Skip to main content
Elsevier

Water-Soil-Vegetation Nexus and Climate Change

  • 1st Edition - January 10, 2024
  • Latest edition
  • Editor: Xixi Wang
  • Language: English

Water-Soil-Vegetation Nexus and Climate Change presents an overview of research needs and approaches regarding water-soil-vegetation nexus and climate change. The book includes ch… Read more

Data Mining & ML

Unlock the cutting edge

Up to 20% on trusted resources. Build expertise with data mining, ML methods.

Explore now

Description

Water-Soil-Vegetation Nexus and Climate Change presents an overview of research needs and approaches regarding water-soil-vegetation nexus and climate change. The book includes chapters discussing water budget and factors that affect hydrologic processes such as precipitation, runoff, infiltration, evapotranspiration, soil water, and groundwater, in addition to a focus on consumptive (e.g., domestic and irrigation) and non-consumptive (e.g., eco-environmental) water uses, and water shortage. Throughout the book, chapters specifically deal with the fundamental principles and also case studies, applications, and decision support tools that can be usable for developing practical management measures in sustaining our eco-environment and society by maintaining an optimal water-soil-vegetation equilibrium.

Written with water resources students and professors in mind, this book will provide the reader with further knowledge on the water-soil-vegetation nexus and its connection to climate change.

Key features

  • Includes both principles and applications, providing the reader with options for both application types as needed
  • Emphasizes the nexuses rather than individual processes, allowing the reader to understand the whole picture
  • Presents case studies and decision support tools that can be used for developing practical management measures in changing climate

Readership

Professors, students and research scientists in the field of Water Resources and Environmental Science. Soil Scientists, Climate Scientists, Environmental, Civil engineers, Plant scientists, Ecologists

Table of contents

1. Editorial Comment 2. Water Availability and Shortage 3. Topsoil Characteristics and Loss 4. Vegetation Dynamics 5. Impacts of Climate Change 6. Overall Conclusions and Discussion

Product details

  • Edition: 1
  • Latest edition
  • Published: January 12, 2024
  • Language: English

About the editor

XW

Xixi Wang

Xixi Wang is an Associate Professor in Department of Civil and Environmental Engineering at Old Dominion University, Norfolk, Virginia. Xixi’s current areas of research focus on effects of climate change versus human activity on water resources, water-soil-vegetation nexus and equilibrium in changing climate, and watershed hydrology and stormwater management. Xixi has served at the Principal Investigator on several research grants focused on water-soil-vegetation nexus and spatiotemporal variations of precipitation as influenced by nonstationary climate. He has authored more than 80 peer-reviewed research papers, books, and book chapters, including several on precipitation trend and frequency analyses. He earned his bachelor’s (1989) and master’s (1993) degrees in Hydrology and Water Resources Engineering from Tsinghua University, and holds a doctoral (2001) degree in Agricultural Engineering from Iowa State University. Xixi has been a registered professional engineer in North Dakota (#5145) since 2003 and Texas (#99798) between 2007 and 2011.
Affiliations and expertise
Department of Civil and Environmental Engineering, Old Dominion University, Norfolk, VA, USA

View book on ScienceDirect

Read Water-Soil-Vegetation Nexus and Climate Change on ScienceDirect