Wild or Introduced? Investigating the Genetic Landscape of Cacao Populations in South America

Wild or Introduced? Investigating the Genetic Landscape of Cacao Populations in South America

ABSTRACT Cacao (Theobroma cacao), the primary source for chocolate manufacturing, is native to the Upper Amazon basin. It was introduced into Mesoamerica by pre‐Columbian societies and later spread globally following European colonization, becoming a commercially significant crop. Today, cacao popul...

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Bibliographic Details
Main Authors: Matheus Colli‐Silva, James Edward Richardson, José Rubens Pirani, Antonio Figueira
Format: Article
Language:English
Published: Wiley 2025-07-01
Series:Ecology and Evolution
Subjects:
cocoa
crop genomics
domestication
genetic resources
historical geography
RAD‐seq
Online Access:https://doi.org/10.1002/ece3.71746
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Summary:ABSTRACT Cacao (Theobroma cacao), the primary source for chocolate manufacturing, is native to the Upper Amazon basin. It was introduced into Mesoamerica by pre‐Columbian societies and later spread globally following European colonization, becoming a commercially significant crop. Today, cacao populations exist along a continuum from wild to naturalized and cultivated forms across the Tropical Americas, complicating efforts to distinguish genuinely wild populations from those influenced by human activity. Here, we investigate genomic diversity, population structure, and domestication signals in three groups using RAD‐sequencing: Upper Amazonian populations (including Contamana, Marañón, Iquitos and Nanay), the Guiana population, and the Amelonado variety introduced into Eastern Brazil in the 18th century. The Upper Amazonian populations exhibited the highest genetic diversity and limited evidence of recent selection, reaffirming their role as the primary genetic source of cacao. The Amelonado group displayed signatures of artificial selection, including reduced genetic diversity and evidence of balancing selection, consistent with its introduction to Bahia before its later expansion to West Africa. The Guiana population showed intermediate genetic diversity and tight clustering but minimal differentiation from Upper Amazonian populations, suggesting they could represent an isolated wild lineage rather than an introduced group. These findings highlight the complexity of cacao's domestication history, shaped by multiple independent selection events and long‐term human influence. Understanding this continuum is important for unraveling the species' evolutionary history for supporting conservation and breeding strategies for cacao, a crop of major economic and cultural importance.
ISSN:2045-7758

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