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Implementation and calibration of the parameter-sparse Yield-SAFE model to predict production and land equivalent ratio in mixed tree and crop systems under two contrasting production situations in Europe

Author

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  • Graves, A.R.
  • Burgess, P.J.
  • Palma, J.
  • Keesman, K.J.
  • van der Werf, W.
  • Dupraz, C.
  • van Keulen, H.
  • Herzog, F.
  • Mayus, M.

Abstract

Silvoarable agroforestry, the integration of trees and arable crops on the same area, has the potential to offer production, ecological, and societal benefits. However, the uptake of such systems in Europe has been limited by a combination of unsupportive policies and uncertainty concerning their productivity, profitability, and environmental impact. Faced with a lack of experimental data, the parameter-sparse Yield-SAFE model offers one method for generating plausible yield data and improving understanding of production in mixed tree–crop systems under European conditions. The applicability of the model was examined by: (i) selecting two contrasting sites in France and the UK with measured agricultural, silvoarable and/or forestry data, (ii) implementing the model in a software package, and (iii) inputting data and parameters on the climate, soils, management regime, and tree and crop types. Following calibration, Yield-SAFE provided credible descriptions of measured arable and tree (Populus spp.) yields in the monoculture and silvoarable systems at the two sites. An examination of the response of the model to changes in model parameters and environmental and management data showed that silvoarable crop yields were most sensitive to variations in tree parameters. Increased soil depths increased timber yields, and increasing stand density increased stand volume whilst decreasing individual tree volume. In all the simulations, the model predicted greater efficiency in use of land, i.e. greater land equivalent ratios, when trees and crops were combined rather than grown as sole crops. These results, supported by the sparse experimental data available, indicate that agroforestry provides a method of increasing food, timber and biomass production from limited land resources in Europe.

Suggested Citation

  • Graves, A.R. & Burgess, P.J. & Palma, J. & Keesman, K.J. & van der Werf, W. & Dupraz, C. & van Keulen, H. & Herzog, F. & Mayus, M., 2010. "Implementation and calibration of the parameter-sparse Yield-SAFE model to predict production and land equivalent ratio in mixed tree and crop systems under two contrasting production situations in Eu," Ecological Modelling, Elsevier, vol. 221(13), pages 1744-1756.
    • Handle: RePEc:eee:ecomod:v:221:y:2010:i:13:p:1744-1756
    DOI: 10.1016/j.ecolmodel.2010.03.008
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    Citations

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    Cited by:

    1. Diana-Maria Seserman & Dirk Freese & Anita Swieter & Maren Langhof & Maik Veste, 2019. "Trade-Off between Energy Wood and Grain Production in Temperate Alley-Cropping Systems: An Empirical and Simulation-Based Derivation of Land Equivalent Ratio," Agriculture, MDPI, vol. 9(7), pages 1-26, July.
    2. Elevitch, Craig R. & Johnson, C. Richard, 2020. "A procedure for ranking parameter importance for estimation in predictive mechanistic models," Ecological Modelling, Elsevier, vol. 419(C).
    3. Bosi, Cristiam & Huth, Neil Ian & Sentelhas, Paulo Cesar & Pezzopane, José Ricardo Macedo, 2022. "APSIM model performance in simulating Piatã palisade grass growth and soil water in different positions of a silvopastoral system with eucalyptus," Agricultural Systems, Elsevier, vol. 195(C).
    4. Thiesmeier, Alma & Zander, Peter, 2023. "Can agroforestry compete? A scoping review of the economic performance of agroforestry practices in Europe and North America," Forest Policy and Economics, Elsevier, vol. 150(C).
    5. Christian Dupraz & Kevin J. Wolz & Isabelle Lecomte & Grégoire Talbot & Grégoire Vincent & Rachmat Mulia & François Bussière & Harry Ozier-Lafontaine & Sitraka Andrianarisoa & Nick Jackson & Gerry Law, 2019. "Hi-sAFe: A 3D Agroforestry Model for Integrating Dynamic Tree–Crop Interactions," Sustainability, MDPI, vol. 11(8), pages 1-25, April.
    6. Michal Kulak & Thomas Nemecek & Emmanuel Frossard & Gérard Gaillard, 2013. "How Eco-Efficient Are Low-Input Cropping Systems in Western Europe, and What Can Be Done to Improve Their Eco-Efficiency?," Sustainability, MDPI, vol. 5(9), pages 1-22, September.
    7. Smith, Laurence G. & Westaway, Sally & Mullender, Samantha & Ghaley, Bhim Bahadur & Xu, Ying & Lehmann, Lisa Mølgaard & Pisanelli, Andrea & Russo, Giuseppe & Borek, Robert & Wawer, Rafał & Borzęcka, M, 2022. "Assessing the multidimensional elements of sustainability in European agroforestry systems," Agricultural Systems, Elsevier, vol. 197(C).
    8. Karolina Golicz & Gohar Ghazaryan & Wiebke Niether & Ariani C. Wartenberg & Lutz Breuer & Andreas Gattinger & Suzanne R. Jacobs & Till Kleinebecker & Philipp Weckenbrock & André Große-Stoltenberg, 2021. "The Role of Small Woody Landscape Features and Agroforestry Systems for National Carbon Budgeting in Germany," Land, MDPI, vol. 10(10), pages 1-18, September.
    9. Diana-Maria Seserman & Dirk Freese, 2019. "Handling Data Gaps in Reported Field Measurements of Short Rotation Forestry," Data, MDPI, vol. 4(4), pages 1-16, September.
    10. Josep Crous-Duran & Anil R. Graves & Silvestre García de Jalón & Sonja Kay & Margarida Tomé & Paul J. Burgess & Michail Giannitsopoulos & João H.N. Palma, 2020. "Quantifying Regulating Ecosystem Services with Increased Tree Densities on European Farmland," Sustainability, MDPI, vol. 12(16), pages 1-20, August.
    11. Staton, Tom & Walters, Richard J. & Smith, Jo & Girling, Robbie D., 2019. "Evaluating the effects of integrating trees into temperate arable systems on pest control and pollination," Agricultural Systems, Elsevier, vol. 176(C).

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