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Modeling soil and plant phosphorus within DSSAT

Author

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  • Dzotsi, K.A.
  • Jones, J.W.
  • Adiku, S.G.K.
  • Naab, J.B.
  • Singh, U.
  • Porter, C.H.
  • Gijsman, A.J.

Abstract

The crop models in the Decision Support System for Agrotechnology Transfer (DSSAT) have served worldwide as a research tool for improving predictions of relationships between soil and plant nitrogen (N) and crop yield. However, without a phosphorus (P) simulation option, the applicability of the DSSAT crop models in P-deficient environments is limited. In this study, a soil–plant P model integrated to DSSAT was described, and results showing the ability of the model to mimic wide differences in maize responses to P in Ghana are presented as preliminary attempts to testing the model on highly weathered soils. The model simulates P transformations between soil inorganic labile, active and stable pools and soil organic microbial and stable pools. Plant growth is limited by P between two concentration thresholds that are species-specific optimum and minimum concentrations of P defined at different stages of plant growth. Phosphorus stress factors are computed to reduce photosynthesis, dry matter accumulation and dry matter partitioning. Testing on two highly weathered soils from Ghana over a wide range of N and P fertilizer application rates indicated that the P model achieved good predictability skill at one site (Kpeve) with a final grain yield root mean squared error (RMSE) of 535kgha−1and a final biomass RMSE of 507kgha−1. At the other site (Wa), the RMSE was 474kgha−1 for final grain yield and 1675kgha−1 for final biomass. A local sensitivity analysis indicated that under P-limiting conditions and no P fertilizer application, crop biomass, grain yield, and P uptake could be increased by over 0.10% due to organic P mineralization resulting from a 1% increase in organic carbon. It was also shown that the modeling philosophy that makes P in a root-free zone unavailable to plants resulted in a better agreement of simulated crop biomass and grain yield with field measurements. Because the complex soil P chemistry makes the availability of P to plants extremely variable, testing under a wider range of agro-ecological conditions is needed to complement the initial evaluation presented here, and extend the use of the DSSAT-P model to other P-deficient environments.

Suggested Citation

  • Dzotsi, K.A. & Jones, J.W. & Adiku, S.G.K. & Naab, J.B. & Singh, U. & Porter, C.H. & Gijsman, A.J., 2010. "Modeling soil and plant phosphorus within DSSAT," Ecological Modelling, Elsevier, vol. 221(23), pages 2839-2849.
    • Handle: RePEc:eee:ecomod:v:221:y:2010:i:23:p:2839-2849
    DOI: 10.1016/j.ecolmodel.2010.08.023
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    References listed on IDEAS

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    1. Daroub, Samira H. & Gerakis, Argyrios & Ritchie, Joe T. & Friesen, Dennis K. & Ryan, John, 2003. "Development of a soil-plant phosphorus simulation model for calcareous and weathered tropical soils," Agricultural Systems, Elsevier, vol. 76(3), pages 1157-1181, June.
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    Cited by:

    1. Muntwyler, Anna & Panagos, Panos & Morari, Francesco & Berti, Antonio & Jarosch, Klaus A. & Mayer, Jochen & Lugato, Emanuele, 2023. "Modelling phosphorus dynamics in four European long-term experiments," Agricultural Systems, Elsevier, vol. 206(C).
    2. Fangfang Ning & Peteh Mehdi Nkebiwe & Jens Hartung & Sebastian Munz & Shoubing Huang & Shunli Zhou & Simone Graeff-Hönninger, 2023. "Phosphate Fertilizer Type and Liming Affect the Growth and Phosphorus Uptake of Two Maize Cultivars," Agriculture, MDPI, vol. 13(9), pages 1-13, September.
    3. G. Máthé-Gáspár & N. Fodor, 2012. "Modeling the phosphorus balance of different soilsusing the 4M crop model," Plant, Soil and Environment, Czech Academy of Agricultural Sciences, vol. 58(9), pages 391-398.
    4. Adiku, Samuel G.K. & MacCarthy, Dilys S. & Kumahor, Samuel K., 2021. "A conceptual modelling framework for simulating the impact of soil degradation on maize yield in data-sparse regions of the tropics," Ecological Modelling, Elsevier, vol. 448(C).

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