Environmental control of carbon allocation matters for modelling forest growth

Joannes Guillemot, Christophe Francois, Gabriel Hmimina, Eric Dufrene, Nicolas K. Martin-StPaul, Kamel Soudani, Guillaume Marie, Jean-Marc Ourcival, Nicolas Delpierre

    Research output: Contribution to JournalArticleAcademicpeer-review

    Abstract

    We aimed to evaluate the importance of modulations of within-tree carbon (C) allocation by water and low-temperature stress for the prediction of annual forest growth with a process-based model. A new C allocation scheme was implemented in the CASTANEA model that accounts for lagged and direct environmental controls of C allocation. Different approaches (static vs dynamic) to modelling C allocation were then compared in a model–data fusion procedure, using satellite-derived leaf production estimates and biometric measurements at c. 104 sites. The modelling of the environmental control of C allocation significantly improved the ability of CASTANEA to predict the spatial and year-to-year variability of aboveground forest growth along regional gradients. A significant effect of the previous year's water stress on the C allocation to leaves and wood was reported. Our results also are consistent with a prominent role of the environmental modulation of sink demand in the wood growth of the studied species. Data available at large scales can inform forest models about the processes driving annual and seasonal C allocation. Our results call for a greater consideration of C allocation drivers, especially sink–demand fluctuations, for the simulations of current and future forest productivity with process-based models.

    Original languageEnglish
    Pages (from-to)180-193
    Number of pages14
    JournalNew Phytologist
    Volume214
    Issue number1
    DOIs
    Publication statusPublished - Apr 2017

    Funding

    The authors wish to thank the Office National des Forêts and the RENECOFOR team, particularly Manuel Nicolas and Marc Lanier, for providing their database. The SAFRAN database was provided by Météo-France as part of the HYMEX project. J.G. received a PhD grant from the MESR and the University of Paris-Sud. J.G. wishes to thank Claire Damesin, Annikki Mäkelä, Guerric Le Maire, Sebastiaan Luyssaert and Sönke Zaehle for helpful discussions on an earlier version of the manuscript. We thank the editor R. Fisher and three anonymous reviewers for their insightful comments on the manuscript.

    FundersFunder number
    Office National des Forêts
    Ministère de l'Education Nationale, de l'Enseignement Superieur et de la Recherche
    Université Paris-Sud

      Keywords

      • biomass growth
      • carbon (C) allocation
      • organ phenology
      • process-based modelling
      • sink-demand
      • water stress

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