294 Publications (Page 6 of 12)
2015
Large increase in dissolved inorganic carbon flux from the Mississippi River to Gulf of Mexico due to climatic and anthropogenic changes over the 21st century.Ren, Wei⋅Ren, Wei⋅Tian, Hanqin⋅Tian, Hanqin⋅Tao, Bo⋅Tao, Bo⋅Yang, Jia⋅Yang, Jia⋅Pan, Shufen⋅Pan, Shufen⋅Cai, Wei-Jun⋅Cai, Wei‐Jun⋅Lohrenz, Steven E⋅Lohrenz, Steven E⋅He, Ruoying⋅He, Ruoying⋅Hopkinson, Charles S and Hopkinson, Charles SJournal of geophysical research. Biogeosciences, vol. 120, (no. 4), pp. 724-736, April 2015.
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Magnitude, Spatiotemporal Patterns, and Controls for Soil Organic Carbon Stocks in India during 1901–2010Banger, Kamaljit⋅Banger, Kamaljit⋅Tian, Hanqin⋅Tian, Hanqin⋅Tao, Bo⋅Tao, Bo⋅Lu, Chaoqun⋅Lu, Chaoqun⋅Ren, Wei⋅Ren, Wei⋅Yang, Jia and Yang, JiaSoil Science Society of America Journal, vol. 79, (no. 3), pp. 864, 2015-00-00.
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Net primary production of major plant functional types in China: Vegetation classification and ecosystem simulationPan, Shufen⋅Tian, Hanqin⋅Lu, Chaoqun⋅Dangal, Shree R.S and Liu, MingliangActa Ecologica Sinica, vol. 35, (no. 2), pp. 36, April 2015.
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North American terrestrial CO 2 uptake largely offset by CH 4 and N 2 O emissions: toward a full accounting of the greenhouse gas budgetTian, Hanqin⋅Chen, Guangsheng⋅Lu, Chaoqun⋅Xu, Xiaofeng⋅Hayes, Daniel J⋅Ren, Wei⋅Pan, Shufen⋅Huntzinger, Deborah N and Wofsy, Steven CClimatic change, vol. 129, (no. 3-4), pp. 413, 2015.
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North American terrestrial CO2 uptake largely offset by CH4 and N2O emissions: toward a full accounting of the greenhouse gas budgetTian, Hanqin⋅Tian, H.⋅Tian, Hanqin⋅Chen, G.⋅Chen, Guangsheng⋅Chen, Guangsheng⋅Lu, Chaoqun⋅Lu, C.⋅Lu, Chaoqun⋅Xu, Xiaofeng⋅Xu, X.⋅Xu, Xiaofeng⋅Hayes, D.J.⋅Hayes, Daniel J⋅Hayes, Daniel⋅Ren, W.⋅Ren, Wei⋅Ren, Wei⋅Pan, Shufen⋅Pan, S.⋅Pan, Shufen⋅Huntzinger, Deborah⋅Huntzinger, D.N.⋅Huntzinger, Deborah N⋅Wofsy, S.C.⋅Wofsy, Steven and Wofsy, Steven CClimatic Change, vol. 129, (no. 3-4), pp. 413-426, Apr 2015.
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North American terrestrial CO2 uptake largely offset by CH4 and N2O emissions: toward a full accounting of the greenhouse gas budgetTian, Hanqin⋅Tian, H.⋅Tian, Hanqin⋅Chen, G.⋅Chen, Guangsheng⋅Chen, Guangsheng⋅Lu, Chaoqun⋅Lu, C.⋅Lu, Chaoqun⋅Xu, Xiaofeng⋅Xu, X.⋅Xu, Xiaofeng⋅Hayes, D.J.⋅Hayes, Daniel J⋅Hayes, Daniel⋅Ren, W.⋅Ren, Wei⋅Ren, Wei⋅Pan, Shufen⋅Pan, S.⋅Pan, Shufen⋅Huntzinger, Deborah⋅Huntzinger, D.N.⋅Huntzinger, Deborah N⋅Wofsy, S.C.⋅Wofsy, Steven and Wofsy, Steven CClimatic Change, vol. 129, (no. 3-4), pp. 426, 2015-04-00.
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Recent patterns of terrestrial net primary production in Africa influenced by multiple environmental changesPan, Shufen⋅Dangal, Shree R. S⋅Tao, Bo⋅Yang, Jia and Tian, HanqinEcosystem Health and Sustainability, vol. 1, (no. 5), pp. 15, 2015-July.
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Reply to “Comments on ‘Half-century nitrogen deposition increase across China: A gridded time-series dataset for regional environmental assessments’”Lu, Chaoqun and Tian, HanqinAtmospheric Environment, vol. 101, pp. 353, January 2015.
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Responses of Crop Water Use Efficiency to Climate Change and Agronomic Measures in the Semiarid Area of Northern ChinaZhang, Jingting⋅Zhang, Jingting⋅Ren, Wei⋅Ren, Wei⋅An, Pingli⋅An, Pingli⋅Pan, Zhihua⋅Pan, Zhihua⋅Wang, Liwei⋅Wang, Liwei⋅Dong, Zhiqiang⋅Dong, Zhiqiang⋅He, Di⋅He, Di⋅Yang, Jia⋅Yang, Jia⋅Pan, Shufen⋅Pan, Shufen⋅Tian, Hanqin and Tian, HanqinPloS one, vol. 10, (no. 9), pp. e0137409, 2015-00-00.
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Responses of Crop Water Use Efficiency to Climate Change and Agronomic Measures in the Semiarid Area of Northern China.Zhang, Jingting⋅Zhang, Jingting⋅Ren, Wei⋅Ren, Wei⋅An, Pingli⋅An, Pingli⋅Pan, Zhihua⋅Pan, Zhihua⋅Wang, Liwei⋅Wang, Liwei⋅Dong, Zhiqiang⋅Dong, Zhiqiang⋅He, Di⋅He, Di⋅Yang, Jia⋅Yang, Jia⋅Pan, Shufen⋅Pan, Shufen⋅Tian, Hanqin and Tian, HanqinPloS one, vol. 10, (no. 9), pp. e0137409, 2015.
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Responses of global terrestrial evapotranspiration to climate change and increasing atmospheric CO2 in the 21st centuryPan, Shufen⋅Tian, Hanqin⋅Dangal, Shree R.S⋅Yang, Qichun⋅Yang, Jia⋅Lu, Chaoqun⋅Tao, Bo⋅Ren, Wei and Ouyang, ZhiyunEarth's Future, vol. 3, (no. 1), pp. 35, January 2015.
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Spatiotemporal patterns of evapotranspiration along the North American east coast as influenced by multiple environmental changesYang, Qichun⋅Tian, Hanqin⋅Li, Xia⋅Tao, Bo⋅Ren, Wei⋅Chen, Guangsheng⋅Lu, Chaoqun⋅Yang, Jia⋅Pan, Shufen⋅Banger, Kamaljit and Zhang, BowenEcohydrology, vol. 8, (no. 4), pp. 725, June 2015.
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Terrestrial net primary productivity in India during 1901-2010: contributions from multiple environmental changesBanger, Kamaljit⋅Banger, Kamaljit⋅Tian, Hanqin⋅Tian, Hanqin⋅Tao, Bo⋅Tao, Bo⋅Ren, Wei⋅Ren, Wei⋅Pan, Shufen⋅Pan, Shufen⋅Dangal, Shree⋅Dangal, Shree⋅Yang, Jia and Yang, JiaClimatic Change, vol. 132, (no. 4), pp. 575-588, Oct 2015.
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Terrestrial net primary productivity in India during 1901–2010: contributions from multiple environmental changesBanger, Kamaljit⋅Banger, Kamaljit⋅Tian, Hanqin⋅Tian, Hanqin⋅Tao, Bo⋅Tao, Bo⋅Ren, Wei⋅Ren, Wei⋅Pan, Shufen⋅Pan, Shufen⋅Dangal, Shree⋅Dangal, Shree⋅Yang, Jia and Yang, JiaClimatic Change, vol. 132, (no. 4), pp. 588, 20151000.
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Toward “optimal” integration of terrestrial biosphere modelsSchwalm, Christopher⋅Schwalm, C.R.⋅Huntzinger, D.N.⋅Huntzinger, Deborah⋅Fisher, J.B.⋅Fisher, Joshua⋅Michalak, Anna⋅Michalak, A.M.⋅Bowman, K.⋅Bowman, Bo⋅Ciais, P.⋅Ciais, Philippe⋅Cook, R.⋅Cook, Robert⋅El-Masri, B.⋅El-Masri, Bassil⋅Hayes, Daniel⋅Hayes, D.⋅Mao, Maoyi⋅Huang, M.⋅Ito, Akihiko⋅Ito, A.⋅Jain, Atul⋅Jain, A.⋅King, A.W.⋅King, Anthony⋅Lei, H.⋅Lei, Huimin⋅Liu, Junjie⋅Liu, J.⋅Lu, Chaoqun⋅Lu, C.⋅Mao, J.⋅Mao, Jia⋅Peng, Shushi⋅Peng, S.⋅Poulter, B.⋅Poulter, Bo⋅Ricciuto, Daniel⋅Ricciuto, D.⋅Schaefer, Bo⋅Schaefer, K.⋅Shi, Xiaoying⋅Shi, X.⋅Tao, Bo⋅Tao, B.⋅Tian, H.⋅Tian, Hanqin⋅Wei, Weile⋅Wang, W.⋅Wei, Yaxing⋅Wei, Y.⋅Yang, J.⋅Yang, Jia⋅Zeng, N. and Zeng, NingGeophysical Research Letters, vol. 42, (no. 11), 2015-06-16.
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2014
Carbon cycle uncertainty in the Alaskan ArcticFisher, J. B.⋅Fisher, J.⋅Fisher, J.B.⋅Fisher, JB⋅Sikka, M.⋅Sikka, M.⋅Sikka, M.⋅Sikka, M.⋅Sikka, M⋅Oechel, W. C.⋅Oechel, WC⋅Oechel, W.C.⋅Huntzinger, DN⋅Huntzinger, D. N.⋅Huntzinger, D.N.⋅Huntzinger, D.⋅Melton, J.⋅Melton, J. R.⋅Melton, Jr⋅Melton, J.R.⋅Koven, C.⋅Koven, C. D.⋅Koven, C.D.⋅Koven, CD⋅Ahlstrom, A.⋅Ahlström, Anders⋅Ahlström, A.⋅Ahlström, A.⋅Ahlström, A.⋅Arain, M. A.⋅Arain, AM⋅Arain, M.⋅Arain, M.A.⋅Baker, I⋅Baker, I.⋅Baker, I.⋅Baker, I.⋅Baker, I.⋅Chen, J. M.⋅Chen, J.M.⋅Chen, JM⋅Chen, J.⋅Ciais, P.⋅Ciais, P.⋅others⋅Ciais, P.⋅Ciais, P.⋅Davidson, C.⋅Davidson, C.⋅Davidson, C.⋅Davidson, C.⋅Dietze, M.⋅Dietze, M.⋅Dietze, M.⋅Dietze, M.⋅El-Masri, B.⋅El-Masri, B.⋅El-Masri, B.⋅El-Masri, B.⋅Hayes, D.⋅Hayes, D.⋅Hayes, D.⋅Hayes, D.⋅Huntingford, C.⋅Huntingford, C.⋅Huntingford, C.⋅Huntingford, C.⋅Jain, A. K.⋅Jain, A.⋅Jain, A.K.⋅Levy, P.⋅Levy, P. E.⋅Levy, P.E.⋅Lomas, M.⋅Lomas, M.R.⋅Lomas, M. R.⋅Poulter, B.⋅Poulter, B.⋅Poulter, B.⋅Poulter, B.⋅Price, D.⋅Price, D.⋅Price, D.⋅Price, D.⋅Sahoo, A.K.⋅Sahoo, A.⋅Sahoo, A. K.⋅Schaefer, K.⋅Schaefer, K.⋅Schaefer, K.⋅Schaefer, K.⋅Tian, H.⋅Tian, H.⋅Tian, H.⋅Tian, H.⋅Tomelleri, E.⋅Tomelleri, E.⋅Tomelleri, E.⋅Tomelleri, E.⋅Verbeeck, H.⋅Verbeeck, H.⋅Verbeeck, H.⋅Verbeeck, H.⋅Viovy, N.⋅Viovy, N.⋅Viovy, N.⋅Viovy, N.⋅Wania, R.⋅Wania, R.⋅Wania, R.⋅Wania, R.⋅Zeng, N.⋅Zeng, N.⋅Zeng, N.⋅Zeng, N.⋅Miller, C.E.⋅Miller, C. and Miller, C. E.Biogeosciences, vol. 11, (no. 15), 2014.
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Climate and land use controls on soil organic carbon in the loess plateau region of China.Dang, Yaai⋅Dang, Yaai⋅Dang, Yaai⋅Ren, Wei⋅Ren, Wei⋅Ren, Wei⋅Tao, Bo⋅Tao, Bo⋅Tao, Bo⋅Chen, Guangsheng⋅Chen, Guangsheng⋅Chen, Guangsheng⋅Lu, Chaoqun⋅Lu, Chaoqun⋅Lu, Chaoqun⋅Yang, Jia⋅Yang, Jia⋅Yang, Jia⋅Pan, Shufen⋅Pan, Shufen⋅Pan, Shufen⋅Wang, Guodong⋅Wang, Guodong⋅Wang, Guodong⋅Li, Shiqing⋅Li, Shiqing⋅Li, Shiqing⋅Tian, Hanqin⋅Tian, Hanqin and Tian, HanqinPloS one, vol. 9, (no. 5), pp. e95548, 2014.
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Climate and Land Use Controls on Soil Organic Carbon in the Loess Plateau Region of ChinaDang, Yaai⋅Dang, Yaai⋅Dang, Yaai⋅Ren, Wei⋅Ren, Wei⋅Ren, Wei⋅Tao, Bo⋅Tao, Bo⋅Tao, Bo⋅Chen, Guangsheng⋅Chen, Guangsheng⋅Chen, Guangsheng⋅Lu, Chaoqun⋅Lu, Chaoqun⋅Lu, Chaoqun⋅Yang, Jia⋅Yang, Jia⋅Yang, Jia⋅Pan, Shufen⋅Pan, Shufen⋅Pan, Shufen⋅Wang, Guodong⋅Wang, Guodong⋅Wang, Guodong⋅Li, Shiqing⋅Li, Shiqing⋅Li, Shiqing⋅Tian, Hanqin⋅Tian, Hanqin and Tian, HanqinPloS one, vol. 9, (no. 5), pp. e95548, 2014-00-00.
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Complex spatiotemporal responses of global terrestrial primary production to climate change and increasing atmospheric CO2 in the 21st century.Pan, Shufen⋅Pan, Shufen⋅Pan, Shufen⋅Tian, Hanqin⋅Tian, Hanqin⋅Tian, Hanqin⋅Dangal, Shree R S⋅Dangal, Shree R S⋅Dangal, Shree R S⋅Zhang, Chi⋅Zhang, Chi⋅Zhang, Chi⋅Yang, Jia⋅Yang, Jia⋅Yang, Jia⋅Tao, Bo⋅Tao, Bo⋅Tao, Bo⋅Ouyang, Zhiyun⋅Ouyang, Zhiyun⋅Ouyang, Zhiyun⋅Wang, Xiaoke⋅Wang, Xiaoke⋅Wang, Xiaoke⋅Lu, Chaoqun⋅Lu, Chaoqun⋅Lu, Chaoqun⋅Ren, Wei⋅Ren, Wei⋅Ren, Wei⋅Banger, Kamaljit⋅Banger, Kamaljit⋅Banger, Kamaljit⋅Yang, Qichun⋅Yang, Qichun⋅Yang, Qichun⋅Zhang, Bowen⋅Zhang, Bowen⋅Zhang, Bowen⋅Li, Xia⋅Li, Xia and Li, XiaPloS one, vol. 9, (no. 11), pp. e112810, 2014.
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Complex Spatiotemporal Responses of Global Terrestrial Primary Production to Climate Change and Increasing Atmospheric CO2 in the 21st CenturyPan, Shufen⋅Pan, Shufen⋅Pan, Shufen⋅Tian, Hanqin⋅Tian, Hanqin⋅Tian, Hanqin⋅Dangal, Shree R S⋅Dangal, Shree R S⋅Dangal, Shree R S⋅Zhang, Chi⋅Zhang, Chi⋅Zhang, Chi⋅Yang, Jia⋅Yang, Jia⋅Yang, Jia⋅Tao, Bo⋅Tao, Bo⋅Tao, Bo⋅Ouyang, Zhiyun⋅Ouyang, Zhiyun⋅Ouyang, Zhiyun⋅Wang, Xiaoke⋅Wang, Xiaoke⋅Wang, Xiaoke⋅Lu, Chaoqun⋅Lu, Chaoqun⋅Lu, Chaoqun⋅Ren, Wei⋅Ren, Wei⋅Ren, Wei⋅Banger, Kamaljit⋅Banger, Kamaljit⋅Banger, Kamaljit⋅Yang, Qichun⋅Yang, Qichun⋅Yang, Qichun⋅Zhang, Bowen⋅Zhang, Bowen⋅Zhang, Bowen⋅Li, Xia⋅Li, Xia and Li, XiaPloS one, vol. 9, (no. 11), pp. e112810, 2014-00-00.
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Half-century nitrogen deposition increase across China: A gridded time-series data set for regional environmental assessmentsLu, Chaoqun and Tian, HanqinAtmospheric Environment, vol. 97, pp. 74, November 2014.
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History of land use in India during 1880–2010: Large-scale land transformations reconstructed from satellite data and historical archivesTian, Hanqin⋅Banger, Kamaljit⋅Bo, Tao and Dadhwal, Vinay KGlobal and Planetary Change, vol. 121, pp. 88, October 2014.
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Impact of large‐scale climate extremes on biospheric carbon fluxes: An intercomparison based on MsTMIP dataZscheischler, Jakob⋅Michalak, Anna M⋅Schwalm, Christopher⋅Mahecha, Miguel D⋅Huntzinger, Deborah N⋅Reichstein, Markus⋅Berthier, Gwenaëlle⋅Ciais, Philippe⋅Cook, Robert B⋅El‐Masri, Bassil⋅Huang, Maoyi⋅Ito, Akihiko⋅Jain, Atul⋅King, Anthony⋅Lei, Huimin⋅Lu, Chaoqun⋅Mao, Jiafu⋅Peng, Shushi⋅Poulter, Benjamin⋅Ricciuto, Daniel⋅Shi, Xiaoying⋅Tao, Bo⋅Tian, Hanqin⋅Viovy, Nicolas⋅Wang, Weile⋅Wei, Yaxing⋅Yang, Jia and Zeng, NingGlobal Biogeochemical Cycles, vol. 28, (no. 6), pp. 600, June 2014.
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Increasing Mississippi river discharge throughout the 21st century influenced by changes in climate, land use, and atmospheric CO2Tao, Bo⋅Tao, Bo⋅Tian, Hanqin⋅Tian, Hanqin⋅Ren, Wei⋅Ren, Wei⋅Yang, Jia⋅Yang, Jia⋅Yang, Qichun⋅Yang, Qichun⋅He, Ruoying⋅He, Ruoying⋅Cai, Weijun⋅Cai, Weijun⋅Lohrenz, Steven and Lohrenz, StevenGeophysical Research Letters, vol. 41, (no. 14), pp. 4986, 2014-07-28.
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Individual and combined effects of land use/cover and climate change on Wolf Bay watershed streamflow in southern AlabamaWang, Ruoyu⋅Wang, Ruoyu⋅Kalin, Latif⋅Kalin, Latif⋅Kuang, Wenhui⋅Kuang, Wenhui⋅Tian, Hanqin and Tian, HanqinHydrological Processes, vol. 28, (no. 22), pp. 5546, 30 October 2014.
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