigarro, Romà, Schmidt, Inger Kappel, Schneider, Manuel K, Sternberg, Marcelo, Tietema, Albert, Zhu, Kai, Bilton, Mark C
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Sprache:	eng
Schlagworte:	Break point analysis ClimMani Drought FACE Log response ratio Long-term field experiments Response curve Warming
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creator	Andresen, Louise C Müller, Christoph de Dato, Giovanbattista de Dukes, Jeffrey Emmett, Bridget Estiarte, Marc Jentsch, Anke Kröel-Dulay, György Lüscher, Andreas Niu, Shuli Peñuelas, Josep Reich, Peter Reinsch, Sabine Ogaya Inurrigarro, Romà Schmidt, Inger Kappel Schneider, Manuel K Sternberg, Marcelo Tietema, Albert Zhu, Kai Bilton, Mark C
description	Field experiments that expose terrestrial ecosystems to climate change factors by manipulations are expensive to maintain, and typically only last a few years. Plant biomass is commonly used to assess responses to climate treatments and to predict climate change impacts. However, response to the treatments might be considerably different between the early years and a decade later. The aim of this data analysis was to develop and apply a method for evaluating changes in plant biomass responses through time, in order to provide a firm basis for discussing how the 'short-term' response might differ from the 'long-term' response. Across 22 sites situated in the northern hemisphere, which covered three continents, and multiple ecosystems (grasslands, shrublands, moorlands, forests, and deserts), we evaluated biomass datasets from long-term experiments with exposure to elevated CO2 (eCO2), warming, or drought. We developed methods for assessing biomass response patterns to the manipulations using polynomial and linear (piecewise) model analysis and linked the responses to site-specific variables such as temperature and rainfall. Polynomial patterns across sites indicated changes in response direction over time under eCO2, warming, and drought. In addition, five distinct pattern types were confirmed within sites: 'no response', 'delayed response', 'directional response', 'dampening response', and 'altered response' patterns. We found that biomass response direction was as likely to change over time as it was to be consistent, and therefore suggest that climate manipulation experiments should be carried out over timescales covering both short- and long-term responses, in order to realistically assess future impacts of climate change.
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Plant biomass is commonly used to assess responses to climate treatments and to predict climate change impacts. However, response to the treatments might be considerably different between the early years and a decade later. The aim of this data analysis was to develop and apply a method for evaluating changes in plant biomass responses through time, in order to provide a firm basis for discussing how the 'short-term' response might differ from the 'long-term' response. Across 22 sites situated in the northern hemisphere, which covered three continents, and multiple ecosystems (grasslands, shrublands, moorlands, forests, and deserts), we evaluated biomass datasets from long-term experiments with exposure to elevated CO2 (eCO2), warming, or drought. We developed methods for assessing biomass response patterns to the manipulations using polynomial and linear (piecewise) model analysis and linked the responses to site-specific variables such as temperature and rainfall. 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Polynomial patterns across sites indicated changes in response direction over time under eCO2, warming, and drought. In addition, five distinct pattern types were confirmed within sites: 'no response', 'delayed response', 'directional response', 'dampening response', and 'altered response' patterns. 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title	Shifting impacts of climate change : long-term patterns of plant response to elevated CO2, drought, and warming across ecosystems
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