Stand age and species richness dampen interannual variation of ecosystem-level photosynthetic capacity

The total uptake of carbon dioxide by ecosystems via photosynthesis (gross primary productivity, GPP) is the largest flux in the global carbon cycle. A key ecosystem functional property determining GPP is the photosynthetic capacity at light saturation (GPP sat ), and its interannual variability (IA...

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Published inNature ecology & evolution Vol. 1; no. 2; p. 48
Main Authors Musavi, Talie, Migliavacca, Mirco, Reichstein, Markus, Kattge, Jens, Wirth, Christian, Black, T. Andrew, Janssens, Ivan, Knohl, Alexander, Loustau, Denis, Roupsard, Olivier, Varlagin, Andrej, Rambal, Serge, Cescatti, Alessandro, Gianelle, Damiano, Kondo, Hiroaki, Tamrakar, Rijan, Mahecha, Miguel D.
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 23.01.2017
Nature Publishing Group
Nature
Subjects
704/158/2454
704/158/47/4113
Air temperature
Annual variations
Biodiversity
Biological and Physical Anthropology
Carbon cycle
Carbon dioxide
Climate effects
Climate variability
Continental interfaces, environment
Dominant species
Ecology
Ecology, environment
Ecosystems
Evolutionary Biology
Fluxes
Forests
Life Sciences
Paleontology
Photosynthesis
Sciences of the Universe
Soil temperature
Soil water
Species richness
Terrestrial ecosystems
Water availability
Zoology
forest ecology
carbon cycle
Online AccessGet full text

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Abstract The total uptake of carbon dioxide by ecosystems via photosynthesis (gross primary productivity, GPP) is the largest flux in the global carbon cycle. A key ecosystem functional property determining GPP is the photosynthetic capacity at light saturation (GPP sat ), and its interannual variability (IAV) is propagated to the net land–atmosphere exchange of CO 2 . Given the importance of understanding the IAV in CO 2 fluxes for improving the predictability of the global carbon cycle, we have tested a range of alternative hypotheses to identify potential drivers of the magnitude of IAV in GPP sat in forest ecosystems. Our results show that while the IAV in GPP sat within sites is closely related to air temperature and soil water availability fluctuations, the magnitude of IAV in GPP sat is related to stand age and biodiversity ( R 2 = 0.55, P < 0.0001). We find that the IAV of GPP sat is greatly reduced in older and more diverse forests, and is higher in younger forests with few dominant species. Older and more diverse forests seem to dampen the effect of climate variability on the carbon cycle irrespective of forest type. Preserving old forests and their diversity would therefore be beneficial in reducing the effect of climate variability on Earth's forest ecosystems. The photosynthetic capacity of forest ecosystems is an important variable in the global carbon cycle. Here, it is shown that older, more diverse forests have less fluctuation between years in photosynthetic capacity.
AbstractList The total uptake of carbon dioxide by ecosystems via photosynthesis (gross primary productivity, GPP) is the largest flux in the global carbon cycle. A key ecosystem functional property determining GPP is the photosynthetic capacity at light saturation (GPP sat ), and its interannual variability (IAV) is propagated to the net land–atmosphere exchange of CO 2 . Given the importance of understanding the IAV in CO 2 fluxes for improving the predictability of the global carbon cycle, we have tested a range of alternative hypotheses to identify potential drivers of the magnitude of IAV in GPP sat in forest ecosystems. Our results show that while the IAV in GPP sat within sites is closely related to air temperature and soil water availability fluctuations, the magnitude of IAV in GPP sat is related to stand age and biodiversity ( R 2 = 0.55, P < 0.0001). We find that the IAV of GPP sat is greatly reduced in older and more diverse forests, and is higher in younger forests with few dominant species. Older and more diverse forests seem to dampen the effect of climate variability on the carbon cycle irrespective of forest type. Preserving old forests and their diversity would therefore be beneficial in reducing the effect of climate variability on Earth's forest ecosystems. The photosynthetic capacity of forest ecosystems is an important variable in the global carbon cycle. Here, it is shown that older, more diverse forests have less fluctuation between years in photosynthetic capacity.
The total uptake of carbon dioxide by ecosystems via photosynthesis (gross primary productivity, GPP) is the largest flux in the global carbon cycle. A key ecosystem functional property determining GPP is the photosynthetic capacity at light saturation (GPPsat), and its interannual variability (IAV) is propagated to the net land–atmosphere exchange of CO$_2$. Given the importance of understanding the IAV in CO$_2$ fluxes for improving the predictability of the global carbon cycle, we have tested a range of alternative hypotheses to identify potential drivers of the magnitude of IAV in GPPsat in forest ecosystems. Our results show that while the IAV in GPPsat within sites is closely related to air temperature and soil water availability fluctuations, the magnitude of IAV in GPPsat is related to stand age and biodiversity (R2 = 0.55, P < 0.0001). We find that the IAV of GPPsat is greatly reduced in older and more diverse forests, and is higher in younger forests with few dominant species. Older and more diverse forests seem to dampen the effect of climate variability on the carbon cycle irrespective of forest type. Preserving old forests and their diversity would therefore be beneficial in reducing the effect of climate variability on Earth's forest ecosystems
The total uptake of carbon dioxide by ecosystems via photosynthesis (gross primary productivity, GPP) is the largest flux in the global carbon cycle. A key ecosystem functional property determining GPP is the photosynthetic capacity at light saturation (GPPsat), and its interannual variability (IAV) is propagated to the net land–atmosphere exchange of CO2. Given the importance of understanding the IAV in CO2 fluxes for improving the predictability of the global carbon cycle, we have tested a range of alternative hypotheses to identify potential drivers of the magnitude of IAV in GPPsat in forest ecosystems. Our results show that while the IAV in GPPsat within sites is closely related to air temperature and soil water availability fluctuations, the magnitude of IAV in GPPsat is related to stand age and biodiversity (R2 = 0.55, P < 0.0001). We find that the IAV of GPPsat is greatly reduced in older and more diverse forests, and is higher in younger forests with few dominant species. Older and more diverse forests seem to dampen the effect of climate variability on the carbon cycle irrespective of forest type. Preserving old forests and their diversity would therefore be beneficial in reducing the effect of climate variability on Earth's forest ecosystems.The photosynthetic capacity of forest ecosystems is an important variable in the global carbon cycle. Here, it is shown that older, more diverse forests have less fluctuation between years in photosynthetic capacity.
The total uptake of carbon dioxide by ecosystems via photosynthesis (gross primary productivity, GPP) is the largest flux in the global carbon cycle. A key ecosystem functional property determining GPP is the photosynthetic capacity at light saturation (GPPsat), and its interannual variability (IAV) is propagated to the net land-atmosphere exchange of CO2. Given the importance of understanding the IAV in CO2 fluxes for improving the predictability of the global carbon cycle, we have tested a range of alternative hypotheses to identify potential drivers of the magnitude of IAV in GPPsat in forest ecosystems. Our results show that while the IAV in GPPsat within sites is closely related to air temperature and soil water availability fluctuations, the magnitude of IAV in GPPsat is related to stand age and biodiversity (R2 = 0.55, P &lt; 0.0001). We find that the IAV of GPPsat is greatly reduced in older and more diverse forests, and is higher in younger forests with few dominant species. Older and more diverse forests seem to dampen the effect of climate variability on the carbon cycle irrespective of forest type. Preserving old forests and their diversity would therefore be beneficial in reducing the effect of climate variability on Earth's forest ecosystems.
The total uptake of carbon dioxide by ecosystems via photosynthesis (gross primary productivity, GPP) is the largest flux in the global carbon cycle. A key ecosystem functional property determining GPP is the photosynthetic capacity at light saturation (GPP ), and its interannual variability (IAV) is propagated to the net land-atmosphere exchange of CO . Given the importance of understanding the IAV in CO fluxes for improving the predictability of the global carbon cycle, we have tested a range of alternative hypotheses to identify potential drivers of the magnitude of IAV in GPP in forest ecosystems. Our results show that while the IAV in GPP within sites is closely related to air temperature and soil water availability fluctuations, the magnitude of IAV in GPP is related to stand age and biodiversity (R = 0.55, P < 0.0001). We find that the IAV of GPP is greatly reduced in older and more diverse forests, and is higher in younger forests with few dominant species. Older and more diverse forests seem to dampen the effect of climate variability on the carbon cycle irrespective of forest type. Preserving old forests and their diversity would therefore be beneficial in reducing the effect of climate variability on Earth's forest ecosystems.
ArticleNumber 0048
Author Cescatti, Alessandro
Tamrakar, Rijan
Kondo, Hiroaki
Gianelle, Damiano
Varlagin, Andrej
Roupsard, Olivier
Wirth, Christian
Mahecha, Miguel D.
Kattge, Jens
Migliavacca, Mirco
Loustau, Denis
Musavi, Talie
Black, T. Andrew
Janssens, Ivan
Knohl, Alexander
Rambal, Serge
Reichstein, Markus
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  organization: Department of Biology, University of Antwerpen
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  organization: Bioclimatology, Georg-August University of Göttingen
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  organization: European Commission, Joint Research Centre, Directorate for Sustainable Resources
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  givenname: Damiano
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  surname: Kondo
  fullname: Kondo, Hiroaki
  organization: National Institute of Advanced Industrial Science and Technology (AIST)
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  organization: Max Planck Institute for Biogeochemistry, German Centre for Integrative Biodiversity Research (iDiv) Halle-Jena-Leipzig
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ContentType Journal Article
Copyright Macmillan Publishers Limited, part of Springer Nature. 2017
Macmillan Publishers Limited, part of Springer Nature. 2017.
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Snippet The total uptake of carbon dioxide by ecosystems via photosynthesis (gross primary productivity, GPP) is the largest flux in the global carbon cycle. A key...
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SubjectTerms 704/158/2454
704/158/47/4113
Air temperature
Annual variations
Biodiversity
Biological and Physical Anthropology
Carbon cycle
Carbon dioxide
Climate effects
Climate variability
Continental interfaces, environment
Dominant species
Ecology
Ecology, environment
Ecosystems
Evolutionary Biology
Fluxes
Forests
Life Sciences
Paleontology
Photosynthesis
Sciences of the Universe
Soil temperature
Soil water
Species richness
Terrestrial ecosystems
Water availability
Zoology
Title Stand age and species richness dampen interannual variation of ecosystem-level photosynthetic capacity
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