Carbon-biosphere-climate interactions in the last glacial maximum climate

P. Friedlingstein; K. C. Prentice; I. Y. Fung; J. G. John; G. P. Brasseur

doi:10.1029/94JD02948

Carbon-biosphere-climate interactions in the last glacial maximum climate

P. Friedlingstein
, K. C. Prentice
, I. Y. Fung
, J. G. John
, G. P. Brasseur

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

Abstract

The total carbon inventory in the terrestrial biosphere in the last glacial maximum (LGC), 18 kyr ago, is analyzed in a series of experiments that examine the sensitivity of the inventory to vegetation distribution and carbon dynamics. The results show that for most forest vegetation types, carbon densities for the LGM are within 10% of their present-day values. Discrepancies between vegetation distributions simulated by two bioclimatic schemes are attributable to the assignation of vegetation types to climates with rare or no present-day analog. The model experiments, combined with palynological data for regions with no present-day analog climate, yield to a decrease of about 612 Gt C compared to present day. -from Authors

Original language	English
Pages (from-to)	7203-7221
Number of pages	19
Journal	Journal of Geophysical Research
Volume	100
Issue number	D4
DOIs	https://doi.org/10.1029/94JD02948
Publication status	Published - 1 Jan 1995

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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10.1029/94JD02948

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title = "Carbon-biosphere-climate interactions in the last glacial maximum climate",

abstract = "The total carbon inventory in the terrestrial biosphere in the last glacial maximum (LGC), 18 kyr ago, is analyzed in a series of experiments that examine the sensitivity of the inventory to vegetation distribution and carbon dynamics. The results show that for most forest vegetation types, carbon densities for the LGM are within 10\% of their present-day values. Discrepancies between vegetation distributions simulated by two bioclimatic schemes are attributable to the assignation of vegetation types to climates with rare or no present-day analog. The model experiments, combined with palynological data for regions with no present-day analog climate, yield to a decrease of about 612 Gt C compared to present day. -from Authors",

author = "P. Friedlingstein and Prentice, \{K. C.\} and Fung, \{I. Y.\} and John, \{J. G.\} and Brasseur, \{G. P.\}",

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AU - Friedlingstein, P.

AU - Prentice, K. C.

AU - Fung, I. Y.

AU - John, J. G.

AU - Brasseur, G. P.

PY - 1995/1/1

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N2 - The total carbon inventory in the terrestrial biosphere in the last glacial maximum (LGC), 18 kyr ago, is analyzed in a series of experiments that examine the sensitivity of the inventory to vegetation distribution and carbon dynamics. The results show that for most forest vegetation types, carbon densities for the LGM are within 10% of their present-day values. Discrepancies between vegetation distributions simulated by two bioclimatic schemes are attributable to the assignation of vegetation types to climates with rare or no present-day analog. The model experiments, combined with palynological data for regions with no present-day analog climate, yield to a decrease of about 612 Gt C compared to present day. -from Authors

AB - The total carbon inventory in the terrestrial biosphere in the last glacial maximum (LGC), 18 kyr ago, is analyzed in a series of experiments that examine the sensitivity of the inventory to vegetation distribution and carbon dynamics. The results show that for most forest vegetation types, carbon densities for the LGM are within 10% of their present-day values. Discrepancies between vegetation distributions simulated by two bioclimatic schemes are attributable to the assignation of vegetation types to climates with rare or no present-day analog. The model experiments, combined with palynological data for regions with no present-day analog climate, yield to a decrease of about 612 Gt C compared to present day. -from Authors

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EP - 7221

JO - Journal of Geophysical Research

JF - Journal of Geophysical Research

IS - D4

ER -

Carbon-biosphere-climate interactions in the last glacial maximum climate

Abstract

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