Reprint

Advanced Hydrologic Modeling in Watershed Scales

Edited by
March 2023
222 pages
  • ISBN978-3-0365-7115-7 (Hardback)
  • ISBN978-3-0365-7114-0 (PDF)

This is a Reprint of the Special Issue Advanced Hydrologic Modeling in Watershed Scales that was published in

Biology & Life Sciences
Chemistry & Materials Science
Engineering
Environmental & Earth Sciences
Public Health & Healthcare
Summary

Hydrologic modeling at the watershed scale is a key topic in the field of hydrology. The hydrological model is an important tool in understanding the impact of climate change and human activities on rainfall–runoff processes, and especially on water resources for human beings in a changing environment. In the last two decades, with the development of satellite remote sensing and artificial intelligence, many new datasets and methods have been introduced into hydrological modeling.Hydrologic modeling at the watershed scale is an important and fundamental research field in hydrology. Therefore, we proposed a Special Issue entitled "Advanced Hydrologic Modeling in Watershed Scales" in Water to publish results regarding the recent progress in hydrological modeling at the watershed scale against global changes. Before the deadline for the submission of manuscripts to this Special Issue, we received many manuscripts regarding hydrological modeling at the watershed scale. In total, ten articles have been published in this Special Issue. Researchers interested in hydrological modeling and the impacts of environmental changes on water resources may be interested in this reprint.

Format
  • Hardback
License and Copyright
© 2022 by the authors; CC BY-NC-ND license
Keywords
revegetation; irrigation; leaf area index; evapotranspiration; groundwater; snowmelt; hydrologic modeling; ATIMR; HEC-HMS; Euphrates River; Kırkgöze–Çipak Basin; climate change; human activities; base flow; surface runoff; Weihe River Basin; hydrological modelling; evaluation; satellite rainfall; climatic variables; simulation; geographical information systems; groundwater assessment; groundwater recharge; remote sensing; Islamabad; ecological compensation; trans-regional river; non-point-source pollution; grain for green; SWAT; low flow simulation; objective functions; hydrological calibration; semi-arid basin; SWAT; support vector regression; streamflow prediction; wavelet transform; Illinois River watershed; basin water balance; GR3 model; hydrological model; long-term series; single flood process; urban hydrology simulation; hydrological simulation; time-varying parameters; potential evapotranspiration; Loess Plateau; n/a

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