A molecular phylogeny of the Australian huntsman spiders (Sparassidae, Deleninae): Implications for taxonomy and social behaviour

Ingi Agnarsson; Linda S. Rayor

doi:10.1016/j.ympev.2013.06.015

A molecular phylogeny of the Australian huntsman spiders (Sparassidae, Deleninae): Implications for taxonomy and social behaviour

Ingi Agnarsson
, Linda S. Rayor

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Rannsóknarafurð: Framlag til fræðitímarits › Grein › ritrýni

Útdráttur

Huntsman spiders (Sparassidae) are a diverse group with a worldwide distribution, yet are poorly known both taxonomically and phylogenetically. They are particularly diverse in Australia where an endemic lineage, Deleninae, has diversified to form nearly 100 species. One unusual species, Delena cancerides, has been believed to be the sole group-living sparassid. Unlike all of the other subsocial and social spiders which are capture-web based or live in silken tunnels, D. cancerides are non-web building spiders that live in large matrilineal colonies of a single adult female and her offspring from multiple clutches of under the bark of dead trees. Here we report the discovery of two additional prolonged subsocial sparassid species, currently in Eodelena but here formally proposed as a synonomy of Delena (new synonoymy), Delena (Eodelena) lapidicola and D. (E.) melanochelis. We briefly describe their social demographics, behavior, and habitat use. In order to understand the evolutionary relationships among these species, and thus origin of sociality and other traits in this group, we also offer the first molecular phylogeny of Deleninae and relatives. We employ model based phylogenetic analyses on two mtDNA and three nuDNA loci using maximum likelihood and Bayesian methods, including both 'classical' concatenation approach as well as coalescent-based analysis of species trees from gene trees. Our results support the hypothesis that the delenine huntsman spiders are a monophyletic Australian radiation, approximately 23. million year old, and indicate that the current ten genera should be merged to six genera in four clades. Our findings are inconsistent with some relatively recent changes in the taxonomy of Deleninae. The three known group-living delenine species are related and likely represent a single origin of sociality with a single reversal to solitary life-styles. Our results provide strong support for the classical Isopeda, but not for the recent splitting of that taxon into Isopeda, Isopedella, and Holconia. Another moderately supported clade within Deleninae unites three genera (Pediana, Beregama, Typostola) that, while morphologically diverse, all share extraordinary locomotory speed. A fourth clade is comprised of the speciose Neosparassus, containing Zachria. In sum, our study results in a robust phylogeny of Deleninae, casting light on the origin of sociality in the group, and facilitating future work on these unusual spiders.

Upprunalegt tungumál	Enska
Síður (frá-til)	895-905
Síðufjöldi	11
Fræðitímarit	Molecular Phylogenetics and Evolution
Bindi	69
Númer tölublaðs	3
DOI	https://doi.org/10.1016/j.ympev.2013.06.015
Útgáfustaða	Útgefið - des. 2013

Athugasemd

Funding Information: This Project would not have been possible without the assistance and generosity of many people over many years. We especially thank David Hirst, formerly of the South Australia Museum, for his enormous generosity in taking LSR into the field in NSW and SA, identifying the sparassids to species, sharing information about the Delena (Eodelena) melanochelis habitus, and answering innumerable sparassid questions over the years. Particular thanks to Dr. Mark Harvey, Western Australia Museum (WAM), for introducing LSR to Delena (Eodelena) lapidicola’s social behavior, assistance collecting in WA, and the many WAM delenine specimens for analysis. Dr. Dave Rowell, Australian National University, provided invaluable discussion on this paper and the evolution of sociality in Delena cancerides, research support, and a lively academic home. Eric Yip and Alan Henderson went well beyond duty in assisting LSR with live collections. Alan provided the photograph of ‘Typostola tiger’ and Pediana regina. Dr. Mike Crisp, ANU, kindly identified eucalypts from photos and their distribution patterns. In addition, the following people generously assisted LSR with field collections in Australia: David Schroeder, Melbourne Museum Insect Zoo staff, and members of the Research School of Biology at ANU. Thanks to staff at Gundabooka National Park (NSW), Two Peoples Bay, (WA), and Environment Australia for assistance. We thank the following individuals and institutions for sharing extensive sparassid specimens: Mark Harvey, WAM and Rudy Jocque, Royal Museum for Central Africa. Yadira Ortiz-Ruiz did DNA extraction and ran PCRs with support from the University of Puerto Rico. This research was supported by Cornell University’s, President’s Council on Cornell Women (PCCW), the Department of Entomology Grace Griswold Fund, and ANU to LSR. Additional support came from NSF DEB-1314749 to IA.

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10.1016/j.ympev.2013.06.015

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@article{549fd346770f490ab50e35edf1eb18fc,

title = "A molecular phylogeny of the Australian huntsman spiders (Sparassidae, Deleninae): Implications for taxonomy and social behaviour",

abstract = "Huntsman spiders (Sparassidae) are a diverse group with a worldwide distribution, yet are poorly known both taxonomically and phylogenetically. They are particularly diverse in Australia where an endemic lineage, Deleninae, has diversified to form nearly 100 species. One unusual species, Delena cancerides, has been believed to be the sole group-living sparassid. Unlike all of the other subsocial and social spiders which are capture-web based or live in silken tunnels, D. cancerides are non-web building spiders that live in large matrilineal colonies of a single adult female and her offspring from multiple clutches of under the bark of dead trees. Here we report the discovery of two additional prolonged subsocial sparassid species, currently in Eodelena but here formally proposed as a synonomy of Delena (new synonoymy), Delena (Eodelena) lapidicola and D. (E.) melanochelis. We briefly describe their social demographics, behavior, and habitat use. In order to understand the evolutionary relationships among these species, and thus origin of sociality and other traits in this group, we also offer the first molecular phylogeny of Deleninae and relatives. We employ model based phylogenetic analyses on two mtDNA and three nuDNA loci using maximum likelihood and Bayesian methods, including both 'classical' concatenation approach as well as coalescent-based analysis of species trees from gene trees. Our results support the hypothesis that the delenine huntsman spiders are a monophyletic Australian radiation, approximately 23. million year old, and indicate that the current ten genera should be merged to six genera in four clades. Our findings are inconsistent with some relatively recent changes in the taxonomy of Deleninae. The three known group-living delenine species are related and likely represent a single origin of sociality with a single reversal to solitary life-styles. Our results provide strong support for the classical Isopeda, but not for the recent splitting of that taxon into Isopeda, Isopedella, and Holconia. Another moderately supported clade within Deleninae unites three genera (Pediana, Beregama, Typostola) that, while morphologically diverse, all share extraordinary locomotory speed. A fourth clade is comprised of the speciose Neosparassus, containing Zachria. In sum, our study results in a robust phylogeny of Deleninae, casting light on the origin of sociality in the group, and facilitating future work on these unusual spiders.",

keywords = "Australian radiation, Delena, Isopeda, Social spider, Sparassid phylogeny, Spider evolution",

author = "Ingi Agnarsson and Rayor, \{Linda S.\}",

note = "Funding Information: This Project would not have been possible without the assistance and generosity of many people over many years. We especially thank David Hirst, formerly of the South Australia Museum, for his enormous generosity in taking LSR into the field in NSW and SA, identifying the sparassids to species, sharing information about the Delena (Eodelena) melanochelis habitus, and answering innumerable sparassid questions over the years. Particular thanks to Dr. Mark Harvey, Western Australia Museum (WAM), for introducing LSR to Delena (Eodelena) lapidicola{\textquoteright}s social behavior, assistance collecting in WA, and the many WAM delenine specimens for analysis. Dr. Dave Rowell, Australian National University, provided invaluable discussion on this paper and the evolution of sociality in Delena cancerides, research support, and a lively academic home. Eric Yip and Alan Henderson went well beyond duty in assisting LSR with live collections. Alan provided the photograph of {\textquoteleft}Typostola tiger{\textquoteright} and Pediana regina. Dr. Mike Crisp, ANU, kindly identified eucalypts from photos and their distribution patterns. In addition, the following people generously assisted LSR with field collections in Australia: David Schroeder, Melbourne Museum Insect Zoo staff, and members of the Research School of Biology at ANU. Thanks to staff at Gundabooka National Park (NSW), Two Peoples Bay, (WA), and Environment Australia for assistance. We thank the following individuals and institutions for sharing extensive sparassid specimens: Mark Harvey, WAM and Rudy Jocque, Royal Museum for Central Africa. Yadira Ortiz-Ruiz did DNA extraction and ran PCRs with support from the University of Puerto Rico. This research was supported by Cornell University{\textquoteright}s, President{\textquoteright}s Council on Cornell Women (PCCW), the Department of Entomology Grace Griswold Fund, and ANU to LSR. Additional support came from NSF DEB-1314749 to IA.",

year = "2013",

month = dec,

doi = "10.1016/j.ympev.2013.06.015",

language = "English",

volume = "69",

pages = "895--905",

journal = "Molecular Phylogenetics and Evolution",

issn = "1055-7903",

publisher = "Academic Press Inc.",

number = "3",

}

TY - JOUR

T1 - A molecular phylogeny of the Australian huntsman spiders (Sparassidae, Deleninae)

T2 - Implications for taxonomy and social behaviour

AU - Agnarsson, Ingi

AU - Rayor, Linda S.

N1 - Funding Information: This Project would not have been possible without the assistance and generosity of many people over many years. We especially thank David Hirst, formerly of the South Australia Museum, for his enormous generosity in taking LSR into the field in NSW and SA, identifying the sparassids to species, sharing information about the Delena (Eodelena) melanochelis habitus, and answering innumerable sparassid questions over the years. Particular thanks to Dr. Mark Harvey, Western Australia Museum (WAM), for introducing LSR to Delena (Eodelena) lapidicola’s social behavior, assistance collecting in WA, and the many WAM delenine specimens for analysis. Dr. Dave Rowell, Australian National University, provided invaluable discussion on this paper and the evolution of sociality in Delena cancerides, research support, and a lively academic home. Eric Yip and Alan Henderson went well beyond duty in assisting LSR with live collections. Alan provided the photograph of ‘Typostola tiger’ and Pediana regina. Dr. Mike Crisp, ANU, kindly identified eucalypts from photos and their distribution patterns. In addition, the following people generously assisted LSR with field collections in Australia: David Schroeder, Melbourne Museum Insect Zoo staff, and members of the Research School of Biology at ANU. Thanks to staff at Gundabooka National Park (NSW), Two Peoples Bay, (WA), and Environment Australia for assistance. We thank the following individuals and institutions for sharing extensive sparassid specimens: Mark Harvey, WAM and Rudy Jocque, Royal Museum for Central Africa. Yadira Ortiz-Ruiz did DNA extraction and ran PCRs with support from the University of Puerto Rico. This research was supported by Cornell University’s, President’s Council on Cornell Women (PCCW), the Department of Entomology Grace Griswold Fund, and ANU to LSR. Additional support came from NSF DEB-1314749 to IA.

PY - 2013/12

Y1 - 2013/12

N2 - Huntsman spiders (Sparassidae) are a diverse group with a worldwide distribution, yet are poorly known both taxonomically and phylogenetically. They are particularly diverse in Australia where an endemic lineage, Deleninae, has diversified to form nearly 100 species. One unusual species, Delena cancerides, has been believed to be the sole group-living sparassid. Unlike all of the other subsocial and social spiders which are capture-web based or live in silken tunnels, D. cancerides are non-web building spiders that live in large matrilineal colonies of a single adult female and her offspring from multiple clutches of under the bark of dead trees. Here we report the discovery of two additional prolonged subsocial sparassid species, currently in Eodelena but here formally proposed as a synonomy of Delena (new synonoymy), Delena (Eodelena) lapidicola and D. (E.) melanochelis. We briefly describe their social demographics, behavior, and habitat use. In order to understand the evolutionary relationships among these species, and thus origin of sociality and other traits in this group, we also offer the first molecular phylogeny of Deleninae and relatives. We employ model based phylogenetic analyses on two mtDNA and three nuDNA loci using maximum likelihood and Bayesian methods, including both 'classical' concatenation approach as well as coalescent-based analysis of species trees from gene trees. Our results support the hypothesis that the delenine huntsman spiders are a monophyletic Australian radiation, approximately 23. million year old, and indicate that the current ten genera should be merged to six genera in four clades. Our findings are inconsistent with some relatively recent changes in the taxonomy of Deleninae. The three known group-living delenine species are related and likely represent a single origin of sociality with a single reversal to solitary life-styles. Our results provide strong support for the classical Isopeda, but not for the recent splitting of that taxon into Isopeda, Isopedella, and Holconia. Another moderately supported clade within Deleninae unites three genera (Pediana, Beregama, Typostola) that, while morphologically diverse, all share extraordinary locomotory speed. A fourth clade is comprised of the speciose Neosparassus, containing Zachria. In sum, our study results in a robust phylogeny of Deleninae, casting light on the origin of sociality in the group, and facilitating future work on these unusual spiders.

AB - Huntsman spiders (Sparassidae) are a diverse group with a worldwide distribution, yet are poorly known both taxonomically and phylogenetically. They are particularly diverse in Australia where an endemic lineage, Deleninae, has diversified to form nearly 100 species. One unusual species, Delena cancerides, has been believed to be the sole group-living sparassid. Unlike all of the other subsocial and social spiders which are capture-web based or live in silken tunnels, D. cancerides are non-web building spiders that live in large matrilineal colonies of a single adult female and her offspring from multiple clutches of under the bark of dead trees. Here we report the discovery of two additional prolonged subsocial sparassid species, currently in Eodelena but here formally proposed as a synonomy of Delena (new synonoymy), Delena (Eodelena) lapidicola and D. (E.) melanochelis. We briefly describe their social demographics, behavior, and habitat use. In order to understand the evolutionary relationships among these species, and thus origin of sociality and other traits in this group, we also offer the first molecular phylogeny of Deleninae and relatives. We employ model based phylogenetic analyses on two mtDNA and three nuDNA loci using maximum likelihood and Bayesian methods, including both 'classical' concatenation approach as well as coalescent-based analysis of species trees from gene trees. Our results support the hypothesis that the delenine huntsman spiders are a monophyletic Australian radiation, approximately 23. million year old, and indicate that the current ten genera should be merged to six genera in four clades. Our findings are inconsistent with some relatively recent changes in the taxonomy of Deleninae. The three known group-living delenine species are related and likely represent a single origin of sociality with a single reversal to solitary life-styles. Our results provide strong support for the classical Isopeda, but not for the recent splitting of that taxon into Isopeda, Isopedella, and Holconia. Another moderately supported clade within Deleninae unites three genera (Pediana, Beregama, Typostola) that, while morphologically diverse, all share extraordinary locomotory speed. A fourth clade is comprised of the speciose Neosparassus, containing Zachria. In sum, our study results in a robust phylogeny of Deleninae, casting light on the origin of sociality in the group, and facilitating future work on these unusual spiders.

KW - Australian radiation

KW - Delena

KW - Isopeda

KW - Social spider

KW - Sparassid phylogeny

KW - Spider evolution

UR - https://www.scopus.com/pages/publications/84884591034

U2 - 10.1016/j.ympev.2013.06.015

DO - 10.1016/j.ympev.2013.06.015

M3 - Article

C2 - 23831456

SN - 1055-7903

VL - 69

SP - 895

EP - 905

JO - Molecular Phylogenetics and Evolution

JF - Molecular Phylogenetics and Evolution

IS - 3

ER -

A molecular phylogeny of the Australian huntsman spiders (Sparassidae, Deleninae): Implications for taxonomy and social behaviour

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