Abstract
Genetic modification (GM) of crop plants is frequently described by its proponents as a continuation of the ancient process of domestication. While domestication, crop breeding, and GM all modify the genomes and phenotypes of plants, GM fundamentally differs from domestication in terms of the biological and sociopolitical processes by which change occurs, and the subsequent impacts on agrobiodiversity and seed sovereignty. We review the history of domestication, crop breeding, and GM, and show that crop breeding and GM are continuous with each other in many important ways, but represent a momentous break from domestication because they move plant evolution off of farms and into centralized institutions. The social contexts in which these processes unfold dictate who holds rights to germplasm and agricultural knowledge, shape incentives to effect particular kinds of changes in our crops, and create or constrict biodiversity. Presenting GM as a continuation of domestication puts forward a false equivalency that fundamentally misrepresents how domestication, crop breeding, and GM occur. In doing so, this narrative diminishes public understanding of these important processes and obscures the effects of industrial agriculture on in situ biodiversity and the practice of farming. This misrepresentation is used in public-facing science communication by representatives of the biotechnology industry to silence meaningful debate on GM by convincing the public that it is the continuation of an age-old process that underlies all agricultural societies.
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Notes
Laboratory-based biotechnology is widely described by different names, each having their own pitfalls. “Genetic engineering” may seem inaccurate to those with engineering expertise, transgenic does not apply to applications of new tools like CRISPR where genes are changed rather than transferred, and gene editing does not accurately capture the random elements of plants transformed via gene gun or Agrobacterium-assisted events. Although all agricultural processes described here involve modifying genes, we have elected to use genetically modified as the term with the widest currency for referring to laboratory-based biotechnology among social and natural scientists.
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Mueller, N.G., Flachs, A. Domestication, crop breeding, and genetic modification are fundamentally different processes: implications for seed sovereignty and agrobiodiversity. Agric Hum Values 39, 455–472 (2022). https://doi.org/10.1007/s10460-021-10265-3
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DOI: https://doi.org/10.1007/s10460-021-10265-3