Differences in speciation progress in feather mites (Analgoidea) inhabiting the same host

Differences in speciation progress in feather mites (Analgoidea) inhabiting the same host: the case of Zachvatkinia and Alloptes living on arctic and long-tailed skuas

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

Standard

Differences in speciation progress in feather mites (Analgoidea) inhabiting the same host : the case of Zachvatkinia and Alloptes living on arctic and long-tailed skuas. / Dabert, Miroslawa; Coulson, Stephen J; Gwiazdowicz, Dariusz J; Moe, Børge; Hanssen, Sveinn Are; Biersma, Elisabeth M; Pilskog, Hanne E; Dabert, Jacek.

I: Experimental & Applied Acarology, Bind 65, Nr. 2, 2015, s. 163-179.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

Harvard

Dabert, M, Coulson, SJ, Gwiazdowicz, DJ, Moe, B, Hanssen, SA, Biersma, EM, Pilskog, HE & Dabert, J 2015, 'Differences in speciation progress in feather mites (Analgoidea) inhabiting the same host: the case of Zachvatkinia and Alloptes living on arctic and long-tailed skuas', Experimental & Applied Acarology, bind 65, nr. 2, s. 163-179. https://doi.org/10.1007/s10493-014-9856-1

APA

Dabert, M., Coulson, S. J., Gwiazdowicz, D. J., Moe, B., Hanssen, S. A., Biersma, E. M., Pilskog, H. E., & Dabert, J. (2015). Differences in speciation progress in feather mites (Analgoidea) inhabiting the same host: the case of Zachvatkinia and Alloptes living on arctic and long-tailed skuas. Experimental & Applied Acarology, 65(2), 163-179. https://doi.org/10.1007/s10493-014-9856-1

Vancouver

Dabert M, Coulson SJ, Gwiazdowicz DJ, Moe B, Hanssen SA, Biersma EM o.a. Differences in speciation progress in feather mites (Analgoidea) inhabiting the same host: the case of Zachvatkinia and Alloptes living on arctic and long-tailed skuas. Experimental & Applied Acarology. 2015;65(2):163-179. https://doi.org/10.1007/s10493-014-9856-1

Author

Dabert, Miroslawa ; Coulson, Stephen J ; Gwiazdowicz, Dariusz J ; Moe, Børge ; Hanssen, Sveinn Are ; Biersma, Elisabeth M ; Pilskog, Hanne E ; Dabert, Jacek. / Differences in speciation progress in feather mites (Analgoidea) inhabiting the same host : the case of Zachvatkinia and Alloptes living on arctic and long-tailed skuas. I: Experimental & Applied Acarology. 2015 ; Bind 65, Nr. 2. s. 163-179.

Bibtex

@article{61c769e3be4f4d9cb3438a1c62d0bbbe,

title = "Differences in speciation progress in feather mites (Analgoidea) inhabiting the same host: the case of Zachvatkinia and Alloptes living on arctic and long-tailed skuas",

abstract = "Recent molecular phylogenetic analyses have revealed that some apparently oligoxenous feather mite species are in fact monoxenous cryptic species with little morphological differentiation. In this study we analyzed two species, Zachvatkinia isolata (Avenzoariidae) and Alloptes (Sternalloptes) stercorarii (Alloptidae) which prefer different parts of the plumage of two sister species of birds: arctic skua (Stercorarius parasiticus) and long-tailed skua (S. longicaudus) breeding on tundra in the High Arctic archipelago of Svalbard. Given that there are no reports about hybridization events between the host species, we expected that both skuas would have a species-specific acarofauna. The genetic distances among DNA-barcode sequences (COI and 28S rDNA), phylogenetic tree topologies, and haplotype networks of the COI sequences of mites suggested extensive gene flow in Z. isolata between and within populations inhabiting both skua species, whereas the Alloptes populations were host specific and sufficiently genetically separated as to warrant species-level status. The discrepancy in the genetic structure of Alloptes and Zachvatkinia populations suggests frequent but transient contacts between the two skua species in which the probability of mite exchange is much higher for Zachvatkinia, which is present in high numbers and inhabits exposed parts of primary flight feathers, than for the less abundant Alloptes that lives primarily in more protected and inaccessible parts of the plumage. We discuss the possible nature of these contacts between host species and the area(s) where they might take place. The star-like structures in the haplotype network as well as high haplotype diversity and low nucleotide diversity observed in Z. isolata are concordant with the known dispersal strategy of feather mites: vertical colonization of new host individuals followed by rapid growth of founder populations. ",

keywords = "Animals, Birds/parasitology, DNA Barcoding, Taxonomic, Feathers/parasitology, Female, Gene Flow, Genetic Speciation, Haplotypes, Host Specificity, Host-Pathogen Interactions, Male, Mites/anatomy & histology, Molecular Sequence Data, Phylogeny",

author = "Miroslawa Dabert and Coulson, {Stephen J} and Gwiazdowicz, {Dariusz J} and B{\o}rge Moe and Hanssen, {Sveinn Are} and Biersma, {Elisabeth M} and Pilskog, {Hanne E} and Jacek Dabert",

year = "2015",

doi = "10.1007/s10493-014-9856-1",

language = "English",

volume = "65",

pages = "163--179",

journal = "Experimental & Applied Acarology",

issn = "0168-8162",

publisher = "Springer",

number = "2",

}

RIS

TY - JOUR

T1 - Differences in speciation progress in feather mites (Analgoidea) inhabiting the same host

T2 - the case of Zachvatkinia and Alloptes living on arctic and long-tailed skuas

AU - Dabert, Miroslawa

AU - Coulson, Stephen J

AU - Gwiazdowicz, Dariusz J

AU - Moe, Børge

AU - Hanssen, Sveinn Are

AU - Biersma, Elisabeth M

AU - Pilskog, Hanne E

AU - Dabert, Jacek

PY - 2015

Y1 - 2015

N2 - Recent molecular phylogenetic analyses have revealed that some apparently oligoxenous feather mite species are in fact monoxenous cryptic species with little morphological differentiation. In this study we analyzed two species, Zachvatkinia isolata (Avenzoariidae) and Alloptes (Sternalloptes) stercorarii (Alloptidae) which prefer different parts of the plumage of two sister species of birds: arctic skua (Stercorarius parasiticus) and long-tailed skua (S. longicaudus) breeding on tundra in the High Arctic archipelago of Svalbard. Given that there are no reports about hybridization events between the host species, we expected that both skuas would have a species-specific acarofauna. The genetic distances among DNA-barcode sequences (COI and 28S rDNA), phylogenetic tree topologies, and haplotype networks of the COI sequences of mites suggested extensive gene flow in Z. isolata between and within populations inhabiting both skua species, whereas the Alloptes populations were host specific and sufficiently genetically separated as to warrant species-level status. The discrepancy in the genetic structure of Alloptes and Zachvatkinia populations suggests frequent but transient contacts between the two skua species in which the probability of mite exchange is much higher for Zachvatkinia, which is present in high numbers and inhabits exposed parts of primary flight feathers, than for the less abundant Alloptes that lives primarily in more protected and inaccessible parts of the plumage. We discuss the possible nature of these contacts between host species and the area(s) where they might take place. The star-like structures in the haplotype network as well as high haplotype diversity and low nucleotide diversity observed in Z. isolata are concordant with the known dispersal strategy of feather mites: vertical colonization of new host individuals followed by rapid growth of founder populations.

AB - Recent molecular phylogenetic analyses have revealed that some apparently oligoxenous feather mite species are in fact monoxenous cryptic species with little morphological differentiation. In this study we analyzed two species, Zachvatkinia isolata (Avenzoariidae) and Alloptes (Sternalloptes) stercorarii (Alloptidae) which prefer different parts of the plumage of two sister species of birds: arctic skua (Stercorarius parasiticus) and long-tailed skua (S. longicaudus) breeding on tundra in the High Arctic archipelago of Svalbard. Given that there are no reports about hybridization events between the host species, we expected that both skuas would have a species-specific acarofauna. The genetic distances among DNA-barcode sequences (COI and 28S rDNA), phylogenetic tree topologies, and haplotype networks of the COI sequences of mites suggested extensive gene flow in Z. isolata between and within populations inhabiting both skua species, whereas the Alloptes populations were host specific and sufficiently genetically separated as to warrant species-level status. The discrepancy in the genetic structure of Alloptes and Zachvatkinia populations suggests frequent but transient contacts between the two skua species in which the probability of mite exchange is much higher for Zachvatkinia, which is present in high numbers and inhabits exposed parts of primary flight feathers, than for the less abundant Alloptes that lives primarily in more protected and inaccessible parts of the plumage. We discuss the possible nature of these contacts between host species and the area(s) where they might take place. The star-like structures in the haplotype network as well as high haplotype diversity and low nucleotide diversity observed in Z. isolata are concordant with the known dispersal strategy of feather mites: vertical colonization of new host individuals followed by rapid growth of founder populations.

KW - Animals

KW - Birds/parasitology

KW - DNA Barcoding, Taxonomic

KW - Feathers/parasitology

KW - Female

KW - Gene Flow

KW - Genetic Speciation

KW - Haplotypes

KW - Host Specificity

KW - Host-Pathogen Interactions

KW - Male

KW - Mites/anatomy & histology

KW - Molecular Sequence Data

KW - Phylogeny

U2 - 10.1007/s10493-014-9856-1

DO - 10.1007/s10493-014-9856-1

M3 - Journal article

C2 - 25342243

VL - 65

SP - 163

EP - 179

JO - Experimental & Applied Acarology

JF - Experimental & Applied Acarology

SN - 0168-8162

IS - 2

ER -

ID: 228489334