Estimating maize genetic erosion in modernized smallholder agriculture

Van Heerwaarden, Joost; Hellin, J.; Visser, R. F.; van Eeuwijk, F. A.

doi:10.1007/s00122-009-1096-0

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Estimating maize genetic erosion in modernized smallholder agriculture

research-article

Author(s): Joost van Heerwaarden ¹ ^, , J. Hellin ² , R. F. Visser ³ , F. A. van Eeuwijk ¹

Publication date (Electronic): 4 July 2009

Journal: TAG. Theoretical and Applied Genetics. Theoretische Und Angewandte Genetik

Publisher: Springer-Verlag

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Abstract

Replacement of crop landraces by modern varieties is thought to cause diversity loss. We studied genetic erosion in maize within a model system; modernized smallholder agriculture in southern Mexico. The local seed supply was described through interviews and in situ seed collection. In spite of the dominance of commercial seed, the informal seed system was found to persist. True landraces were rare and most informal seed was derived from modern varieties (creolized). Seed lots were characterized for agronomical traits and molecular markers. We avoided the problem of non-consistent nomenclature by taking individual seed lots as the basis for diversity inference. We defined diversity as the weighted average distance between seed lots. Diversity was calculated for subsets of the seed supply to assess the impact of replacing traditional landraces with any of these subsets. Results were different for molecular markers, ear- and vegetative/flowering traits. Nonetheless, creolized varieties showed low diversity for all traits. These varieties were distinct from traditional landraces and little differentiated from their ancestral stocks. Although adoption of creolized maize into the informal seed system has lowered diversity as compared to traditional landraces, genetic erosion was moderated by the distinct features offered by modern varieties.

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A single domestication for maize shown by multilocus microsatellite genotyping.

Yoshihiro Matsuoka, Yves Vigouroux, Major Goodman … (2002)

There exists extraordinary morphological and genetic diversity among the maize landraces that have been developed by pre-Columbian cultivators. To explain this high level of diversity in maize, several authors have proposed that maize landraces were the products of multiple independent domestications from their wild relative (teosinte). We present phylogenetic analyses based on 264 individual plants, each genotyped at 99 microsatellites, that challenge the multiple-origins hypothesis. Instead, our results indicate that all maize arose from a single domestication in southern Mexico about 9,000 years ago. Our analyses also indicate that the oldest surviving maize types are those of the Mexican highlands with maize spreading from this region over the Americas along two major paths. Our phylogenetic work is consistent with a model based on the archaeological record suggesting that maize diversified in the highlands of Mexico before spreading to the lowlands. We also found only modest evidence for postdomestication gene flow from teosinte into maize.