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Long-term forest-floor litter dynamics in Canada's boreal forest: Comparison of two model formulations

Author

Listed:
  • Zhang, Chengfu
  • Jamieson, Rob C.
  • Meng, Fan-Rui
  • Gordon, Robert J.
  • Bhatti, Jagtar
  • Bourque, Charles P.-A.

Abstract

Litter decomposition is a key component in ecosystem material cycling that determines (i) forest soil carbon (C) and nutrient content, (ii) release of carbon dioxide to the atmosphere, and (iii) generation and mass transfer of dissolved organic carbon from terrestrial to aquatic ecosystems. In this study, we provide simulations of long term forest-floor litter dynamics generated with both (i) an existing forest nutrient cycling and biomass growth model (ForNBM) with a single-pool formulation of forest-floor litter decomposition (Zhu et al., 2003. Ecol. Model. 169, 347–360), and (ii) a revised version of the model produced by substituting the single-pool formulation with a three-pool version of the formulation tested against data from litterbag experiments (FLDM; Zhang et al., 2010. Ecol. Model. 221, 1944–1953). This is done to determine the importance of subdividing the litter mass into categories of rates of decay (i.e., fast, slow, and very slow) on model accuracy. Forest-forest litter dynamics simulated with the two models are subsequently compared against field measurements collected at several northern jack pine (Pinus banksiana) stands along a southwest-northeast oriented transect (climate gradient) associated with the Boreal Forest Transect Case Study in northwest Canada. Initial comparison shows that the single-pool formulation underpredicts residual litter mass when forests are <65 years old, largely due to the improper treatment of the very slow decomposing litter component. This underprediction is resolved when the three-pool formulation is used. From a ecosystems-response point of view, the revised ForNBM (with the three-pool formulation) demonstrates that (i) forest-floor litter initially increases with forest growth and reaches a plateau once the forest matures; (ii) the forest floor stores more litter and C at the southern and warmer sites than at the northern sites; and (iii) in a similar climate regime, the forest floor stores more litter and C at productive than at nutrient-poor sites.

Suggested Citation

  • Zhang, Chengfu & Jamieson, Rob C. & Meng, Fan-Rui & Gordon, Robert J. & Bhatti, Jagtar & Bourque, Charles P.-A., 2011. "Long-term forest-floor litter dynamics in Canada's boreal forest: Comparison of two model formulations," Ecological Modelling, Elsevier, vol. 222(6), pages 1236-1244.
    • Handle: RePEc:eee:ecomod:v:222:y:2011:i:6:p:1236-1244
    DOI: 10.1016/j.ecolmodel.2011.01.002
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    References listed on IDEAS

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    1. Zhang, Chengfu & Trofymow, John A. & Jamieson, Rob C. & Meng, Fan-Rui & Gordon, Robert & Bourque, Charles P.-A., 2010. "Litter decomposition and nitrogen mineralization from an annual to a monthly model," Ecological Modelling, Elsevier, vol. 221(16), pages 1944-1953.
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    Cited by:

    1. Zhang, Chengfu & Jamieson, Rob C. & Meng, Fan-Rui & Gordon, Robert J. & Bourque, Charles P.-A., 2013. "Simulation of monthly dissolved organic carbon concentrations in small forested watersheds," Ecological Modelling, Elsevier, vol. 250(C), pages 205-213.

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    1. Zhang, Chengfu & Jamieson, Rob C. & Meng, Fan-Rui & Gordon, Robert J. & Bourque, Charles P.-A., 2013. "Simulation of monthly dissolved organic carbon concentrations in small forested watersheds," Ecological Modelling, Elsevier, vol. 250(C), pages 205-213.

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