Bibliographie complète
New coupled model used inversely for reconstructing past terrestrial carbon storage from pollen data: validation of model using modern data
Type de ressource
Auteurs/contributeurs
- Wu, Haibin (Auteur)
- Guiot, Joël (Auteur)
- Peng, Changhui (Auteur)
- Guo, Zhengtang (Auteur)
Titre
New coupled model used inversely for reconstructing past terrestrial carbon storage from pollen data: validation of model using modern data
Résumé
Abstract
The knowledge of potential impacts of climate change on terrestrial vegetation is crucial to understand long‐term global carbon cycle development. Discrepancy in data has long existed between past carbon storage reconstructions since the Last Glacial Maximum by way of pollen, carbon isotopes, and general circulation model (GCM) analysis. This may be due to the fact that these methods do not synthetically take into account significant differences in climate distribution between modern and past conditions, as well as the effects of atmospheric CO
2
concentrations on vegetation. In this study, a new method to estimate past biospheric carbon stocks is reported, utilizing a new integrated ecosystem model (PCM) built on a physiological process vegetation model (BIOME4) coupled with a process‐based biospheric carbon model (DEMETER). The PCM was constrained to fit pollen data to obtain realistic estimates. It was estimated that the probability distribution of climatic parameters, as simulated by BIOME4 in an inverse process, was compatible with pollen data while DEMETER successfully simulated carbon storage values with corresponding outputs of BIOME4. The carbon model was validated with present‐day observations of vegetation biomes and soil carbon, and the inversion scheme was tested against 1491 surface pollen spectra sample sites procured in Africa and Eurasia. Results show that this method can successfully simulate biomes and related climates at most selected pollen sites, providing a coefficient of determination (
R
) of 0.83–0.97 between the observed and reconstructed climates, while also showing a consensus with an
R
‐value of 0.90–0.96 between the simulated biome average terrestrial carbon variables and the available observations. The results demonstrate the reliability and feasibility of the climate reconstruction method and its potential efficiency in reconstructing past terrestrial carbon storage.
Publication
Global Change Biology
Volume
15
Numéro
1
Pages
82-96
Date
01/2009
Abrév. de revue
Global Change Biology
Langue
en
ISSN
1354-1013, 1365-2486
Titre abrégé
New coupled model used inversely for reconstructing past terrestrial carbon storage from pollen data
Consulté le
19/11/2024 21:26
Catalogue de bibl.
DOI.org (Crossref)
Autorisations
Référence
Wu, H., Guiot, J., Peng, C., & Guo, Z. (2009). New coupled model used inversely for reconstructing past terrestrial carbon storage from pollen data: validation of model using modern data. Global Change Biology, 15(1), 82–96. https://doi.org/10.1111/j.1365-2486.2008.01712.x
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