Carmen J. Figueredo scite author profile

BackgroundAgave inaequidens and A. hookeri are anciently used species for producing the fermented beverage ‘pulque’, food and fiber in central Mexico. A. inaequidens is wild and cultivated and A. hookeri only cultivated, A. inaequidens being its putative wild relative. We analysed purposes and mechanisms of artificial selection and phenotypic divergences between wild and managed populations of A. inaequidens and between them and A. hookeri, hypothesizing phenotypic divergence between wild and domesticated populations of A. inaequidens in characters associated to domestication, and that A. hookeri would be phenotypically similar to cultivated A. inaequidens.MethodsWe studied five wild and five cultivated populations of A. inaequidens, and three cultivated populations of A. hookeri. We interviewed agave managers documenting mechanisms of artificial selection, and measured 25 morphological characters. Morphological similarity and differentiation among plants and populations were analysed through multivariate methods and ANOVAs.ResultsPeople recognized 2–8 variants of A. inaequidens; for cultivation they select young plants collected in wild areas recognized as producing the best quality mescal agaves. Also, they collect seeds of the largest and most vigorous plants, sowing seeds in plant beds and then transplanting the most vigorous plantlets into plantations. Multivariate methods classified separately the wild and cultivated populations of A. inaequidens and these from A. hookeri, mainly because of characters related with plant and teeth size. The cultivated plants of A. inaequidens are significantly bigger with larger teeth than wild plants. A. hookeri are also significatly bigger plants with larger leaves but lower teeth density and size than A. inaequidens. Some cultivated plants of A. inaequidens were classified as A. hookeri, and nearly 10% of A. hookeri as cultivated A. inaequidens. Wild and cultivated populations of A. inaequidens differed in 13 characters, whereas A. hookeri differed in 23 characters with wild populations and only in 6 characters with cultivated populations of A. inaequidens.ConclusionsDivergence between wild and cultivated populations of A. inaequidens reflect artificial selection. A. hookeri is similar to the cultivated A. inaequidens, which supports the hypothesis that A. hookeri could be the extreme of a domestication gradient of a species complex.

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Evolutionary Ethnobotanical Studies of Incipient Domestication of Plants in Mesoamerica

Casas

Blancas

Otero-Arnaiz

et al. 2016

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Population genetic diversity and structure of Pilosocereus tillianus (Cactaceae, Cereeae), a columnar cactus endemic to the Venezuelan Andes

Figueredo

Nassar

García-Rivas

et al. 2010

Journal of Arid Environments

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Genetic structure of coexisting wild and managed agave populations: implications for the evolution of plants under domestication

et al. 2015

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Agave inaequidens is used to produce mescal, and a management gradient from gathered wild, silvicultural and cultivated plantations has been documented. We expected different levels of genetic diversity and structure associated with management. Through 10 nuclear microsatellite loci we compared population genetics parameters and found that A. inaequidens exhibits high levels of genetic diversity (He=0.707) and moderate genetic structure (FST=0.112) with no differences among wild and managed populations. Bayesian analysis indicated that genetic clusters best fit with the corresponding habitats where populations grow. Natural mechanisms of gene flow and movement of agave propagules among populations by people explain these patterns.

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