Global population genetic structure and lineage differentiation of the stable fly, Stomoxys calcitrans

The bloodsucking fly, Stomoxys calcitrans (Diptera: Muscidae), is a cosmopolitan pest that transmits potential pathogens mechanically. We conduct phylogeographic analyses of S. calcitrans to resolve its global population genetic structure for establishing baseline of molecular studies. Results from...

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Published inMedical and veterinary entomology Vol. 37; no. 2; pp. 371 - 380
Main Authors Tsai, Cheng‐Lung, Lu, Chia‐Ning, Tzeng, Hau‐You, Krafsur, Elliot S., Tu, Wu‐Chun, Yeh, Wen‐Bin
Format Journal Article
LanguageEnglish
Published Oxford, UK Blackwell Publishing Ltd 01.06.2023
Wiley Subscription Services, Inc
Subjects
Animals
Anthropogenic factors
Biogeography
cryptic species
differentiation history
Divergence
Ethiopia
Gene flow
genetic recombination
Genetic structure
Genetic Structures
geographical distribution
Livestock
livestock and meat industry
Mammals
medical and veterinary entomology
Mitochondria
mitochondrial genes
Muscidae - genetics
Nearctic region
Palearctic region
pests
Phylogeography
population genetic structure
Population genetics
Stomoxys calcitrans
Ethiopia
population genetic structure
Stomoxys calcitrans
differentiation history
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Abstract The bloodsucking fly, Stomoxys calcitrans (Diptera: Muscidae), is a cosmopolitan pest that transmits potential pathogens mechanically. We conduct phylogeographic analyses of S. calcitrans to resolve its global population genetic structure for establishing baseline of molecular studies. Results from mitochondrial gene suggested that the major divergence of S. calcitrans predominantly occurred 0.32–0.47 million years ago (Mya) and the subsequent diversifications took place during 0.13–0.27 Mya. The Ethiopian region was deduced as the most likely origin of S. calcitrans and the Nearctic lineages were considered to have originated from Oriental or Palaearctic regions. Our results further revealed that each biogeographic region of S. calcitrans likely maintains its genetic specialty, and yet, those non‐monophyletic relationships were possibly caused by ancestral retention, dispersal with mammals, long‐distance migration, and the international livestock industries. Moreover, the three highly diverged Ethiopian lineages may be putative cryptic species that require clarification of their veterinary importance. Unravelling the genetic structure of stable fly and preventing gene flow among biogeographic regions through anthropogenic activities are thus pivotal in livestock industry administration, particularly genetic exchange among differentiated lineages that might lead to the consequence of ecological trait alterations. Each biogeographic region of S. calcitrans maintains its genetic specialty. Ancestral retention, historical dispersal, long‐distance migration, and the international transportation shape the genetic structure of stable fly. Three highly diverged Ethiopian lineages are required to clarify their veterinary importance.
AbstractList The bloodsucking fly, Stomoxys calcitrans (Diptera: Muscidae), is a cosmopolitan pest that transmits potential pathogens mechanically. We conduct phylogeographic analyses of S. calcitrans to resolve its global population genetic structure for establishing baseline of molecular studies. Results from mitochondrial gene suggested that the major divergence of S. calcitrans predominantly occurred 0.32–0.47 million years ago (Mya) and the subsequent diversifications took place during 0.13–0.27 Mya. The Ethiopian region was deduced as the most likely origin of S. calcitrans and the Nearctic lineages were considered to have originated from Oriental or Palaearctic regions. Our results further revealed that each biogeographic region of S. calcitrans likely maintains its genetic specialty, and yet, those non‐monophyletic relationships were possibly caused by ancestral retention, dispersal with mammals, long‐distance migration, and the international livestock industries. Moreover, the three highly diverged Ethiopian lineages may be putative cryptic species that require clarification of their veterinary importance. Unravelling the genetic structure of stable fly and preventing gene flow among biogeographic regions through anthropogenic activities are thus pivotal in livestock industry administration, particularly genetic exchange among differentiated lineages that might lead to the consequence of ecological trait alterations.
The bloodsucking fly, Stomoxys calcitrans (Diptera: Muscidae), is a cosmopolitan pest that transmits potential pathogens mechanically. We conduct phylogeographic analyses of S. calcitrans to resolve its global population genetic structure for establishing baseline of molecular studies. Results from mitochondrial gene suggested that the major divergence of S. calcitrans predominantly occurred 0.32–0.47 million years ago (Mya) and the subsequent diversifications took place during 0.13–0.27 Mya. The Ethiopian region was deduced as the most likely origin of S. calcitrans and the Nearctic lineages were considered to have originated from Oriental or Palaearctic regions. Our results further revealed that each biogeographic region of S. calcitrans likely maintains its genetic specialty, and yet, those non‐monophyletic relationships were possibly caused by ancestral retention, dispersal with mammals, long‐distance migration, and the international livestock industries. Moreover, the three highly diverged Ethiopian lineages may be putative cryptic species that require clarification of their veterinary importance. Unravelling the genetic structure of stable fly and preventing gene flow among biogeographic regions through anthropogenic activities are thus pivotal in livestock industry administration, particularly genetic exchange among differentiated lineages that might lead to the consequence of ecological trait alterations. Each biogeographic region of S. calcitrans maintains its genetic specialty. Ancestral retention, historical dispersal, long‐distance migration, and the international transportation shape the genetic structure of stable fly. Three highly diverged Ethiopian lineages are required to clarify their veterinary importance.
The bloodsucking fly, Stomoxys calcitrans (Diptera: Muscidae), is a cosmopolitan pest that transmits potential pathogens mechanically. We conduct phylogeographic analyses of S. calcitrans to resolve its global population genetic structure for establishing baseline of molecular studies. Results from mitochondrial gene suggested that the major divergence of S. calcitrans predominantly occurred 0.32-0.47 million years ago (Mya) and the subsequent diversifications took place during 0.13-0.27 Mya. The Ethiopian region was deduced as the most likely origin of S. calcitrans and the Nearctic lineages were considered to have originated from Oriental or Palaearctic regions. Our results further revealed that each biogeographic region of S. calcitrans likely maintains its genetic specialty, and yet, those non-monophyletic relationships were possibly caused by ancestral retention, dispersal with mammals, long-distance migration, and the international livestock industries. Moreover, the three highly diverged Ethiopian lineages may be putative cryptic species that require clarification of their veterinary importance. Unravelling the genetic structure of stable fly and preventing gene flow among biogeographic regions through anthropogenic activities are thus pivotal in livestock industry administration, particularly genetic exchange among differentiated lineages that might lead to the consequence of ecological trait alterations.The bloodsucking fly, Stomoxys calcitrans (Diptera: Muscidae), is a cosmopolitan pest that transmits potential pathogens mechanically. We conduct phylogeographic analyses of S. calcitrans to resolve its global population genetic structure for establishing baseline of molecular studies. Results from mitochondrial gene suggested that the major divergence of S. calcitrans predominantly occurred 0.32-0.47 million years ago (Mya) and the subsequent diversifications took place during 0.13-0.27 Mya. The Ethiopian region was deduced as the most likely origin of S. calcitrans and the Nearctic lineages were considered to have originated from Oriental or Palaearctic regions. Our results further revealed that each biogeographic region of S. calcitrans likely maintains its genetic specialty, and yet, those non-monophyletic relationships were possibly caused by ancestral retention, dispersal with mammals, long-distance migration, and the international livestock industries. Moreover, the three highly diverged Ethiopian lineages may be putative cryptic species that require clarification of their veterinary importance. Unravelling the genetic structure of stable fly and preventing gene flow among biogeographic regions through anthropogenic activities are thus pivotal in livestock industry administration, particularly genetic exchange among differentiated lineages that might lead to the consequence of ecological trait alterations.
The bloodsucking fly, Stomoxys calcitrans (Diptera: Muscidae), is a cosmopolitan pest that transmits potential pathogens mechanically. We conduct phylogeographic analyses of S . calcitrans to resolve its global population genetic structure for establishing baseline of molecular studies. Results from mitochondrial gene suggested that the major divergence of S . calcitrans predominantly occurred 0.32–0.47 million years ago (Mya) and the subsequent diversifications took place during 0.13–0.27 Mya. The Ethiopian region was deduced as the most likely origin of S . calcitrans and the Nearctic lineages were considered to have originated from Oriental or Palaearctic regions. Our results further revealed that each biogeographic region of S . calcitrans likely maintains its genetic specialty, and yet, those non‐monophyletic relationships were possibly caused by ancestral retention, dispersal with mammals, long‐distance migration, and the international livestock industries. Moreover, the three highly diverged Ethiopian lineages may be putative cryptic species that require clarification of their veterinary importance. Unravelling the genetic structure of stable fly and preventing gene flow among biogeographic regions through anthropogenic activities are thus pivotal in livestock industry administration, particularly genetic exchange among differentiated lineages that might lead to the consequence of ecological trait alterations.
Author Tu, Wu‐Chun
Tsai, Cheng‐Lung
Yeh, Wen‐Bin
Lu, Chia‐Ning
Tzeng, Hau‐You
Krafsur, Elliot S.
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Keywords population genetic structure
Stomoxys calcitrans
differentiation history
Language English
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Notes Cheng‐Lung Tsai and Chia‐Ning Lu contributed equally to this work.
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Snippet The bloodsucking fly, Stomoxys calcitrans (Diptera: Muscidae), is a cosmopolitan pest that transmits potential pathogens mechanically. We conduct...
The bloodsucking fly, Stomoxys calcitrans (Diptera: Muscidae), is a cosmopolitan pest that transmits potential pathogens mechanically. We conduct...
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StartPage 371
SubjectTerms Animals
Anthropogenic factors
Biogeography
cryptic species
differentiation history
Divergence
Ethiopia
Gene flow
genetic recombination
Genetic structure
Genetic Structures
geographical distribution
Livestock
livestock and meat industry
Mammals
medical and veterinary entomology
Mitochondria
mitochondrial genes
Muscidae - genetics
Nearctic region
Palearctic region
pests
Phylogeography
population genetic structure
Population genetics
Stomoxys calcitrans
Title Global population genetic structure and lineage differentiation of the stable fly, Stomoxys calcitrans
URI https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fmve.12637
https://www.ncbi.nlm.nih.gov/pubmed/36734022
https://www.proquest.com/docview/2814253657
https://www.proquest.com/docview/2773115467
https://www.proquest.com/docview/2834200320
Volume 37
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