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Modeling forest leaf-litter decomposition and N mineralization in litterbags, placed across Canada: A 5-model comparison

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  • Zhang, C.F.
  • Meng, F.-R.
  • Bhatti, J.S.
  • Trofymow, J.A.
  • Arp, Paul A.

Abstract

The performances of five carbon (C) and nitrogen (N) cycling models (FLDM, CENTURY, SOMM, DOCDOM and CANDY) were compared for their ability to quantify mass and N remaining in 10g leaf-litterbags across the wide range of litter types and sites of the Canadian Intersite Decomposition Experiment (CIDET), over a 6-year period. These models differ in their structure and assumptions, number of compartments, predictor variables and coefficients. Calibrated model outputs displayed similar but not identical trends for mass and N remaining, but differed substantially in mass and N contents per model-defined compartments. The quality of fit between model calculations and data varied as follows: FLDM>CENTURY>DOCMOD>CANDY>SOMM for mass remaining (0.73DOCMOD>CENTURY>SOMM>CANDY for the changing N concentrations inside the bags (0.40

Suggested Citation

  • Zhang, C.F. & Meng, F.-R. & Bhatti, J.S. & Trofymow, J.A. & Arp, Paul A., 2008. "Modeling forest leaf-litter decomposition and N mineralization in litterbags, placed across Canada: A 5-model comparison," Ecological Modelling, Elsevier, vol. 219(3), pages 342-360.
    • Handle: RePEc:eee:ecomod:v:219:y:2008:i:3:p:342-360
    DOI: 10.1016/j.ecolmodel.2008.07.014
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    1. David Powlson, 2005. "Will soil amplify climate change?," Nature, Nature, vol. 433(7023), pages 204-205, January.
    2. W. Knorr & I. C. Prentice & J. I. House & E. A. Holland, 2005. "Long-term sensitivity of soil carbon turnover to warming," Nature, Nature, vol. 433(7023), pages 298-301, January.
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    1. Smith, Amanda C. & Bhatti, Jagtar S. & Chen, Hua & Harmon, Mark E. & Arp, Paul A., 2011. "Modelling above- and below-ground mass loss and N dynamics in wooden dowels (LIDET) placed across North and Central America biomes at the decadal time scale," Ecological Modelling, Elsevier, vol. 222(14), pages 2276-2290.
    2. Ogbazghi, Z.M. & Tesfamariam, E.H. & Annandale, J.G., 2016. "Modelling N mineralisation from sludge-amended soils across agro-ecological zones: A case study from South Africa," Ecological Modelling, Elsevier, vol. 322(C), pages 19-30.
    3. Li, Xia & Cui, Baoshan & Yang, Qichun & Lan, Yan & Wang, Tingting & Han, Zhen, 2013. "Effects of plant species on macrophyte decomposition under three nutrient conditions in a eutrophic shallow lake, North China," Ecological Modelling, Elsevier, vol. 252(C), pages 121-128.
    4. Murphy, Paul N.C. & Ogilvie, Jae & Meng, Fan-Rui & White, Barry & Bhatti, Jagtar S. & Arp, Paul A., 2011. "Modelling and mapping topographic variations in forest soils at high resolution: A case study," Ecological Modelling, Elsevier, vol. 222(14), pages 2314-2332.
    5. Smyth, C.E. & Kurz, W.A. & Trofymow, J.A., 2011. "Including the effects of water stress on decomposition in the Carbon Budget Model of the Canadian Forest Sector CBM-CFS3," Ecological Modelling, Elsevier, vol. 222(5), pages 1080-1091.
    6. 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.
    7. Balland, Vincent & Pollacco, Joseph A.P. & Arp, Paul A., 2008. "Modeling soil hydraulic properties for a wide range of soil conditions," Ecological Modelling, Elsevier, vol. 219(3), pages 300-316.
    8. Larocque, Guy R. & Bhatti, Jagtar S. & Boutin, Robert & Chertov, Oleg, 2008. "Uncertainty analysis in carbon cycle models of forest ecosystems: Research needs and development of a theoretical framework to estimate error propagation," Ecological Modelling, Elsevier, vol. 219(3), pages 400-412.

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