JIA-2018-09

2117 WANG Qian-feng et al. Journal of Integrative Agriculture 2018, 17(9): 2107–2117 in the southeastern US. Global Change Biology , 12 , 2115–2135. Sun G, Zuo C, Liu S, Liu M, Mcnulty S G, Vose J M. 2010. Watershed evapotranspiration increased due to changes in vegetation composition and structure under a subtropical climate. Jawra Journal of the American Water Resources Association , 44 , 1164–1175. Sun Z, Wang Q, Zhu O, Watanabe M, Matsushita B. 2010. Evaluation of MOD16 algorithm using MODIS and ground observational data in winter wheat field in North China Plain. Hydrological Processes , 21 , 1196–1206. Suzuki R, Yatagai A, Yasunari T. 1998. Satellite-derived vegetation index and evapotranspiration estimated by using assimilated atmospheric data over Asia. Journal of the Meteorological Society of Japan , 76 , 663–671. Tang B, Tong L, Kang S, Zhang L . 2011. Impacts of climate variability on reference evapotranspiration over 58 years in the Haihe River Basin of north China. Agricultural Water Management , 98 , 1660–1670. Wang K, Liang S. 2008. An improved method for estimating global evapotranspiration based on satellite determination of surface net radiation, vegetation index, temperature, and soil moisture. Journal of Hydrometeorology , 8 , 712–727. Wang Q, Shi P, Lei T, Geng G, Liu J, Mo X, Li X, Zhou H, Wu J. 2015. The alleviating trend of drought in the Huang-Huai- Hai Plain of China based on the daily SPEI. International Journal of Climatology , 35 , 3760–3769. Wang Q, Wu J, Lei T, He B, Wu Z, Liu M, Mo X, Geng G, Li X, Zhou H, Liu D. 2014. Temporal-spatial characteristics of severe drought events and their impact on agriculture on a global scale. Quaternary International , 349 , 10–21. Wang Q, Wu J, Li X, Zhou H, Yang J, Geng G, An X, Liu L, Tang Z. 2017. A comprehensively quantitative method of evaluating the impact of drought on crop yield using daily multi-scale SPEI and crop growth process model. International Journal of Biometeorology , 61 , 685–699. Wear D, Greis J. 2002. Southern forest resource assessment: Summary of findings. Journal of Forestry-Washington , 100 , 6–14. Wen J, Xin L, Shi X, Pan X. 2013. Numerical simulations of fractional vegetation coverage influences on the convective environment over the source region of the Yellow River. Meteorology & Atmospheric Physics , 120 , 1–10. Xu Z, Chen Y, Li J. 2004. Impact of climate change on water resources in the Tarim River Basin. Water Resources Management , 18 , 439–458. Yang H, Luo P, Wang J, Mou C, Mo L, Wang Z, Fu Y, Lin H, Yang Y, Bhatta L D. 2015. Ecosystem evapotranspiration as a response to climate and vegetation coverage changes in Northwest Yunnan, China. PLoS ONE , 10 , e0134795. Yang Y, Shang S, Jiang L. 2012. Remote sensing temporal and spatial patterns of evapotranspiration and the responses to water management in a large irrigation district of North China. Agricultural & Forest Meteorology , 164 , 112–122. Yeo A. 1998. Predicting the interaction between the effects of salinity and climate change on crop plants. Scientia Horticulturae , 78 , 159–174. Zhang B, Xu D, Liu Y, Li F, Cai J, Du L. 2016. Multi-scale evapotranspiration of summer maize and the controlling meteorological factors in north China. Agricultural & Forest Meteorology , 216 , 1–12. Zhang S, Lippitt C, Bogus S, Neville P. 2016. Characterizing pavement surface distress conditions with hyper-spatial resolution natural color aerial photography. Remote Sensing , 8 , 392. Zhou Q, Deng X, Wu F. 2017. Impacts of water scarcity on socio-economic development: A case study of Gaotai County, China. Physics and Chemistry of the Earth (Parts A/B/C), 101 , 204–213. Section editor ZHANG Wei-li Managing editor SUN Lu-juan