The Evapotranspiration in a Changing Climate: In-Situ Measurements, Remote Sensing, Modeling, and Application
A special issue of Water (ISSN 2073-4441). This special issue belongs to the section "New Sensors, New Technologies and Machine Learning in Water Sciences".
Deadline for manuscript submissions: closed (30 November 2021) | Viewed by 3187
Special Issue Editors
Interests: evapotranspiration; large-scale hydrological processes; remote sensing of hydrology; water-carbon coupling; hydrological modeling and prediction
Special Issues, Collections and Topics in MDPI journals
Special Issue Information
Dear Colleagues,
Evapotranspiration (ET) is a key component in Earth’s water, energy, and carbon cycles and affects the climate and ecosystem via a wide range of feedbacks acting on air temperature, humidity, and precipitation. An accurate estimation of ET is therefore a requirement, but it is challenging both in situ and remotely, introducing uncertainties for model parameterization development and validation. Since 1802, when John Dalton published his pioneering work on evaporation, remarkable achievements have been made by the community in understanding ET processes at varying spatiotemporal scales. However, there are numerous remaining questions in critical ET-based science and application from local to global scales due to limitations in our observation and simulation skills.
In this Special Issue, we are calling for papers that address ET scientific topics in coordination with efforts in different regions of the world, aiming to synthesize results at the global scale. We invite papers covering, but not limited to, the following topics:
(1) Better measurements and modeling of ET and its components (soil evaporation, plant transpiration, and canopy interception) at multiple scales from plot to regional and global scales;
(2) Estimating evaporation/sublimation from unconventional land surfaces including water bodies (especially inland lakes), snow, and glaciers;
(3) Challenges and opportunities in quantifying ET trends in a changing climate using state-of-the-art techniques;
(4) Responses and feedbacks of ET to climate change and anthropogenic activities;
(5) Role of ET in drought monitoring, agricultural management, and water resources; and
(6) Employing high-resolution ET products for improved hydrological and/or climate modeling in poorly gauged regions of the world.
Prof. Dr. Yongqiang Zhang
Dr. Ning Ma
Guest Editors
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Keywords
- evapotranspiration
- advanced techniques in ET measurement
- remote sensing of ET
- multiscale ET estimation
- responses of ET to climate change and human activities
- feedbacks of ET to climate
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