Empirical Modeling of Genetically Modified Maize Grain Production Practices to Achieve European Union Labeling Thresholds

Gustafson, David I.; Brants, Ivo; Horak, Michael J.; Remund, K.M.; Rosenbaum, Eric W.; Soteres, John K.

doi:10.2135/cropsci2006.01.0060

Cited by 43 publications

(67 citation statements)

References 10 publications

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“…Van de Wiel et al (2009) in the field trials in the Netherlands concluded that the grain admixtures as a consequence of pollen mediated gene transfer from GM maize were much lower: 0.080-0.084% at 25 m and 0.005-0.007% at 250 m, respectively. Our results contributed to and confirmed several previous conclusions as published by Gustafson et al (2006), Messean et al (2006), Devos et al (2007), and Sandivo et al (2008) who observed that the maize pollen grains flow and pollen mediated gene transfer decline rapidly with increased distance. These studies do also draw the attention to the impact of the isolation distances for the implementation, as well as to the negative impact on the feasibility and production cost if disproportionate measures should be implemented.…”

Section: Methodssupporting

confidence: 93%

Effect of MON 810 cultivation and prevention to adventitious presence in non-GM fields: A case study in Slovakia

Mihalčík¹,

Hrčková²,

Singer³

et al. 2012

Plant Prot. Sci.

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Mihalčík P., Hrčková K., Singer M., Plačková A., Kraic J. (2012): Effect of MON 810 cultivation and prevention to adventitious presence in non-GM fields: A case study in Slovakia. Plant Protect. Sci., 48 (Special Issue): S11-S17.The efficiency of border rows to prevent the adventitious presence of GM maize in non-GM maize plots was evaluated as well as the effect of the MON 810 maize of the yield and self-protection against the European corn borer. The GM maize MON 810 event was drilled at 3 locations over the Slovakia and the grain samples were collected from the neighbouring conventional maize fields. The data obtained by Real-Time PCR indicate that coexistence between GM and conventional maize is feasible and the isolation distance of 200 m (respectively 100 border rows of conventional maize) separates GM maize from the conventional one more than sufficiently. The effective isolation distance is 3-4 times greater than the actually needed. The MON 810 revealed also the highest yield and the best self-protection against European corn borer in both growing seasons with different climatic conditions.

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Section: Methodssupporting

confidence: 93%

Effect of MON 810 cultivation and prevention to adventitious presence in non-GM fields: A case study in Slovakia

Mihalčík¹,

Hrčková²,

Singer³

et al. 2012

Plant Prot. Sci.

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“…Pollen-mediated gene flow has been quantified in detail in several crops using transgenic and marker genes including wheat (Triticum aestivum L.) (Gustafson et al, 2005;Hucl, 1996;Hucl and Matus-Cadiz, 2001;Matus-Cadiz et al, 2007), oilseed rape (B. napus) (Beckie et al, 2003;Damgaard and Kjellsson, 2005;Rieger et al, 2002;Weekes et al, 2005) and maize (Zea mays L.) (Goggi et al, 2006(Goggi et al, , 2007Gustafson et al, 2006;Weekes et al, 2007) (reviewed in Beckie andHall, 2008). Because of differences in research design and source plot size, studies are difficult to compare directly.…”

Section: Discussionmentioning

confidence: 99%

Pollen-mediated gene flow from transgenic safflower (CarthamustinctoriusL.) intended for plant molecular farming to conventional safflower

McPherson

Good

Topinka

et al. 2009

Environ. Biosafety Res.

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Field experiments were conducted in Chile and western Canada to measure short-distance (0 to 100 m) outcrossing from transgenic safflower (Carthamus tinctorius L.) intended for plant molecular farming to nontransgenic commodity safflower of the same variety. The transgenic safflower used as the pollen source was transformed with a construct for seed-specific expression of a high-value protein and constitutive expression of a gene conferring resistance to the broad-spectrum herbicide glufosinate. Progeny of non-transgenic plants grown in plots adjacent to the transgenic pollen source were screened for glufosinate resistance to measure outcrossing frequency. Outcrossing frequency differed among locations: values closest to the transgenic pollen source (0 to 3 m) ranged from 0.48 to 1.67% and rapidly declined to between 0.0024 to 0.03% at distances of 50 to 100 m. At each location, outcrossing frequency was spatially heterogeneous, indicating insects or wind moved pollen asymmetrically. A power analysis assuming a binomial distribution and a range of alpha values (type 1 error) was conducted to estimate an upper and lower confidence interval for the probable transgenic seed frequency in each sample. This facilitated interpretation when large numbers of seeds were screened from the outcrossing experiments and no transgenic seeds were found. This study should aid regulators and the plant molecular farming industry in developing confinement strategies to mitigate pollen mediated gene flow from transgenic to non-transgenic safflower.

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“…First, by separating the inner parts of neighboring fields, pollen barriers act as an isolation distance, in turn increasing the distance GM pollen has to travel for cross-fertilization. Second, a pollen barrier -if the GM and non-GM crops in question are the same species -introduces competing pollen and/or can serve as a physical barrier to the flow of air and, consequently, the flow of pollen [16,[27][28][29][30][31]. Accordingly, a pollen barrier reduces the extent of cross-fertilization much more effectively than an isolation perimeter of bare ground of the same width [32,33].…”

Section: Regulating Spatial Coexistence: Rigid Versus Flexible Regulamentioning

confidence: 99%

Regulating coexistence of GM and non-GM crops without jeopardizing economic incentives

Demont

Devos

2008

Trends in Biotechnology

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Empirical Modeling of Genetically Modified Maize Grain Production Practices to Achieve European Union Labeling Thresholds

Cited by 43 publications

References 10 publications

Effect of MON 810 cultivation and prevention to adventitious presence in non-GM fields: A case study in Slovakia

Effect of MON 810 cultivation and prevention to adventitious presence in non-GM fields: A case study in Slovakia

Pollen-mediated gene flow from transgenic safflower (CarthamustinctoriusL.) intended for plant molecular farming to conventional safflower

Regulating coexistence of GM and non-GM crops without jeopardizing economic incentives

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