Genetic diversity and population structure of two subspecies of western honey bees (Apis mellifera L.) in the Republic of South Africa as revealed by microsatellite genotyping

Genetic diversity and population structure of two subspecies of western honey bees (Apis mellifera L.) in the Republic of South Africa as revealed by microsatellite genotyping

Apis mellifera scutellata and Apis mellifera capensis, two native subspecies of western honey bees in the Republic of South Africa (RSA), are important to beekeepers in their native region because beekeepers use these bees for honey production and pollination purposes. Additionally, both bees are im...

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Main Authors: Amin Eimanifar, Johanna T. Pieplow, Alireza Asem, James D. Ellis
Format: Article
Language:English
Published: PeerJ Inc. 2020-01-01
Series:PeerJ
Subjects:
Apis mellifera scutellate
Apis mellifera capensis
Microsatellite genotyping
Population structure
Online Access:https://peerj.com/articles/8280.pdf
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spelling doaj-96faec1e4414435b8bd46e4562d84a0a2020-11-25T01:28:22ZengPeerJ Inc.PeerJ2167-83592020-01-018e828010.7717/peerj.8280Genetic diversity and population structure of two subspecies of western honey bees (Apis mellifera L.) in the Republic of South Africa as revealed by microsatellite genotypingAmin Eimanifar0Johanna T. Pieplow1Alireza Asem2James D. Ellis3Entomology and Nematology Department, Honey Bee Research and Extension Laboratory, Gainesville, FL, USAMolekulare Ökologie, Institut Für Biologie, Molekulare Ökologie, Martin-Luther-Universität Halle-Wittenberg, Halle, GermanyCollege of Fisheries and Life Science, Hainan Tropical Ocean University, Yucai Road, Sanya, ChinaEntomology and Nematology Department, Honey Bee Research and Extension Laboratory, Gainesville, FL, USAApis mellifera scutellata and Apis mellifera capensis, two native subspecies of western honey bees in the Republic of South Africa (RSA), are important to beekeepers in their native region because beekeepers use these bees for honey production and pollination purposes. Additionally, both bees are important invasive pests outside of their native ranges. Recently, whole mitogenome sequencing and single nucleotide polymorphisms were used to study their genetic diversity. To add to our knowledge of the molecular ecology of both bees, we tested the ability of microsatellites to be used as a tool to discriminate between A.m. capensis and A.m. scutellata. We analyzed the genetic variability and overall population structure of both bee subspecies and hybrids of the two by genotyping individuals collected from RSA (N = 813 bees from 75 apiaries) at 19 microsatellite DNA loci. Overall, populations averaged between 9.2 and 11.3 alleles per locus, with unbiased heterozygosity values ranging from 0.81 to 0.86 per population. Bayesian clustering analyses revealed two distinct evolutionary units, though the results did not match those of earlier morphometric and molecular analyses. This suggests that the microsatellites we tested were not sufficient for subspecies identification purposes, especially for Cape and hybrid bees. Nevertheless, the microsatellite data highlight the considerable genetic diversity within both populations and a larger-than-expected hybridization zone between the natural distributions of A.m. capensis and A.m. scutellata.https://peerj.com/articles/8280.pdfApis mellifera scutellateApis mellifera capensisMicrosatellite genotypingPopulation structure
collection DOAJ
language English
format Article
sources DOAJ
author Amin Eimanifar
Johanna T. Pieplow
Alireza Asem
James D. Ellis
spellingShingle Amin Eimanifar
Johanna T. Pieplow
Alireza Asem
James D. Ellis
Genetic diversity and population structure of two subspecies of western honey bees (Apis mellifera L.) in the Republic of South Africa as revealed by microsatellite genotyping
PeerJ
Apis mellifera scutellate
Apis mellifera capensis
Microsatellite genotyping
Population structure
author_facet Amin Eimanifar
Johanna T. Pieplow
Alireza Asem
James D. Ellis
author_sort Amin Eimanifar
title Genetic diversity and population structure of two subspecies of western honey bees (Apis mellifera L.) in the Republic of South Africa as revealed by microsatellite genotyping
title_short Genetic diversity and population structure of two subspecies of western honey bees (Apis mellifera L.) in the Republic of South Africa as revealed by microsatellite genotyping
title_full Genetic diversity and population structure of two subspecies of western honey bees (Apis mellifera L.) in the Republic of South Africa as revealed by microsatellite genotyping
title_fullStr Genetic diversity and population structure of two subspecies of western honey bees (Apis mellifera L.) in the Republic of South Africa as revealed by microsatellite genotyping
title_full_unstemmed Genetic diversity and population structure of two subspecies of western honey bees (Apis mellifera L.) in the Republic of South Africa as revealed by microsatellite genotyping
title_sort genetic diversity and population structure of two subspecies of western honey bees (apis mellifera l.) in the republic of south africa as revealed by microsatellite genotyping
publisher PeerJ Inc.
series PeerJ
issn 2167-8359
publishDate 2020-01-01
description Apis mellifera scutellata and Apis mellifera capensis, two native subspecies of western honey bees in the Republic of South Africa (RSA), are important to beekeepers in their native region because beekeepers use these bees for honey production and pollination purposes. Additionally, both bees are important invasive pests outside of their native ranges. Recently, whole mitogenome sequencing and single nucleotide polymorphisms were used to study their genetic diversity. To add to our knowledge of the molecular ecology of both bees, we tested the ability of microsatellites to be used as a tool to discriminate between A.m. capensis and A.m. scutellata. We analyzed the genetic variability and overall population structure of both bee subspecies and hybrids of the two by genotyping individuals collected from RSA (N = 813 bees from 75 apiaries) at 19 microsatellite DNA loci. Overall, populations averaged between 9.2 and 11.3 alleles per locus, with unbiased heterozygosity values ranging from 0.81 to 0.86 per population. Bayesian clustering analyses revealed two distinct evolutionary units, though the results did not match those of earlier morphometric and molecular analyses. This suggests that the microsatellites we tested were not sufficient for subspecies identification purposes, especially for Cape and hybrid bees. Nevertheless, the microsatellite data highlight the considerable genetic diversity within both populations and a larger-than-expected hybridization zone between the natural distributions of A.m. capensis and A.m. scutellata.
topic Apis mellifera scutellate
Apis mellifera capensis
Microsatellite genotyping
Population structure
url https://peerj.com/articles/8280.pdf
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