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Using relational decision trees to model out-crossing rates in a multi-field setting

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  • Debeljak, Marko
  • Trajanov, Aneta
  • Stojanova, Daniela
  • Leprince, Florence
  • Džeroski, Sašo

Abstract

Nearly three-quarters of the genetically modified maize (the insect resistant type MON 810, also called Bt maize) produced in the EU are cultivated in Spain, where the share of Bt maize cultivation in some regions (Catalonia) is very high (above 70%). In order to ensure coexistence with the production of conventional maize and satisfy the 0.9% EU threshold for adventitious presence of authorized genetically modified (GM) material in conventional (non-GM) maize crops, a set of preventive coexistence measures must be applied. These measures usually include the setup of large and fixed isolation distances, pollen barriers, flowering coincidence, crop rotation and other measures, which are very hard to fulfill in a multi-field setting. Basic empirical and modeling studies that explore the feasibility of coexistence between GM and non-GM crops focus on pair-based interactions between fields while multi-field studies build upon them, attempting to consider the complexity of gene flow under crop management practices.

Suggested Citation

  • Debeljak, Marko & Trajanov, Aneta & Stojanova, Daniela & Leprince, Florence & Džeroski, Sašo, 2012. "Using relational decision trees to model out-crossing rates in a multi-field setting," Ecological Modelling, Elsevier, vol. 245(C), pages 75-83.
    • Handle: RePEc:eee:ecomod:v:245:y:2012:i:c:p:75-83
    DOI: 10.1016/j.ecolmodel.2012.04.015
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    References listed on IDEAS

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    1. Demont, Matty & Daems, Wim & Dillen, Koen & Mathijs, Erik & Sausse, Christophe & Tollens, Eric, 2008. "Regulating coexistence in Europe: Beware of the domino-effect!," Ecological Economics, Elsevier, vol. 64(4), pages 683-689, February.
    2. Marta Czarnak-Klos & Emilio Rodriguez Cerezo, 2010. "European Coexistence Bureau (ECoB) - Best Practice Document for Coexistence of Genetically Modified Crops with Conventional and Organic Farming. 1. Maize Crop Production," JRC Research Reports JRC59319, Joint Research Centre.
    3. Bohanec, Marko & Messéan, Antoine & Scatasta, Sara & Angevin, Frédérique & Griffiths, Bryan & Krogh, Paul Henning & Žnidaršič, Martin & Džeroski, Sašo, 2008. "A qualitative multi-attribute model for economic and ecological assessment of genetically modified crops," Ecological Modelling, Elsevier, vol. 215(1), pages 247-261.
    4. Ivanovska, Aneta & Todorovski, Ljupčo & Debeljak, Marko & Džeroski, Sašo, 2009. "Modelling the outcrossing between genetically modified and conventional maize with equation discovery," Ecological Modelling, Elsevier, vol. 220(8), pages 1063-1072.
    5. Belcher, Ken & Nolan, James & Phillips, Peter W.B., 2005. "Genetically modified crops and agricultural landscapes: spatial patterns of contamination," Ecological Economics, Elsevier, vol. 53(3), pages 387-401, May.
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