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Dynamics of grass–clover mixtures—An analysis of the response to management with the PROductive GRASsland Simulator (PROGRASS)

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  • Lazzarotto, P.
  • Calanca, P.
  • Fuhrer, J.

Abstract

A dynamic plot-scale model PROGRASS was developed to simulate the seasonal and inter-annual dynamics of productive, cut grass/clover mixtures in response to management, and specifically to examine the role of root development on grass/clover interactions. The model was parameterized by virtue of data for dry matter yield, leaf area index, root mass, soil mineral N uptake and biological N fixation from a long-term field trial in north-eastern Switzerland. It was tested using 5 years of independent data for yield and clover fraction from a field experiment with two management regimes carried out on the Swiss Central Plateau. The results of transient simulations indicated that under intensive fertilization grass dominance was initiated by preferential allocation of assimilates to the roots. The rapid growth of the grass root system lowered the substrate C:N ratio, favouring carbon allocation to the shoot, which eventually provided competitive advantages with respect to light interception. Under extensive management, limited N acquisition capacity of the grass root system maintained preferential allocation to the roots, limiting shoot development in the grass and leading to clover dominance. Co-existence regimes with dominance by one of the components were also found in equilibrium experiments, with a transition regime from clover to grass dominance for annual N applications in the range 100–200kgNha−1y−1 that reflected adjustments of the root system to fertilization. It is concluded that the dynamics of grass/clover mixtures is driven by negative and positive feedbacks in the soil–plant system that are strongly controlled by root development and therefore by the allocation patterns of the grass component.

Suggested Citation

  • Lazzarotto, P. & Calanca, P. & Fuhrer, J., 2009. "Dynamics of grass–clover mixtures—An analysis of the response to management with the PROductive GRASsland Simulator (PROGRASS)," Ecological Modelling, Elsevier, vol. 220(5), pages 703-724.
    • Handle: RePEc:eee:ecomod:v:220:y:2009:i:5:p:703-724
    DOI: 10.1016/j.ecolmodel.2008.11.023
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    References listed on IDEAS

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    1. Dueri, S. & Calanca, P.L. & Fuhrer, J., 2007. "Climate change affects farm nitrogen loss - A Swiss case study with a dynamic farm model," Agricultural Systems, Elsevier, vol. 93(1-3), pages 191-214, March.
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    1. Hjelkrem, Anne-Grete Roer & Geipel, Jakob & Bakken, Anne Kjersti & Korsaeth, Audun, 2023. "NORNE, a process-based grass growth model accounting for within-field soil variation using remote sensing for in-season corrections," Ecological Modelling, Elsevier, vol. 483(C).
    2. Moulin, Thibault & Perasso, Antoine & Gillet, François, 2018. "Modelling vegetation dynamics in managed grasslands: Responses to drivers depend on species richness," Ecological Modelling, Elsevier, vol. 374(C), pages 22-36.
    3. Confalonieri, R., 2014. "CoSMo: A simple approach for reproducing plant community dynamics using a single instance of generic crop simulators," Ecological Modelling, Elsevier, vol. 286(C), pages 1-10.
    4. Beata Grygierzec & Kamila Musiał & Lidia Luty, 2020. "Sowing ratio, NS fertilisation and interactions of Lolium sp. and Festulolium grown in mixtures with Trifolium repens," Plant, Soil and Environment, Czech Academy of Agricultural Sciences, vol. 66(8), pages 395-402.
    5. Lieffering, Mark & Newton, Paul C.D. & Vibart, Ronaldo & Li, Frank Y., 2016. "Exploring climate change impacts and adaptations of extensive pastoral agriculture systems by combining biophysical simulation and farm system models," Agricultural Systems, Elsevier, vol. 144(C), pages 77-86.
    6. Annett Wolf & Patrick Lazzarotto & Harald Bugmann, 2012. "The relative importance of land use and climatic change in Alpine catchments," Climatic Change, Springer, vol. 111(2), pages 279-300, March.
    7. Herben, Tomáš & Wildová, Radka, 2012. "Community-level effects of plant traits in a grassland community examined by multispecies model of clonal plant growth," Ecological Modelling, Elsevier, vol. 234(C), pages 60-69.
    8. Moulin, Thibault & Perasso, Antoine & Calanca, Pierluigi & Gillet, François, 2021. "DynaGraM: A process-based model to simulate multi-species plant community dynamics in managed grasslands," Ecological Modelling, Elsevier, vol. 439(C).
    9. Finger, Robert & Lazzarotto, Patrick & Calanca, Pierluigi, 2010. "Bio-economic assessment of climate change impacts on managed grassland production," Agricultural Systems, Elsevier, vol. 103(9), pages 666-674, November.
    10. Kipling, Richard P. & Bannink, André & Bellocchi, Gianni & Dalgaard, Tommy & Fox, Naomi J. & Hutchings, Nicholas J. & Kjeldsen, Chris & Lacetera, Nicola & Sinabell, Franz & Topp, Cairistiona F.E. & va, 2016. "Modeling European ruminant production systems: Facing the challenges of climate change," Agricultural Systems, Elsevier, vol. 147(C), pages 24-37.
    11. Soussana, Jean-François & Maire, Vincent & Gross, Nicolas & Bachelet, Bruno & Pagès, Loic & Martin, Raphaël & Hill, David & Wirth, Christian, 2012. "Gemini: A grassland model simulating the role of plant traits for community dynamics and ecosystem functioning. Parameterization and evaluation," Ecological Modelling, Elsevier, vol. 231(C), pages 134-145.

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