ChenArainChenEtAl2016

Référence

Chen, B., Arain, M.A., Chen, J.M., Croft, H., Grant, R.F., Kurz, W.A., Bernier, P.Y., Guindon, L., Price, D. and Wang, Z. (2016) Evaluating the impacts of climate variability and cutting and insect defoliation on the historical carbon dynamics of a boreal black spruce forest landscape in eastern Canada. Ecological Modelling, 321:98-109. (Scopus )

Résumé

In this study, the Carbon and Nitrogen coupled Canadian Land Surface Scheme (CN-CLASS) was used to investigate the impact of climate variability, seasonal weather effects, disturbance, and CO2 fertilization effects on the historical carbon (C) dynamics of an eastern Canadian boreal forest landscape (6275 ha) from 1928 to 2008. The model was parameterized with ecological, soil texture, forest inventory and historical disturbance data and driven by hourly meteorological data constructed from the historical climate records. Before performing the landscape-level simulation, model results were evaluated against site-level eddy covariance (EC) measurements. Landscape-level simulated C fluxes showed that the forest ecosystem was a small C sink in all of the years prior to cutting and insect defoliation in 1963, which resulted in the removal of 23849 Mg C from the forest landscape. As a consequence, the study area was a large C source in 1963 (net biome productivity, NBP=-537 g Cm-2 yr-1). After that, the forest landscape was mainly a net annual C sink, with total ecosystem C stocks increasing from 14.8 to 16.0 kg Cm-2 by 2008, during which total biomass increased from 3.1 to 4.2 kg Cm-2. Analysis of landscape-level, age-detrended, simulated C fluxes for the undisturbed forest landscape from 1928 to 2002 indicated that summer temperature was the dominant control on C fluxes with higher temperature causing a much faster increase in landscape-level annual Re than that of GPP (i.e. 12.3 vs. 1.3 g Cm-2 yr-1°C-1, respectively). Scenario analysis suggested that forest disturbances had a less profound impact on landscape-level C fluxes and stocks compared to inter-annual climate variability in this landscape. Climate sensitivity analysis revealed that landscape-level simulated C fluxes and stocks were sensitive to the change of air temperature, while only dead organic matter (DOM) and soil organic matter (SOM) were sensitive to the change of precipitation. This study will help to explore the impact of future climate change scenarios and forest management on boreal forest landscapes. © 2015 Elsevier B.V.

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@ARTICLE { ChenArainChenEtAl2016,
    AUTHOR = { Chen, B. and Arain, M.A. and Chen, J.M. and Croft, H. and Grant, R.F. and Kurz, W.A. and Bernier, P.Y. and Guindon, L. and Price, D. and Wang, Z. },
    TITLE = { Evaluating the impacts of climate variability and cutting and insect defoliation on the historical carbon dynamics of a boreal black spruce forest landscape in eastern Canada },
    JOURNAL = { Ecological Modelling },
    YEAR = { 2016 },
    VOLUME = { 321 },
    PAGES = { 98-109 },
    NOTE = { cited By 0 },
    ABSTRACT = { In this study, the Carbon and Nitrogen coupled Canadian Land Surface Scheme (CN-CLASS) was used to investigate the impact of climate variability, seasonal weather effects, disturbance, and CO2 fertilization effects on the historical carbon (C) dynamics of an eastern Canadian boreal forest landscape (6275 ha) from 1928 to 2008. The model was parameterized with ecological, soil texture, forest inventory and historical disturbance data and driven by hourly meteorological data constructed from the historical climate records. Before performing the landscape-level simulation, model results were evaluated against site-level eddy covariance (EC) measurements. Landscape-level simulated C fluxes showed that the forest ecosystem was a small C sink in all of the years prior to cutting and insect defoliation in 1963, which resulted in the removal of 23849 Mg C from the forest landscape. As a consequence, the study area was a large C source in 1963 (net biome productivity, NBP=-537 g Cm-2 yr-1). After that, the forest landscape was mainly a net annual C sink, with total ecosystem C stocks increasing from 14.8 to 16.0 kg Cm-2 by 2008, during which total biomass increased from 3.1 to 4.2 kg Cm-2. Analysis of landscape-level, age-detrended, simulated C fluxes for the undisturbed forest landscape from 1928 to 2002 indicated that summer temperature was the dominant control on C fluxes with higher temperature causing a much faster increase in landscape-level annual Re than that of GPP (i.e. 12.3 vs. 1.3 g Cm-2 yr-1°C-1, respectively). Scenario analysis suggested that forest disturbances had a less profound impact on landscape-level C fluxes and stocks compared to inter-annual climate variability in this landscape. Climate sensitivity analysis revealed that landscape-level simulated C fluxes and stocks were sensitive to the change of air temperature, while only dead organic matter (DOM) and soil organic matter (SOM) were sensitive to the change of precipitation. This study will help to explore the impact of future climate change scenarios and forest management on boreal forest landscapes. © 2015 Elsevier B.V. },
    AUTHOR_KEYWORDS = { Canadian land surface scheme; Climate sensitivity analysis; Net biome productivity; Scenario analysis },
    DOCUMENT_TYPE = { Article },
    DOI = { 10.1016/j.ecolmodel.2015.11.011 },
    KEYWORDS = { Biogeochemistry; Biological materials; Carbon dioxide; Climate change; Climate models; Climatology; Ecology; Ecosystems; Forestry; Meteorology; Organic compounds; Productivity; Sensitivity analysis; Surface measurement, Black spruce forests; Canadian boreal forest; Carbon and nitrogen; Land surface scheme; Meteorological data; Scenario analysis; Soil organic matters; Undisturbed forests, C (programming language), Hexapoda; Picea mariana },
    SOURCE = { Scopus },
    URL = { http://www.scopus.com/inward/record.url?eid=2-s2.0-84949813420&partnerID=40&md5=268f37a8c13b836ef864c00fbd0bff64 },
}

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