4.5 Article

Geographic Patterns of Genetic Variation among Cacao (Theobroma cacao L.) Populations Based on Chloroplast Markers

Journal

DIVERSITY-BASEL
Volume 13, Issue 6, Pages -

Publisher

MDPI
DOI: 10.3390/d13060249

Keywords

cacao; chloroplast haplotypes; geographic origin; chocolate; crop dispersal; SSR; microsatellite markers

Funding

  1. German Academic Exchange service (Deutscher Akademischer Austauschdienst, DAAD)

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The study revealed a geographic-specific diversity in chloroplast genetics of cacao tree, with the highest haplotype variation observed in western Amazonia. Some haplotypes may have undergone long-distance seed dispersal from west to east in the Amazon basin. The chloroplast haplotypes of cacao populations are associated with the genetic groups identified by previous nuclear SSR analysis.
The cacao tree (Theobroma cacao L.) is native to the Amazon basin and widely cultivated in the tropics to produce seeds, the valuable raw material for the chocolate industry. Conservation of cacao genetic resources and their availability for breeding and production programs are vital for securing cacao supply. However, relatively little is still known about the phylogeographic structure of natural cacao populations. We studied the geographic distribution of cpDNA variation in different populations representing natural cacao stands, cacao farms in Ecuador, and breeding populations. We used six earlier published cacao chloroplast microsatellite markers to genotype 233 cacao samples. In total, 23 chloroplast haplotypes were identified. The highest variation of haplotypes was observed in western Amazonia including geographically restricted haplotypes. Two observed haplotypes were widespread across the Amazon basin suggesting long distance seed dispersal from west to east in Amazonia. Most cacao genetic groups identified earlier using nuclear SSRs are associated with specific chloroplast haplotypes. A single haplotype was common in selections representing cacao plantations in west Ecuador and reference Trinitario accessions. Our results can be used to determine the chloroplast diversity of accessions and in combination with phenotypic assessments can help to select geographically distinctive varieties for cacao breeding programs.

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