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How strong is carbon cycle-climate feedback under global warming?

TitoloHow strong is carbon cycle-climate feedback under global warming?
Tipo di pubblicazioneArticolo su Rivista peer-reviewed
Anno di Pubblicazione2004
AutoriZeng, N., Qian H., Munoz E., and Iacono Roberto
RivistaGeophysical Research Letters
Volume31
PaginazioneL20203 1-5
ISSN00948276
Parole chiavecarbon cycle, Carbon dioxide, Carbon loss, Climate change, climate modeling, Climatology, Computer simulation, Decay, Decomposition, Fertilizers, Global warming, Mathematical models, Meteorology, simulation, Soil, Soil decomposition, Soils
Abstract

The behavior of the coupled carbon cycle and physical system in a global warming scenario is studied using an Earth system model including the atmosphere, land, ocean, and the carbon cycle embedded in these components. A fully coupled carbon-climate simulation and several sensitivity runs were conducted for the period of 1860-2100 with prescribed IPCC-SRES-A1B emission scenario. Results indicate a positive feedback to global warming from the interactive carbon cycle, with an additional increase of 90 ppmv in the atmospheric CO2, and 0.6 degree additional warming, thus confirming recent results from the Hadley Centre and IPSL. However, the changes in various carbon pools are more modest, largely due to the multiple limiting factors constraining terrestrial productivity and carbon loss. The large differences among the three models are manifestations of some of the poorly constrained processes such as the global strength of the CO2 fertilization effect and the turnover time and rates of soil decomposition. Copyright 2004 by the American Geophysical Union.

Note

cited By 75

URLhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-11844280849&doi=10.1029%2f2004GL020904&partnerID=40&md5=1b936a2d9509bfd9b34c4ebc9b88b419
DOI10.1029/2004GL020904
Citation KeyZeng2004