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Traceability in agriculture and food supply chain: a review of basic concepts, technological implications, and future prospects.
Opara, Linus U. "Traceability in agriculture and food supply chain: a review of basic concepts, technological implications, and future prospects." Journal of Food Agriculture and Environment 1 (2003): 101-106. -
The impact of the introduction of transgenic crops in Argentinean agriculture.
Trigo, Eduardo J., and Eugenio J. Cap. "The impact of the introduction of transgenic crops in Argentinean agriculture." (2004). -
Meteorological Input Data Requirements To Predict Cross-Pollination Of GMO Maize With Lagrangian Approaches.
LIPSIUS, Kai, et al. "Meteorological Input Data Requirements To Predict Cross-Pollination Of GMO Maize With Lagrangian Approaches." Environmental Biosafety Research 5.3 (2006): 151. Publisher Provided Full Text Searching File. Web. 18 Sept. 2016. -
The Strategy To Simulate The Cross-Pollination Rate For The Co-Existence Of Genetically Modified (GM) And Non-GM Crops By Using FPSOSVR.
Lee, Chien-Pang, et al. "The Strategy To Simulate The Cross-Pollination Rate For The Co-Existence Of Genetically Modified (GM) And Non-GM Crops By Using FPSOSVR." Chemometrics And Intelligent Laboratory Systems 122.(2013): 50-57. ScienceDirect. Web. 18 Sept. 2016. -
GMO, Conventional And Organic Crops: From Coexistence To Local Governance.
Bodiguel, Luc. "GMO, Conventional And Organic Crops: From Coexistence To Local Governance." Agriculture And Agricultural Science Procedia 8.Florence "Sustainability of Well-Being International Forum". 2015: 263-269. ScienceDirect. Web. 11 Sept. 2016. -
Improving The Management Of Coexistence Between GM And Non-GM Maize With A Spatially Explicit Model Of Cross-Pollination.
Ricci, Benoît, et al. "Improving The Management Of Coexistence Between GM And Non-GM Maize With A Spatially Explicit Model Of Cross-Pollination." European Journal Of Agronomy 77.(2016): 90-100. ScienceDirect. Web. 11 Sept. 2016.