# Genomic structure, ecological suitability and biogeographic history of the palm Acrocomia aculeata across Central America

**Authors:** Jonathan A. Morales-Marroquín, Erick René López de Paz, Rocío Silva-Rivera, Ana Flávia Francisconi, Roger Alejandro Orellana-Hernandez, José M. Palacios, Emmanuel Araya-Valverde, Elizabeth Arnáez−Serrano, João Victor da Silva Rabelo-Araujo, Caroline Bertocco Garcia, Matheus Scaketti, Carlos A. Colombo, Brenda Gabriela Díaz-Hernández, José Baldin Pinheiro, Maria Imaculada Zucchi

PMC · DOI: 10.3389/fpls.2025.1724384 · Frontiers in Plant Science · 2026-01-27

## TL;DR

This study explores the genetic diversity and ecological distribution of the palm Acrocomia aculeata across Central America, revealing distinct genomic clusters and suitable habitats.

## Contribution

The study provides new insights into the genomic structure and biogeographic history of A. aculeata in Central America, identifying key regions for conservation and breeding.

## Key findings

- Three major genomic clusters were identified in A. aculeata: Mesoamerican, Costa Rican, and Panamanian.
- The Mesoamerican cluster showed the highest genetic diversity and unique signatures, suggesting historical migration patterns.
- Ecological niche models identified suitable habitats in Central American lowlands, forests, and agroecosystems.

## Abstract

Central America is an understudied global hotspot of plant biodiversity and harbors Acrocomia aculeata (Coyol or Macaúba), a neotropical palm with significant potential for oil and biofuel production. Historically, the region has functioned as a biogeographic land bridge, an isthmus, connecting North and South American biota. Here, we investigate how genomic diversity and potential distribution patterns of A. aculeata are shaped across Central America. A total of 259 samples were collected from Guatemala, Honduras, Nicaragua, Costa Rica, and Panama, covering the full extent of the Central American isthmus. Using a double-digest genotyping-by-sequencing (ddGBS) approach and ecological niche modeling, we assessed variation at 1,523 single nucleotide polymorphisms (SNPs) and evaluated environmental suitability across the region. Our analyses reveal three major genomic clusters: Mesoamerican, Costa Rican, and Panamanian, each comprising subpopulations with distinct levels of genetic diversity. The Mesoamerican group (Guatemala, Honduras, and northern Nicaragua) exhibited the highest diversity and unique genetic signatures, likely reflecting historical migrations and acting as a biodiversity cradle during periods when southern portions of the isthmus were submerged. Biogeographic features such as the Nicaraguan Depression and the Talamanca Cordillera contributed to regional genetic differentiation. Ecological niche models identified Central American pacific lowlands, forested areas, rangelands, and agroecosystems as suitable habitats for A. aculeata. Our combined results reflect the evolutionary history and population structure of A. aculeata in Central America, highlighting the influence of South American source populations and regional barriers. These findings provide a critical foundation for conservation and breeding programs aiming to preserve the genetic diversity and adaptive potential of A. aculeata in a rapidly changing and neglected biodiversity hotspot.

## Linked entities

- **Species:** Acrocomia aculeata (taxon 169987)

## Full-text entities

- **Chemicals:** oil (MESH:D009821)
- **Species:** Acrocomia aculeata (species) [taxon 169987]

## Full text

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## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12886420/full.md

## References

82 references — full list in the complete paper: https://tomesphere.com/paper/PMC12886420/full.md

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Source: https://tomesphere.com/paper/PMC12886420