1. A review of the contemporary global carbon cycle and as seen a century ago by Arrhenius and Hogbom
- Author
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Heimann, M.
- Subjects
- *
CARBON dioxide , *CLIMATE change , *GREENHOUSE effect - Abstract
The agenda of global carbon cycle research features two fundamental problems. The first concerns the direct response of the carbon systemto the anthropogenic perturbation, i.e. how is the excess carbon dioxide emitted by fossil fuel burning and from changes in land use (i.e. deforestation) distributed between atmosphere, land and the ocean, and how is this distribution changing as a function of time? The second problem addresses the feedbacks, i.e. how do changes in climate feedback on the natural carbon cycle and may thus lead to variations in the atmospheric CO{sub}2{end} concentration? This paper reviews some of the observational constraints to addressing these problems: (i)The direct atmospheric observations and the ice-core measurements which document the CO{sub}2{end} increase during the last 100 years; (ii) the role of the ocean in the current atmospheric CO{sub}2{end} budget as determined from model simulations and by new methods based on observations of oxygen and carbon isotopes; and (iii) the spatial information revealed by the global CO{sub}2{end} monitoring networks. One hundred years ago, Arrhenius and his geologist colleague Hogbom were both aware of the major processes which control the atmospheric CO{sub}2{end} concentration, however, they were more interested in the long-term aspects and did not perceive the industrial emissions as an immediate threat to the global climate. Today, we can quantify and model the direct response to anthropogenic perturbation, although important uncertainties still exist, in particular with respect to terrestrial biospheric processes. However, our understanding of the multitude of climatic feedbacks on the carbon cycle is very limited. This problem constitutes a challenge that will remain on the scientific agenda for the next decades. [ABSTRACT FROM AUTHOR]
- Published
- 1997