Journal article
Increasing Mississippi river discharge throughout the 21st century influenced by changes in climate, land use, and atmospheric CO2
B Tao, H Tian, W Ren, J Yang, Q Yang, R He, W Cai, S Lohrenz
Geophysical Research Letters | AMER GEOPHYSICAL UNION | Published : 2014
DOI: 10.1002/2014GL060361
Abstract
Previous studies have demonstrated that changes in temperature and precipitation (hereafter climate change) would influence river discharge, but the relative importance of climate change, land use, and elevated atmospheric CO2 have not yet been fully investigated. A process-based projection for the Mississippi River basin suggests that river discharge would be substantially enhanced (10.7-59.8%) by the 2090s compared to the recent decade (2000s), although large discrepancies exist among different climate, atmospheric CO2, and land use change scenarios. Our factorial analyses further indicate that the combined effects of land use change and human-induced atmospheric CO2 elevation on river dis..
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Awarded by NASA Interdisciplinary Program
Awarded by Carbon System Monitoring Program
Awarded by NASA
Funding Acknowledgements
This study has been supported by NASA Interdisciplinary Program (NNX10AU06G) and Carbon System Monitoring Program (NNX12AP84G). The future climate data sets for this paper are available at NOAA's Climate Data Center. Data set name: Daily Statistically Downscaled WCRP CMIP3 Climate Simulations. We thank Kenneth Kunkel and Laura Stevens for helping solve the problems in using these data. We also thank Terry Sohl for providing the future land use scenarios, which are available on http://landcover-modeling.cr.usgs.gov/.