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Transient climate-carbon simulations of planetary geoengineering

Author:
Matthews, H. Damon, Caldeira, Ken
Source:
Proceedings of the National Academy of Sciences of the United States of America 2007 v.104 no.24 pp. 9949-9954
ISSN:
0027-8424
Subject:
carbon, carbon cycle, carbon dioxide, carbon sinks, climate, climate models, environmental engineering, global warming, greenhouse gas emissions, greenhouse gases, risk, solar radiation, temperature
Abstract:
Geoengineering (the intentional modification of Earth's climate) has been proposed as a means of reducing CO₂-induced climate warming while greenhouse gas emissions continue. Most proposals involve managing incoming solar radiation such that future greenhouse gas forcing is counteracted by reduced solar forcing. In this study, we assess the transient climate response to geoengineering under a business-as-usual CO₂ emissions scenario by using an intermediate-complexity global climate model that includes an interactive carbon cycle. We find that the climate system responds quickly to artificially reduced insolation; hence, there may be little cost to delaying the deployment of geoengineering strategies until such a time as "dangerous" climate change is imminent. Spatial temperature patterns in the geoengineered simulation are comparable with preindustrial temperatures, although this is not true for precipitation. Carbon sinks in the model increase in response to geoengineering. Because geoengineering acts to mask climate warming, there is a direct CO₂-driven increase in carbon uptake without an offsetting temperature-driven suppression of carbon sinks. However, this strengthening of carbon sinks, combined with the potential for rapid climate adjustment to changes in solar forcing, leads to serious consequences should geoengineering fail or be stopped abruptly. Such a scenario could lead to very rapid climate change, with warming rates up to 20 times greater than present-day rates. This warming rebound would be larger and more sustained should climate sensitivity prove to be higher than expected. Thus, employing geoengineering schemes with continued carbon emissions could lead to severe risks for the global climate system.
Agid:
2352953