GIS Modelling of Evapotranspiration with Remote Sensing

Dear Colleagues,

Evapotranspiration (ET) can be estimated from the complex surface energy balance equations. This process plays a decisive role in various water resource management activities, including the required irrigation water, vegetation–atmosphere interactions, and terrestrial ecosystem productivity over a range of spatial and temporal domains. However, the reliable estimation of ET, characterized by complex vegetation–atmosphere interactions, is limited by scarce data availability and a lack of expertise in conceptualizing the real field scenario. Several remote sensing-based ET estimation approaches, particularly those used to estimate sensible heat flux within a smaller spatial domain, are discussed in this Special Issue. This includes Mapping EvapoTranspiration at High Resolution using Internalized Calibration (METRIC) and Surface Energy Balance Algorithm for Land (SEBAL) (Allen et al., 2011). The introduction of a Moderate Resolution Imaging Spectroradiometer (MODIS) satellite, a device that onboards the aqua and terra sensors, provided continuous ET estimates at 250 m spatial and 8-day temporal resolutions. This was performed with the objective of improved irrigation scheduling at an 8-day timescale, in congruence with the general water stress-sensitive period for major crops.

This Special Issue provides an opportunity for budding researchers to publish their research outcomes related to remote sensing applications in evapotranspiration mapping. This Special Issue invites research articles including but not limited to:

1. Catchment-scale Evapotranspiration monitoring
2. MODIS ET product for vegetation monitoring
3. GIS-based crop planning
4. Remote sensing-based hydrological water balance assessment
5. Spatiotemporal vegetation health monitoring
6. Evapotranspiration modeling under scarce data availability scenario
7. Modeling evapotranspiration with soil moisture estimates

Dr. Sonam Sandeep Dash
Dr. Pooja P. Preetha
Dr. Han Chen
Guest Editors

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• evapotranspiration
• remote sensing
• leaf area index (LAI)
• geographic information system
• crop monitoring
• watershed modeling
• vegetation indices
• evaporation
• transpiration