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Modelling the impact of environmental changes on grassland systems with SPACSYS

  • L. Wu (a1), A. P. Whitmore (a2) and G. Bellocchi (a3)

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Smith, P, Smith, JU, Powlson, DS, McGill, WB, Arah, JRM, Chertov, OG, Coleman, K, Franko, U, Frolking, S, Jenkinson, DS, Jensen, LS, Kelly, RH, Klein-Gunnewiek, H, Komarov, AS, Molina, JAE, Mueller, T, Parton, WJ, Thornley, JHM and Whitmore, AP 1997. A comparison of the performance of nine soil organic matter models using datasets from seven long-term experiments. Geoderma 81, 153225.
Wu, L, Bingham, IJ, Baddeley, JA and Watson, CA 2009. Modeling plant nitrogen uptake using three-dimensional and one-dimensional root architecture. In Quantifying and understanding plant nitrogen uptake systems modeling (ed. L Ma, LR Ahuja and TW Bruulsema), pp. 197218. CRC Press, Boca Raton, FL.
Wu, L, McGechan, MB, McRoberts, N, Baddeley, JA and Watson, CA 2007. SPACSYS: integration of a 3D root architecture component to carbon, nitrogen and water cycling-model description. Ecological Modelling 200, 343359.

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Modelling the impact of environmental changes on grassland systems with SPACSYS

  • L. Wu (a1), A. P. Whitmore (a2) and G. Bellocchi (a3)

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