Call Boomerang Books 1300 36 33 32

Description - Deserts and Desert Environments by Professor Julie J. Laity

Taking a global perspective, this book provides a concise overview of drylands, including their physical, biological, temporal, and human components.

Examines the physical systems occurring in desert environments, including climate, hydrology, past and present lakes, weathering, hillslopes, geomorphic surfaces, water as a geomorphic agent, and aeolian processes

Offers an accessible introduction to the physical, biological, temporal, and human components of drylands

Investigates the nature, environmental requirements, and essential geomorphic roles of plants and animals in this stressful biological environment

Highlights the impact of human population growth on climate, desertification, water resources, and dust storm activity

Includes an examination of surface/atmosphere interactions and the impact of ENSO events.

Buy Deserts and Desert Environments by Professor Julie J. Laity from Australia's Online Independent Bookstore, Boomerang Books.

Book Details

ISBN: 9781577180333
ISBN-10: 157718033X
Format: Paperback / softback
(245mm x 193mm x 20mm)
Pages: 360
Imprint: Wiley-Blackwell (an imprint of John Wiley & Sons Ltd)
Publisher: John Wiley and Sons Ltd
Publish Date: 24-Oct-2008
Country of Publication: United Kingdom

Book Reviews - Deserts and Desert Environments by Professor Julie J. Laity

» Have you read this book? We'd like to know what you think about it - write a review about Deserts and Desert Environments book by Professor Julie J. Laity and you'll earn 50c in Boomerang Bucks loyalty dollars (you must be a Boomerang Books Account Holder - it's free to sign up and there are great benefits!)

Author Biography - Professor Julie J. Laity

Julie Laity is a Professor at California State University, Northridge, USA. Her work has focused on deserts, looking at aeolian, fluvial, and groundwater systems, and the impact of environmental degradation on wind-blown sand and dust events. Her research on groundwater-sapping systems and wind erosion has been used to aid our understanding of Martian environments.