[7] LARONNE J B, WINE M L, RIMMER A. Agriculture, diversions, and drought shrinking Galilee Sea[D]. Science of the Total Environment, 651, 70-83(2019).
[8] SAHOO S, ELLIOTT J, RUSSO T A et al. Machine learning algorithms for modeling groundwater level changes in agricultural regions of the United States[D]. Water Resources Research, 53, 3878-3895(2017).
[9] DU Y, GUO X, DAI L et al. The response of shallow groundwater levels to soil freeze-thaw process on the Qinghai-Tibet Plateau[D]. Groundwater, 57, 602-611(2019).
[10] BERG A, HACHBORN E, LEVISON J et al. Sensitivity of GRACE-derived estimates of groundwater-level changes in Southern Ontario, Canada[D]. Hydrogeology Journal, 25, 2391-2402(2017).
[11] ZHAO Z, GUAN Z, JIA Z et al. The effect of climatic and non-climatic factors on groundwater levels in the Jinghuiqu Irrigation district of the Shaanxi province, China[D]. Water, 11, 956(2019).
[12] NIE N, ZHANG W, CHEN H et al. Long-term groundwater storage variations estimated in the Songhua River Basin by using GRACE products, land surface models, and in-situ observations[D]. Science of the Total Environment, 649, 372-387(2019).
[13] BRODA S, WUNSCH A, LIESCH T. Forecasting groundwater levels using nonlinear autoregressive networks with exogenous input (NARX)[D]. Journal of Hydrology, 567, 743-758(2018).
[14] NIU W, QIU L, HUANG J. Decoupling and driving factors of economic growth and groundwater consumption in the Coastal Areas of the Yellow Sea and the Bohai Sea[D]. Sustainability, 10, 4158(2018).
[15] GARAMHEGYI T, KOVÁCS J, PONGRÁCZ R et al. Investigation of the climate-driven periodicity of shallow groundwater level fluctuations in a Central-Eastern European agricultural region[D]. Hydrogeology Journal, 26, 677-688(2018).
[16] ZHAN C, WU X, XIA J et al. Evaluating the dynamics of groundwater depletion for an Arid Land in the Tarim Basin, China[D]. Water, 11, 186(2019).
[17] SUSHAB R S, SATTARI M T, MIRABBASI R et al. Prediction of groundwater level in Ardebil plain using support vector regression and M5 tree model[D]. Groundwater, 56, 636-646(2018).
[18] SANDOVAL TORRES S, OJEDA OLIVARES E A, BELMONTE JIMÉNEZ S I et al. Climate change, land use/land cover change, and population growth as drivers of groundwater depletion in the Central Valleys, Oaxaca, Mexico[D]. Remote Sensing, 11, 1290(2019).
[19] ZHAO Y, LIU Z, HAN Y et al. Driving factors of the evolution of groundwater level in People's Victory Canal Irrigation district, China[D]. Desalination and Water Treatment, 112, 325-333(2018).
[22] KANG S, HUO Z, FENG S et al. Numerically modelling groundwater in an arid area with ANN generated dynamic boundary conditions[D]. Hydrological Processes, 25, 705-713(2011).
[25] CARLSON K M, ZENG X Z, LI J Z et al. Progress towards sustainable intensification in China challenged by land-use change[D]. Nature Sustainability, 1, 304-313(2018).