Assessing genetic diversity of Dalbergia stevensonii: an endangered species in Guatemal

Ruiz-Chutan, Jose A.; Manourova, Anna; Degu, Hewan Demissie; Berduo-Sandoval, Julio E.; Kalousova, Marie; Barrios, Sara; Villanueva-Gonzalez, Carlos E.; Herrera, Myrna; Lojka, Bohdan

doi:10.4067/S0717-92002024000200233

Research article2024Peer reviewedOpen access

Assessing genetic diversity of Dalbergia stevensonii: an endangered species in Guatemal

Ruiz-Chutan, Jose A.; Manourova, Anna; Degu, Hewan Demissie; Berduo-Sandoval, Julio E.; Kalousova, Marie; Barrios, Sara; Villanueva-Gonzalez, Carlos E.; Herrera, Myrna; Lojka, Bohdan

Abstract

Owing to extensive overexploitation and continuous habitat loss in recent decades, Dalbergia stevensonii has become endangered in Central America and its place of origin. Genetic diversity is essential for ensuring the long-term survival of the species and is vital in breeding programs. However, knowledge of the genetic diversity of D. stevensonii is limited, as no study has been conducted to estimate the population variability in Guatemala. This study is the first to determine the genetic diversity and structure of wild populations of D. stevensonii in Guatemala using molecular markers. The genetic diversity of 90 wild D. stevensonii trees from six populations located in their natural range is currently being evaluated. Genetic diversity was moderate, with an average of 5.83 alleles per locus, a mean Shannon index value of 1.42, and observed and expected heterozygosity of 0.32 and 0.37, respectively. AMOVA indicated that only 6 % of the genetic variation was between populations, and genetic distance values (pairwise F-ST) suggested moderate differentiation between populations. STRUCTURE and DAPC analyses revealed the existence of three clusters for the 90 samples, while the genetic differentiation among populations is attributed more to genetics than to geographic distance. Conservation of the genetic diversity of D. stevensonii is critical to ensure its long-term survival, and the success of breeding programs focused on improving the traits and characteristics of the species, such as growth rate, wood quality, and resistance to pests and diseases. These findings provide a crucial genetic basis for conservation, management, and restoration of this endemic species.

Keywords

conservation; indigenous treesx; population structure; microsatellites; habitat fragmentation

Published in

Bosque
2024, volume: 45, number: 2, pages: 233-244
Publisher: UNIV AUSTRAL CHILE, FAC CIENCIAS FORESTALES

SLU Authors

Manourova, Anna
- Department of Plant Breeding, Swedish University of Agricultural Sciences

Associated SLU-program

SLU Plant Protection Network

UKÄ Subject classification

Forest Science

Publication identifier

DOI: https://doi.org/10.4067/S0717-92002024000200233

Permanent link to this page (URI)

https://res.slu.se/id/publ/140685