Modelling Semi-arid Water-Soil-Vegetation Systems

Authors

Xixi Wang, Old Dominion University

Files

Description

Water-soil-vegetation dynamic nexuses affect, and are affected by, both human activity and climate change. Inappropriate land management practices can result in soil and vegetation degradation, which in turn will likely alter natural hydrologic processes, leading to more frequent and severe flooding and drought. In response, an altered hydrologic condition tends to prompt soil erosion by wind and water, which can cause further vegetation degradation or even loss. Such nexuses will likely become more interwoven in changing climate because the non-stationary climate can further deteriorate the already-altered hydrologic condition. So far, our understanding is incomplete regarding how such nexuses maintain or break equilibriums between water, soil, and/or vegetation in terms of eco-environmental resilience. This book: 1) conceptualizes the interrelated physical processes of water-soil-vegetation systems; 2) introduces mathematical models for simulating the processes; and 3) develops a variety of modelling cases of selected systems across the world. [From the publisher]

ISBN

9780750340205

Publication Date

2022

Publisher

IOP Publishing Ltd

Disciplines

Climate | Environmental Engineering | Hydraulic Engineering | Natural Resources Management and Policy | Soil Science | Water Resource Management

Recommended Citation

Wang, Xixi, "Modelling Semi-arid Water-Soil-Vegetation Systems" (2022). Civil & Environmental Engineering Faculty Books. 11.
https://digitalcommons.odu.edu/cee_books/11