Synopses & Reviews
This book describes comprehensively carbon (C) cycle process in global ecosystems and the potential and co-benefits of recarbonization of the biosphere. An ever increasing human population is disposing increasing amounts of carbon dioxide (CO2) into the atmosphere by land use and land cover changes but most importantly by burning of fossil fuels. This process severely perturbs the natural global C cycles and Earth system processes. Recarbonization of the biosphere is a potential strategy to redistribute C among global pools, and to enhance ocean but most importantly land-based C sinks. Sustainably managed and protected must be, in particular, the large and sensitive C stocks in permafrost, wetlands, peatlands, tropical rainforests and savannas, grasslands, degraded/desertified lands, and croplands. Recarbonization requires long-term management because C stocks grow with a progressive improvement in ecosystem health. Protecting and enhancing land-based C sinks serves food security aside contributing to climate change mitigation and adaptation.
Synopsis
Human activities are significantly modifying the natural global carbon (C) cycles, and concomitantly influence climate, ecosystems, and state and function of the Earth system. Ever increasing amounts of carbon dioxide (CO2) are added to the atmosphere by fossil fuel combustion but the biosphere is a potential C sink. Thus, a comprehensive understanding of C cycling in the biosphere is crucial for identifying and managing biospheric C sinks. Ecosystems with large C stocks which must be protected and sustainably managed are wetlands, peatlands, tropical rainforests, tropical savannas, grasslands, degraded/desertified lands, agricultural lands, and urban lands. However, land-based sinks require long-term management and a protection strategy because C stocks grow with a progressive improvement in ecosystem health.
Table of Contents
Foreword (K. Töpfer, R. Hill) 1. Terrestrial Biosphere as a Source and Sink of Atmospheric Carbon Dioxide (R. Lal, K. Lorenz, R. F. J. Hüttl, B. U. Schneider, J. von Braun) 2. Climate Change Mitigation by Managing the Terrestrial Biosphere (R. Lal) 3. Atmospheric Chemistry and Climate in the Anthropocene (P. J. Crutzen, K. Lorenz, R. Lal, K. Töpfer) 4. Historic Changes in Terrestrial Carbon Storage (R. A. Houghton) 5. Soil Erosion and Soil Organic Carbon Storage on the Chinese Loess Plateau (C. Dahlke, H. R. Bork) 6. Methane Emissions from China's Natural Wetlands: Measurements, Temporal Variance and Influencing Factors (X. Wang, F. Lu, L. Yang) 7. Accounting more precisely for peat and other soil carbon resources (Hermann F. Jungkunst, Jan Paul Krüger, Felix Heitkamp, Stefan Erasmi, Stephan Glatzel