Genetic diversity and differentiation among the species of African mahogany (Khaya spp.) based on a large SNP array

The genus Khaya includes some of the highest-value timber species in natural forests in Africa, which are under heavy exploitation pressure. Genetic identification of Khaya species is important to confirm the taxonomic classification for biodiversity conservation purposes and as a forensic tool aidi...

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Bibliographic Details
Published in:Conservation genetics 2019-10, Vol.20 (5), p.1035-1044
Main Authors: Pakull, Birte, Ekué, Marius R. M., Bouka Dipelet, Ulrich G., Doumenge, Charles, McKey, Doyle B., Loumeto, Jean Joël, Opuni-Frimpong, Emmanuel, Yorou, Soulemane N., Nacoulma, Blandine M. Y., Guelly, Kudzo A., Ramamonjisoa, Lolona, Thomas, Darren, Guichoux, Erwan, Loo, Judy, Degen, Bernd
Format: Article
Language:English
Subjects:
Animal Genetics and Genomics
Bayesian analysis
Biodiversity
Biomedical and Life Sciences
Chloroplasts
Classification
Clustering
Conservation Biology/Ecology
Ecology
Evolutionary Biology
Forensic science
Genetic diversity
Hybridization
Khaya
Khaya nyasica
Life Sciences
Logging
Mahogany
Mitochondria
Plant Genetics and Genomics
Research Article
Single-nucleotide polymorphism
Species
Species classification
Timber
Trees
Tropical forests
Wildlife conservation
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Summary:The genus Khaya includes some of the highest-value timber species in natural forests in Africa, which are under heavy exploitation pressure. Genetic identification of Khaya species is important to confirm the taxonomic classification for biodiversity conservation purposes and as a forensic tool aiding law enforcement in the fight against illegal logging. We collected samples from a total of 2222 trees belonging to five or six (depending on classification) different Khaya species ( K. ivorensis , K. anthotheca/K. nyasica , K. grandifoliola , K. senegalensis , K. madagascariensis ). Representative sampling was conducted over the natural ranges of all sampled Khaya species, in humid tropical forest and savanna zones. We genotyped individuals based on 101 molecular markers (67 nuclear, 11 chloroplast and 22 mitochondrial SNPs, 1 chloroplast indel). Bayesian clustering produced three main genetic groups assigning all K. ivorensis and all K. senegalensis trees, respectively, in two different clusters and all remaining individuals in a third cluster. Genetic self-assignment tests with all 101 SNPs had success rates of 97–100% for all species except for K. nyasica and K. madagascariensis , which could not be clearly distinguished from each other. A success rate for species identification nearly as high was observed using a subset of 15 highly differentiated SNPs. There was only very little evidence for hybridization among species and the vast majority (> 97%) of individuals were assigned to the same species group as identified based on morphological characters.
ISSN:1566-0621
1572-9737
DOI:10.1007/s10592-019-01191-3