Abstract
BackgroundCharacterizing the spatial patterns of gene flow from transgenic crops is challenging, making it difficult to design containment strategies for markets that regulate the adventitious presence of transgenes. Insecticidal Bacillus thuringiensis (Bt) cotton is planted on millions of hectares annually and is a potential source of transgene flow.Methodology/Principal FindingsHere we monitored 15 non-Bt cotton (Gossypium hirsutum, L.) seed production fields (some transgenic for herbicide resistance, some not) for gene flow of the Bt cotton cry1Ac transgene. We investigated seed-mediated gene flow, which yields adventitious Bt cotton plants, and pollen-mediated gene flow, which generates outcrossed seeds. A spatially-explicit statistical analysis was used to quantify the effects of nearby Bt and non-Bt cotton fields at various spatial scales, along with the effects of pollinator abundance and adventitious Bt plants in fields, on pollen-mediated gene flow. Adventitious Bt cotton plants, resulting from seed bags and planting error, comprised over 15% of plants sampled from the edges of three seed production fields. In contrast, pollen-mediated gene flow affected less than 1% of the seed sampled from field edges. Variation in outcrossing was better explained by the area of Bt cotton fields within 750 m of the seed production fields than by the area of Bt cotton within larger or smaller spatial scales. Variation in outcrossing was also positively associated with the abundance of honey bees.Conclusions/SignificanceA comparison of statistical methods showed that our spatially-explicit analysis was more powerful for understanding the effects of surrounding fields than customary models based on distance. Given the low rates of pollen-mediated gene flow observed in this study, we conclude that careful planting and screening of seeds could be more important than field spacing for limiting gene flow.
Highlights
Gene flow between sexually compatible crops typically decreases as the distance between crops increases
We considered the interaction between adventitious Bacillus thuringiensis (Bt) plants and the area of Bt cotton at each spatial scale, as we suspected that adventitious Bt plants would diminish the association between nearby Bt cotton fields and outcrossing, based on findings from our 2004 field study [5]
Seed-mediated gene flow resulted primarily from adventitious presence in the planted seed and from planting error, some fields with no evidence of these sources contained low percentages of adventitious Bt plants (Table 3)
Summary
Gene flow between sexually compatible crops typically decreases as the distance between crops increases. Growers who intend to minimize gene flow from surrounding crop varieties commonly do so by increasing the spacing between fields [1]. Pollen-mediated transgene flow (‘‘outcrossing’’) occurs when plants without a particular transgene are cross-pollinated by plants with the transgene. If the resulting seeds are planted, ‘‘adventitious presence’’ occurs in fields the following year. Seed-mediated transgene flow results from volunteer transgenic plants emerging in fields, adventitious presence in the planted seed, or human error during planting, harvesting, or seed processing. Seed-mediated gene flow can enhance pollen-mediated gene flow when ‘‘adventitious plants’’ arising from seed-mediated gene flow cross-pollinate surrounding plants [3,5,13,14]. Characterizing the spatial patterns of gene flow from transgenic crops is challenging, making it difficult to design containment strategies for markets that regulate the adventitious presence of transgenes. Insecticidal Bacillus thuringiensis (Bt) cotton is planted on millions of hectares annually and is a potential source of transgene flow
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