Abstract
BackgroundIn 2009, Spanish farmers reported a novel weed, now identified as a relative of maize’s ancestor, teosinte, in their maize fields. Introgression of the insect resistance transgene cry1Ab from genetically modified (GM) maize into populations of this weedy Spanish teosinte could endow it with additional defense mechanisms. The aims of this study were: (1) to test if hybridization between GM maize and weedy plants from Spain is possible; (2) to understand the relationship between transgene transcription activity, concentrations of the expected transgene product (Cry1Ab protein) and the bioactivity of the latter on target insect pests following transgene flow from GM maize into Spanish teosinte plants.ResultsWe demonstrated that hybridization between GM maize and the weedy Spanish teosinte is possible, with no observable barrier to the formation of crop/weed hybrids when teosinte served as pollen donor. When GM maize plants were used as pollen donors, significant crossing incompatibility was observed: hybrid plants produced only few “normal” seeds. Nevertheless, viable F1 seeds from GM pollen crossed onto teosinte were indeed obtained. The cry1Ab transgene was stably expressed as mRNA in all crossings and backgrounds. Similarly, toxicity on neonate Ostrinia nubilalis, presumably due to Cry1Ab protein, was consistently expressed in teosinte hybrids, with mortality rates 95% or higher after only 4 days exposure, similar to rates on parental GM maize plants. Nevertheless, no strong correlations were observed between transgene transcription levels and Cry1Ab concentrations, nor between Cry1Ab concentrations and insect mortality rates across all of the different genetic backgrounds.ConclusionsOur results establish fundamental parameters for environmental risk assessments in the European context: first, we show that crop/weed hybridization in fields where maize and teosinte exist sympatrically can lead to potentially catastrophic transfer of resistance traits into an already noxious weed; second, our results question the viability of using gene dosage to model and predict ecological performance in either the intended crop plant or the undesired teosinte weed. Significant questions remain that should be addressed in order to provide a scientific, sound approach to the management of this novel weed.
Highlights
In 2009, Spanish farmers reported a novel weed, identified as a relative of maize’s ancestor, teosinte, in their maize fields
We have shown a viable pathway for the acquisition of genetically modified (GM)-derived traits in a newly emerged, noxious weed
The cry1Ab transgene outcrossed into Spanish teosinte is expressed stably, producing the corresponding messenger ribonucleic acid (mRNA) and yielding a fully bioactive Bacillus thuringiensis (Bt) toxin
Summary
In 2009, Spanish farmers reported a novel weed, identified as a relative of maize’s ancestor, teosinte, in their maize fields. Teosinte is the common name for a series of related species, including the wild ancestor of maize The currently most accepted hypothesis is that maize Mexicana as one parental taxon, and an unidentified cultivated maize variety as the other [6] We refer to this specific population (a putative taxon) as “Spanish teosinte”. Spanish teosinte does not appear to group with any of the currently recognized teosinte taxa, including Zea mays ssp. Le Corre et al [7] added genomic information on teosinte plants that had been reported from French fields already decades ago suggesting that Zea mays ssp. Teosinte in other locales, including Southern France, does not display the aggressive weedy behavior observed in Spanish teosinte
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