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A process-based model of nitrogen cycling in forest plantations. Part II. Simulating growth and nitrogen mineralisation of Eucalyptus globulus plantations in south-western Australia

Corbeels Marc, Mc Murtrie Ross E., Pepper David A., O'Connell Anthony M.. 2005. A process-based model of nitrogen cycling in forest plantations. Part II. Simulating growth and nitrogen mineralisation of Eucalyptus globulus plantations in south-western Australia. Ecological Modelling, 187 (4) : 449-474.

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Thème(s) HCERES des revues (en SHS) : Economie-gestion

Résumé : We applied a new version of the G'DAY ecosystem model to short-rotation plantations of Eucalyptus globulus growing under a Mediterranean climate in south-western Australia. The new version, that includes modified submodels for biomass production, water balance, litter and soil organic matter (SOM) decomposition, and soil inorganic N balance, was parameterised and applied to three experimental eucalypt sites (Mumballup, Darkan and Northcliffe) of contrasting productivity. With a common base set of parameter values, the model was able to correctly reproduce observed time series of soil water content, canopy leaf area index and stemwood data at the three sites. The model's ability to simulate soil N supply under forest plantations was tested by simulating N mineralisation at each of the three sites over the duration of the experiment (10 years). Simulated annual net N mineralisation in the litter and top 20 cm soil layer ranged from 50 to 170 kg N ha-1 across the sites as a result of differences in rates of litter production, SOM and litter decomposition, and microbial N immobilisation and (re-)mineralisation. Simulations of annual soil N mineralisation were similar to measured rates over a 3-year period, except for an overestimation in 1 year at Mumballup and 2 years at Darkan. Model results indicated the importance of fine root production and turnover for N supply. As plantations age, supply of N to trees increasingly originates from litter decomposition, while the contribution from decomposition of SOM decreases. Although major soil feedbacks associated with litter production, decomposition and N availability are adequately integrated into G'DAY, further work is required in some aspects of the model, including the utility of the C-allocation submodel over a wide range of site conditions and silvicultural treatments. © 2005 Elsevier B.V. All rights reserved.

Classification Agris : P35 - Fertilité du sol
U10 - Informatique, mathématiques et statistiques
F62 - Physiologie végétale - Croissance et développement

Champ stratégique Cirad : Axe 1 (2005-2013) - Intensification écologique

Auteurs et affiliations

  • Corbeels Marc, CIRAD-CA-GEC (BRA) ORCID: 0000-0002-8084-9287
  • Mc Murtrie Ross E., University of New Wales (AUS)
  • Pepper David A., UNSW Sidney (AUS)
  • O'Connell Anthony M., CSIRO (AUS)

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