Terrestrial biogeochemical cycles: Global estimates with remote sensing
- National Center for Atmospheric Research, Boulder, CO (United States)
The carbon and nitrogen cycles are crucial for understanding the changing Earth system, influencing atmospheric concentrations of greenhouse gases, primary productivity of the biosphere, and biogenic emissions of reactive trace species. The carbon budget of the terrestrial biosphere has attracted special attention because of its role in atmospheric changes in carbon dioxide. The terrestrial biosphere influences atmospheric CO{sub 2} through three main modes: First, large, nearly balanced fluxes of CO{sub 2} in photosynthesis and respiration exhibit a degree of interannual variability which can influence atmospheric CO{sub 2}, at least on annual to decadal time scales. Second, land use changes release CO{sub 2} to the atmosphere. Third, poorly understood processes are likely resulting in enhanced uptake of CO{sub 2} in certain ecosystems, acting as a sink in the global carbon cycle. This sink may result from forest demographics, atmospheric N deposition, or direct CO{sub 2} fertilization, or some synergistic combination of those processes. Global estimates of terrestrial carbon cycle components requires the use of remote observations; however, the appropriate remote sensing strategies are quite different for the various components.
- OSTI ID:
- 31835
- Report Number(s):
- CONF-9206465--
- Journal Information:
- Remote Sensing of Environment, Journal Name: Remote Sensing of Environment Journal Issue: 1 Vol. 51; ISSN RSEEA7; ISSN 0034-4257
- Country of Publication:
- United States
- Language:
- English
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