Modeling the interannual variability and trends in gross and net primary productivity of tropical forests from 1982 to 1999 |
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| Authors: | Kazuhito Ichii Hirofumi Hashimoto Ramakrishna Nemani Michael White |
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| Institution: | aSan Jose State University, San Jose, CA, USA;bGraduate School of Agricultural and Life Sciences, The University of Tokyo, Tokyo, Japan;cNASA Ames Research Center, Moffet Field, CA, USA;dUtah State University, Logan, UT, USA |
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| Abstract: | The role of tropical ecosystems in global carbon cycling is uncertain, at least partially due to an incomplete understanding of climatic forcings of carbon fluxes. To reduce this uncertainty, we simulated and analyzed 1982–1999 Amazonian, African, and Asian carbon fluxes using the Biome-BGC prognostic carbon cycle model driven by National Centers for Environmental Prediction reanalysis daily climate data. We first characterized the individual contribution of temperature, precipitation, radiation, and vapor pressure deficit to interannual variations in carbon fluxes and then calculated trends in gross primary productivity (GPP) and net primary productivity (NPP). In tropical ecosystems, variations in solar radiation and, to a lesser extent, temperature and precipitation, explained most interannual variation in GPP. On the other hand, temperature followed by solar radiation primarily determined variation in NPP. Tropical GPP gradually increased in response to increasing atmospheric CO2. Confirming earlier studies, changes in solar radiation played a dominant role in CO2 uptake over the Amazon relative to other tropical regions. Model results showed negligible impacts from variations and trends in precipitation or vapor pressure deficits on CO2 uptake. |
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| Keywords: | carbon cycle tropical forest terrestrial ecosystem net primary productivity gross primary productivity climate change |
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