Impact of land cover change on surface climate: Relevance of the radiative forcing concept

Edouard L. Davin; N. de Noblet-Ducoudré; P. Friedlingstein

doi:10.1029/2007GL029678

Impact of land cover change on surface climate: Relevance of the radiative forcing concept

Edouard L. Davin
, N. de Noblet-Ducoudré
, P. Friedlingstein

Université Versailles-Saint Quentin

Research output: Contribution to journal › Article › peer-review

Abstract

We use the IPSL climate model to investigate biophysical impacts of Anthropogenic Land Cover Change (ALCC) on surface climate. Including both the changes in surface albedo and evapotranspiration, we find that ALCC represents a radiative forcing of -0.29 W/m₂ from 1860 to 1992 and of -0.7 W/m₂ from 1992 to 2100. The simulated surface temperature response to ALCC indicates a historical cooling of 0.05 K and an additional cooling due to future changes of 0.14 K, which is consistent with the sign of the radiative forcing. However, this cooling is substantially lower than the one we would have obtained if it was caused by a radiatively equivalent change in CO₂ concentration. These results thus question the relevance of the radiative forcing framework in the context of land use change, since the radiative forcing due to ALCC may not be comparable to the one exerted by other anthropogenic perturbations

Original language	English
Article number	L13702
Journal	Geophysical Research Letters
Volume	34
Issue number	13
DOIs	https://doi.org/10.1029/2007GL029678
Publication status	Published - 16 Jul 2007
Externally published	Yes

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 13 Climate Action
SDG 15 Life on Land

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10.1029/2007GL029678

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title = "Impact of land cover change on surface climate: Relevance of the radiative forcing concept",

abstract = "We use the IPSL climate model to investigate biophysical impacts of Anthropogenic Land Cover Change (ALCC) on surface climate. Including both the changes in surface albedo and evapotranspiration, we find that ALCC represents a radiative forcing of -0.29 W/m2 from 1860 to 1992 and of -0.7 W/m2 from 1992 to 2100. The simulated surface temperature response to ALCC indicates a historical cooling of 0.05 K and an additional cooling due to future changes of 0.14 K, which is consistent with the sign of the radiative forcing. However, this cooling is substantially lower than the one we would have obtained if it was caused by a radiatively equivalent change in CO2 concentration. These results thus question the relevance of the radiative forcing framework in the context of land use change, since the radiative forcing due to ALCC may not be comparable to the one exerted by other anthropogenic perturbations",

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T1 - Impact of land cover change on surface climate

T2 - Relevance of the radiative forcing concept

AU - Davin, Edouard L.

AU - de Noblet-Ducoudré, N.

AU - Friedlingstein, P.

PY - 2007/7/16

Y1 - 2007/7/16

N2 - We use the IPSL climate model to investigate biophysical impacts of Anthropogenic Land Cover Change (ALCC) on surface climate. Including both the changes in surface albedo and evapotranspiration, we find that ALCC represents a radiative forcing of -0.29 W/m2 from 1860 to 1992 and of -0.7 W/m2 from 1992 to 2100. The simulated surface temperature response to ALCC indicates a historical cooling of 0.05 K and an additional cooling due to future changes of 0.14 K, which is consistent with the sign of the radiative forcing. However, this cooling is substantially lower than the one we would have obtained if it was caused by a radiatively equivalent change in CO2 concentration. These results thus question the relevance of the radiative forcing framework in the context of land use change, since the radiative forcing due to ALCC may not be comparable to the one exerted by other anthropogenic perturbations

AB - We use the IPSL climate model to investigate biophysical impacts of Anthropogenic Land Cover Change (ALCC) on surface climate. Including both the changes in surface albedo and evapotranspiration, we find that ALCC represents a radiative forcing of -0.29 W/m2 from 1860 to 1992 and of -0.7 W/m2 from 1992 to 2100. The simulated surface temperature response to ALCC indicates a historical cooling of 0.05 K and an additional cooling due to future changes of 0.14 K, which is consistent with the sign of the radiative forcing. However, this cooling is substantially lower than the one we would have obtained if it was caused by a radiatively equivalent change in CO2 concentration. These results thus question the relevance of the radiative forcing framework in the context of land use change, since the radiative forcing due to ALCC may not be comparable to the one exerted by other anthropogenic perturbations

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DO - 10.1029/2007GL029678

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JO - Geophysical Research Letters

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ER -

Impact of land cover change on surface climate: Relevance of the radiative forcing concept

Abstract

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