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Transcontinental dispersal, common ancestry or convergent evolution? New phyllocoptines (Eriophyidae) from American and South African relict conifers. / Chetverikov, Philipp E.; Craemer, Charnie; Neser, Stefan; Peralta, Lourdes; Amrine, James W.

в: Systematic and Applied Acarology, Том 22, № 5, 2017, стр. 724-748.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Chetverikov, PE, Craemer, C, Neser, S, Peralta, L & Amrine, JW 2017, 'Transcontinental dispersal, common ancestry or convergent evolution? New phyllocoptines (Eriophyidae) from American and South African relict conifers', Systematic and Applied Acarology, Том. 22, № 5, стр. 724-748. https://doi.org/10.11158/saa.22.5.11

APA

Chetverikov, P. E., Craemer, C., Neser, S., Peralta, L., & Amrine, J. W. (2017). Transcontinental dispersal, common ancestry or convergent evolution? New phyllocoptines (Eriophyidae) from American and South African relict conifers. Systematic and Applied Acarology, 22(5), 724-748. https://doi.org/10.11158/saa.22.5.11

Vancouver

Chetverikov PE, Craemer C, Neser S, Peralta L, Amrine JW. Transcontinental dispersal, common ancestry or convergent evolution? New phyllocoptines (Eriophyidae) from American and South African relict conifers. Systematic and Applied Acarology. 2017;22(5):724-748. https://doi.org/10.11158/saa.22.5.11

Author

Chetverikov, Philipp E. ; Craemer, Charnie ; Neser, Stefan ; Peralta, Lourdes ; Amrine, James W. / Transcontinental dispersal, common ancestry or convergent evolution? New phyllocoptines (Eriophyidae) from American and South African relict conifers. в: Systematic and Applied Acarology. 2017 ; Том 22, № 5. стр. 724-748.

BibTeX

@article{5899f9e2c9e2421e86377bff2c10ed41,
title = "Transcontinental dispersal, common ancestry or convergent evolution? New phyllocoptines (Eriophyidae) from American and South African relict conifers",
abstract = "One new genus, three new species and two records of previously described phyllocoptines are reported from American and South African relict conifers. A new monotypic genus Costolobus n. gen. (Epitrimerus-like phyllocoptines with large ridged frontal lobe and bv I missing) is erected for the new species, Costolobus widdringtonis n. gen., n. sp., from South African endemic Widdringtonia wallichii Endl. ex Carri{\`e}re (Cupressaceae). Two new species, Epitrimerus papillatus n. sp. and Glossilus calocedris n. sp., are described from Araucaria araucana (Araucariaceae) from Chile and Calocedrus decurrens (Cupressaceae) from USA. Two other phyllocoptine species, Calepitrimerus convergens (Keifer 1966) and Phyllocoptes libocedri (Keifer 1939), are recorded from relict North American cupressacean hosts Calocedrus decurrens and Sequoiadendron giganteum collected in California. The genus Glossilus Navia & Flechtmann 2000 is recorded from North America for the first time; a rediagnosis of this genus is provided. Morphological similarity of the Epitrimerus-like phyllocoptines from gymnosperms is briefly discussed. Contemporary distribution of morphologically similar phyllocoptines on relic conifers in geographically remote regions can be explained by 1) their possible common ancestry followed by transcontinental dispersal and coevolution with hosts or by 2) multiple host-shifts from dicots in different continents and convergent morphological evolution. Comparative studies of the whole complex of eriophyoids inhabiting conifers are necessary to reveal phylogenetic structure of this ecological group of mites. Considering that numerous independent host-shifts from dicots to conifers happened in the past in different clades of Eriophyidae s.l., the mites from conifers might be used as {"}islands{"} around which their relatives from angiosperms could be grouped using various phylogenetic tools. Such an approach may be useful for future phylogenetic studies of Eriophyoidea.",
keywords = "Endemics, Gymnosperm paleobiogeography, Phytoparasitic mites, Transcontinental dispersal",
author = "Chetverikov, {Philipp E.} and Charnie Craemer and Stefan Neser and Lourdes Peralta and Amrine, {James W.}",
note = "Publisher Copyright: {\textcopyright} 2017 Systematic & Applied Acarology Society. Copyright: Copyright 2017 Elsevier B.V., All rights reserved.",
year = "2017",
doi = "10.11158/saa.22.5.11",
language = "English",
volume = "22",
pages = "724--748",
journal = "Systematic and Applied Acarology",
issn = "1362-1971",
publisher = "Systematic and Applied Acarology Society",
number = "5",

}

RIS

TY - JOUR

T1 - Transcontinental dispersal, common ancestry or convergent evolution? New phyllocoptines (Eriophyidae) from American and South African relict conifers

AU - Chetverikov, Philipp E.

AU - Craemer, Charnie

AU - Neser, Stefan

AU - Peralta, Lourdes

AU - Amrine, James W.

N1 - Publisher Copyright: © 2017 Systematic & Applied Acarology Society. Copyright: Copyright 2017 Elsevier B.V., All rights reserved.

PY - 2017

Y1 - 2017

N2 - One new genus, three new species and two records of previously described phyllocoptines are reported from American and South African relict conifers. A new monotypic genus Costolobus n. gen. (Epitrimerus-like phyllocoptines with large ridged frontal lobe and bv I missing) is erected for the new species, Costolobus widdringtonis n. gen., n. sp., from South African endemic Widdringtonia wallichii Endl. ex Carrière (Cupressaceae). Two new species, Epitrimerus papillatus n. sp. and Glossilus calocedris n. sp., are described from Araucaria araucana (Araucariaceae) from Chile and Calocedrus decurrens (Cupressaceae) from USA. Two other phyllocoptine species, Calepitrimerus convergens (Keifer 1966) and Phyllocoptes libocedri (Keifer 1939), are recorded from relict North American cupressacean hosts Calocedrus decurrens and Sequoiadendron giganteum collected in California. The genus Glossilus Navia & Flechtmann 2000 is recorded from North America for the first time; a rediagnosis of this genus is provided. Morphological similarity of the Epitrimerus-like phyllocoptines from gymnosperms is briefly discussed. Contemporary distribution of morphologically similar phyllocoptines on relic conifers in geographically remote regions can be explained by 1) their possible common ancestry followed by transcontinental dispersal and coevolution with hosts or by 2) multiple host-shifts from dicots in different continents and convergent morphological evolution. Comparative studies of the whole complex of eriophyoids inhabiting conifers are necessary to reveal phylogenetic structure of this ecological group of mites. Considering that numerous independent host-shifts from dicots to conifers happened in the past in different clades of Eriophyidae s.l., the mites from conifers might be used as "islands" around which their relatives from angiosperms could be grouped using various phylogenetic tools. Such an approach may be useful for future phylogenetic studies of Eriophyoidea.

AB - One new genus, three new species and two records of previously described phyllocoptines are reported from American and South African relict conifers. A new monotypic genus Costolobus n. gen. (Epitrimerus-like phyllocoptines with large ridged frontal lobe and bv I missing) is erected for the new species, Costolobus widdringtonis n. gen., n. sp., from South African endemic Widdringtonia wallichii Endl. ex Carrière (Cupressaceae). Two new species, Epitrimerus papillatus n. sp. and Glossilus calocedris n. sp., are described from Araucaria araucana (Araucariaceae) from Chile and Calocedrus decurrens (Cupressaceae) from USA. Two other phyllocoptine species, Calepitrimerus convergens (Keifer 1966) and Phyllocoptes libocedri (Keifer 1939), are recorded from relict North American cupressacean hosts Calocedrus decurrens and Sequoiadendron giganteum collected in California. The genus Glossilus Navia & Flechtmann 2000 is recorded from North America for the first time; a rediagnosis of this genus is provided. Morphological similarity of the Epitrimerus-like phyllocoptines from gymnosperms is briefly discussed. Contemporary distribution of morphologically similar phyllocoptines on relic conifers in geographically remote regions can be explained by 1) their possible common ancestry followed by transcontinental dispersal and coevolution with hosts or by 2) multiple host-shifts from dicots in different continents and convergent morphological evolution. Comparative studies of the whole complex of eriophyoids inhabiting conifers are necessary to reveal phylogenetic structure of this ecological group of mites. Considering that numerous independent host-shifts from dicots to conifers happened in the past in different clades of Eriophyidae s.l., the mites from conifers might be used as "islands" around which their relatives from angiosperms could be grouped using various phylogenetic tools. Such an approach may be useful for future phylogenetic studies of Eriophyoidea.

KW - Endemics

KW - Gymnosperm paleobiogeography

KW - Phytoparasitic mites

KW - Transcontinental dispersal

UR - http://www.scopus.com/inward/record.url?scp=85035797143&partnerID=8YFLogxK

U2 - 10.11158/saa.22.5.11

DO - 10.11158/saa.22.5.11

M3 - Article

AN - SCOPUS:85035797143

VL - 22

SP - 724

EP - 748

JO - Systematic and Applied Acarology

JF - Systematic and Applied Acarology

SN - 1362-1971

IS - 5

ER -

ID: 11073256