
Tropical forests represent the world's most biodiverse ecosystems and play a key role in hydrology, carbon storage and exchange. Many of the human-induced pressures these regions are facing, e.g. fragmentation and deforestation, have been widely reported and well documented. However, there have been surprisingly few efforts to synthesize cutting-edge science in the area of tropical forest interaction with atmospheric change. At a time when our global atmosphere is undergoing a period of rapid change, both in terms of climate and in the cycling of essential elements such as carbon and nitrogen, a thorough and up-to-date analysis is now timely. This research level text, suitable for graduate level students as well as professional researchers in plant ecology, tropical forestry, climate change science, and conservation biology, explores the vigorous contemporary debate as to how rapidly tropical forests may be affected by atmospheric change, and what this may mean for their future.
This text investigates the complex interactions between tropical forest ecosystems and the ongoing shifts in global atmospheric composition and climate. Authors Oliver Phillips and Yadvinder Malhi, both established experts in tropical ecology and forest dynamics, synthesize current scientific data to evaluate how these biodiverse regions respond to carbon and nitrogen cycling changes. The book provides a rigorous framework for understanding the vulnerability of tropical forests to human-induced environmental pressures.
What You Will Find
Scope Limits
Experts identify this work as a foundational text for graduate-level study in plant ecology and climate science. Readers frequently note the academic density of the prose and the high level of technical detail provided for professional researchers.
Page Count:
260
Publication Date:
2005-01-01
Publisher:
Oxford University Press
ISBN-10:
0191524271
ISBN-13:
9780191524271
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