Management and its relation to hybridization, clonality and genetic structure of the Mexican palm Brahea dulcis

► We examined changes at the molecular level of a traditionally-managed palm species. ► Traditional management of Brahea dulcis increases its genetic diversity. ► In managed palm populations natural hybridization was detected. ► Different management regimes of B. dulcis promote its clonal growth. Ru...

Full description

Saved in:
Bibliographic Details
Published in:Forest ecology and management 2012-12, Vol.285, p.92-100
Main Authors: Ramírez-Rodríguez, Rolando, Mussali-Galante, Patricia, Quero, Hermilo, Tovar-Sánchez, Efraín
Format: Article
Language:English
Subjects:
Animal and plant ecology
Animal, plant and microbial ecology
autocorrelation
Biological and medical sciences
Brahea
Clonal propagation
Cutting
DNA
Forestry
Fundamental and applied biological sciences. Psychology
gene flow
Genetic variation
Genetics
handicrafts
heterozygosity
Hybridization
indigenous species
Leaves
Management
Palm
plant density
Plants (organisms)
Populations
random amplified polymorphic DNA technique
Rural communities
sexual reproduction
Synecology
Terrestrial ecosystems
Traditional management
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:► We examined changes at the molecular level of a traditionally-managed palm species. ► Traditional management of Brahea dulcis increases its genetic diversity. ► In managed palm populations natural hybridization was detected. ► Different management regimes of B. dulcis promote its clonal growth. Rural communities commonly manage native species promoting changes in the diversity of natural biota. In Mexico, the palm Brahea dulcis is a resource traditionally managed by the rural community Nahuas of Huitziltepec, Eduardo Neri, Guerrero. This palm is used for traditional crafts. The continuous cutting of leaves promotes a physiognomic change in palm populations, high intensity cutting promotes shorter plants, while low intensity cutting promotes somewhat taller plants, but still shorter than unmanaged palms. In this study, we evaluated how different management regimes (harvesting leaves) of this palm by the rural community of Nahuas are related to hybridization, clonal and genetic structure using Random Amplification Polymorphic DNA (RAPD). The study was carried out at six sites with different management regimes (two sites per regime: high and low intensity cutting, and unmanaged palms). Plant density was highest under high-intensity cutting and lowest with no cutting. Autocorrelation analyses at the ramet level showed an aggregated distribution of related genotypes at short distances and a random spatial distribution at larger distances. Also, at the genet level the autocorrelation analyses showed a random distribution. Clonal diversity was high in both management regimes (high-intensity: D=0.96, G/N=0.60; low intensity: D=0.98, G/N=0.77) in comparison with unmanaged palm populations (D=0.99, G/N=0.88). Expected heterozygosity increased with cutting intensity (high-intensity (0.37)>low-intensity (0.25)>unmanaged (0.14). While genetic differentiation among populations showed an inverse pattern: unmanaged (Φ=0.26)>low intensity (Φ=0.19)>high intensity (Φ=0.13). The greatest differentiation was observed for cutting regime (Φst|covariates=0.4802), followed by population (Φst|covariates=0.2453) and geographic location (Φst|covariates=0.1378). We observed hybridization between B. dulcis and Brahea nitida and a unidirectional pattern of gene flow towards B. dulcis, only in managed populations. Traditional management of B. dulcis is based on empirical Nahuatl knowledge which promotes high levels of clonal and genetic diversity, and sporadic hybridization, probably d
ISSN:0378-1127
1872-7042
DOI:10.1016/j.foreco.2012.07.055