Crops
; Deforestation
; Drought
; Ecosystems
; Evapotranspiration
; Groundwater
; Land surface temperature
; Land use
; Remote sensing
; Soil moisture
; Structural optimization
; Vegetation
; Deep soil moisture
; Enhanced vegetation index
; Groundwater table depth
; Growing season lengths
; Land use and land cover change
; Optimum structures
; Remote sensing data
; Wet and dry seasons
; Water recycling
; deforestation
; evapotranspiration
; growing season
; land cover
; land use
; NDVI
; precipitation (climatology)
; rainfall
; soil moisture
; water table
; Amazonia
; Glycine max
; White tip die-back phytoplasma
O'connor, J., Copernicus Institute of Sustainable Development, Department Environmental Sciences, Utrecht University, Utrecht, Netherlands; Santos, M.J., University Research Priority Program in Global Change and Biodiversity and Department of Geography, University of Zürich, Zurich, Switzerland; Rebel, K.T., Copernicus Institute of Sustainable Development, Department Environmental Sciences, Utrecht University, Utrecht, Netherlands; Dekker, S.C., Copernicus Institute of Sustainable Development, Department Environmental Sciences, Utrecht University, Utrecht, Netherlands, Faculty of Management, Science and Technology, Open University, Heerlen, Netherlands
Recommended Citation:
O'connor J.,Santos M.J.,Rebel K.T.,et al. The influence of water table depth on evapotranspiration in the Amazon arc of deforestation[J]. Hydrology and Earth System Sciences,2019-01-01,23(9)