Effect of interannual climate variability on carbon storage in Amazonian ecosystems

Effect of interannual climate variability on carbon storage in Amazonian ecosystems

The Amazon Basin contains almost one-half of the world's undisturbed tropical evergreen forest as well as large areas of tropical savanna,. The forests account for about 10 per cent of the world's terrestrial primary productivity and for a similar fraction of the carbon stored in land ecos...

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Bibliographic Details
Published in:Nature (London) Vol. 396; no. 6712; pp. 664 - 667
Main Authors: Tian, Hanqin, Melillo, Jerry M, Kicklighter, David W, McGuire, A. David, Helfrich, John V. K, Moore, Berrien, Vörösmarty, Charles J
Format: Journal Article
Language:English
Published: London Nature Publishing 17-12-1998
Nature Publishing Group
Subjects:
Amazon Basin
Atmospherics
Carbon
Carbon sequestration
Carbon sinks
Climate
Climate variability
Earth, ocean, space
Ecosystems
El Nino
Exact sciences and technology
External geophysics
Land
Meteorology
Other topics in atmospheric geophysics
Rainforests
River basins
South America
America
Amazon Basin
Amazonia, Brazil
South America, Amazon R
Carbon cycle
Biogeochemistry
Models
Climate variation
Carbon dioxide
Interannual variation
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Summary:The Amazon Basin contains almost one-half of the world's undisturbed tropical evergreen forest as well as large areas of tropical savanna,. The forests account for about 10 per cent of the world's terrestrial primary productivity and for a similar fraction of the carbon stored in land ecosystems,, and short-term field measurements suggest that these ecosystems are globally important carbon sinks. But tropical land ecosystems have experienced substantial interannual climate variability owing to frequent El Niño episodes in recent decades. Of particular importance to climate change policy is how such climate variations, coupled with increases in atmospheric CO2 concentration, affect terrestrial carbon storage. Previous model analyses have demonstrated the importance of temperature in controlling carbon storage,. Here we use a transient process-based biogeochemical model of terrestrial ecosystems, to investigate interannual variations of carbon storage in undisturbed Amazonian ecosystems in response to climate variability and increasing atmospheric CO2 concentration during the period 1980 to 1994. In El Niño years, which bring hot, dry weather to much of the Amazon region, the ecosystems act as a source of carbon to the atmosphere (up to 0.2 petagrams of carbon in 1987 and 1992). In other years, these ecosystems act as a carbon sink (up to 0.7 Pg C in 1981 and 1993). These fluxes are large; they compare to a 0.3 Pg C per year source to the atmosphere associated with deforestation inthe Amazon Basin in the early 1990s. Soil moisture, which is affected by both precipitation and temperature, and which affects both plant and soil processes, appears to be an important control on carbon storage.
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ISSN:0028-0836
1476-4687
DOI:10.1038/25328