@ARTICLE{TreeBASE2Ref26594,
author = {P?vel Matos-Marav? and Nick Matzke and Ronald M Clouse and Fredrick J Larabee and Andrew V Suarez and Milan Janda},
title = {Trans-Pacific long-distance dispersal and the interplay between abiotic factors and ecology shaped the diversity of Indo-Pacific trap-jaw ants},
year = {2018},
keywords = {biogeography; diversification; Formicidae; insect; Melanesia; taxon cycle},
doi = {10.1111/mec.14835},
url = {http://onlinelibrary.wiley.com/doi/abs/10.1111/mec.14835},
pmid = {30106242},
journal = {Molecular Ecology},
volume = {},
number = {},
pages = {},
abstract = {The Indo-Pacific is one of the most diverse insular landscapes around the world. However, the interplay between abiotic and biotic factors driving the evolution and distribution of Indo-Pacific insects remains largely unexplored. We focus on the trap-jaw ant genus Odontomachus to elucidate the roles of paleogeography and ecology for the evolutionary success of insects in tropical and subtropical environments. The origin of Odontomachus ants (39?45 Ma) coincided with the warm climate of the early Cenozoic, and its ancestral widespread distribution in the Oriental and New World regions is in line with the Boreotropical para-tropical rainforests dominating the Northern Hemisphere. Long-distance dispersal from the New World along the Equatorial Pacific has significantly contributed to the extant ant diversity of the Indo-Pacific region. Trans-Pacific dispersal events in Odontomachus are reported for the mid-Miocene, Pliocene, and modern human-mediated spread. Biotic interactions and shifts in habitat preferences, as suggested by the original taxon cycle hypothesis, may have facilitated further geographical range expansion across distinct Melanesian ant lineages over the past 10 Ma. Overall, Indo-Pacific ants' diversity and distribution have likely been modulated by paleoenvironmental changes, including ancient climate and geographical modifications, as well as ecological interactions.}
}
Citation for Study 20232
Citation title:
"Trans-Pacific long-distance dispersal and the interplay between abiotic factors and ecology shaped the diversity of Indo-Pacific trap-jaw ants".
Study name:
"Trans-Pacific long-distance dispersal and the interplay between abiotic factors and ecology shaped the diversity of Indo-Pacific trap-jaw ants".
This study is part of submission 20232
(Status: Published).
Citation
Matos-marav? P., Matzke N., Clouse R.M., Larabee F.J., Suarez A.V., & Janda M. 2018. Trans-Pacific long-distance dispersal and the interplay between abiotic factors and ecology shaped the diversity of Indo-Pacific trap-jaw ants. Molecular Ecology, .
Authors
-
Matos-marav? P.
-
Matzke N.
510-301-0179
-
Clouse R.M.
-
Larabee F.J.
5038869420
-
Suarez A.V.
-
Janda M.
Abstract
The Indo-Pacific is one of the most diverse insular landscapes around the world. However, the interplay between abiotic and biotic factors driving the evolution and distribution of Indo-Pacific insects remains largely unexplored. We focus on the trap-jaw ant genus Odontomachus to elucidate the roles of paleogeography and ecology for the evolutionary success of insects in tropical and subtropical environments. The origin of Odontomachus ants (39?45 Ma) coincided with the warm climate of the early Cenozoic, and its ancestral widespread distribution in the Oriental and New World regions is in line with the Boreotropical para-tropical rainforests dominating the Northern Hemisphere. Long-distance dispersal from the New World along the Equatorial Pacific has significantly contributed to the extant ant diversity of the Indo-Pacific region. Trans-Pacific dispersal events in Odontomachus are reported for the mid-Miocene, Pliocene, and modern human-mediated spread. Biotic interactions and shifts in habitat preferences, as suggested by the original taxon cycle hypothesis, may have facilitated further geographical range expansion across distinct Melanesian ant lineages over the past 10 Ma. Overall, Indo-Pacific ants' diversity and distribution have likely been modulated by paleoenvironmental changes, including ancient climate and geographical modifications, as well as ecological interactions.
Keywords
biogeography; diversification; Formicidae; insect; Melanesia; taxon cycle
External links
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S20232
- Other versions:
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- Show BibTeX reference
@ARTICLE{TreeBASE2Ref26594,
author = {P?vel Matos-Marav? and Nick Matzke and Ronald M Clouse and Fredrick J Larabee and Andrew V Suarez and Milan Janda},
title = {Trans-Pacific long-distance dispersal and the interplay between abiotic factors and ecology shaped the diversity of Indo-Pacific trap-jaw ants},
year = {2018},
keywords = {biogeography; diversification; Formicidae; insect; Melanesia; taxon cycle},
doi = {10.1111/mec.14835},
url = {http://onlinelibrary.wiley.com/doi/abs/10.1111/mec.14835},
pmid = {30106242},
journal = {Molecular Ecology},
volume = {},
number = {},
pages = {},
abstract = {The Indo-Pacific is one of the most diverse insular landscapes around the world. However, the interplay between abiotic and biotic factors driving the evolution and distribution of Indo-Pacific insects remains largely unexplored. We focus on the trap-jaw ant genus Odontomachus to elucidate the roles of paleogeography and ecology for the evolutionary success of insects in tropical and subtropical environments. The origin of Odontomachus ants (39?45 Ma) coincided with the warm climate of the early Cenozoic, and its ancestral widespread distribution in the Oriental and New World regions is in line with the Boreotropical para-tropical rainforests dominating the Northern Hemisphere. Long-distance dispersal from the New World along the Equatorial Pacific has significantly contributed to the extant ant diversity of the Indo-Pacific region. Trans-Pacific dispersal events in Odontomachus are reported for the mid-Miocene, Pliocene, and modern human-mediated spread. Biotic interactions and shifts in habitat preferences, as suggested by the original taxon cycle hypothesis, may have facilitated further geographical range expansion across distinct Melanesian ant lineages over the past 10 Ma. Overall, Indo-Pacific ants' diversity and distribution have likely been modulated by paleoenvironmental changes, including ancient climate and geographical modifications, as well as ecological interactions.}
}
- Show RIS reference
TY - JOUR
ID - 26594
AU - Matos-Marav?,P?vel
AU - Matzke,Nick
AU - Clouse,Ronald M
AU - Larabee,Fredrick J
AU - Suarez,Andrew V
AU - Janda,Milan
T1 - Trans-Pacific long-distance dispersal and the interplay between abiotic factors and ecology shaped the diversity of Indo-Pacific trap-jaw ants
PY - 2018
KW - biogeography; diversification; Formicidae; insect; Melanesia; taxon cycle
UR - http://onlinelibrary.wiley.com/doi/abs/10.1111/mec.14835
N2 - The Indo-Pacific is one of the most diverse insular landscapes around the world. However, the interplay between abiotic and biotic factors driving the evolution and distribution of Indo-Pacific insects remains largely unexplored. We focus on the trap-jaw ant genus Odontomachus to elucidate the roles of paleogeography and ecology for the evolutionary success of insects in tropical and subtropical environments. The origin of Odontomachus ants (39?45 Ma) coincided with the warm climate of the early Cenozoic, and its ancestral widespread distribution in the Oriental and New World regions is in line with the Boreotropical para-tropical rainforests dominating the Northern Hemisphere. Long-distance dispersal from the New World along the Equatorial Pacific has significantly contributed to the extant ant diversity of the Indo-Pacific region. Trans-Pacific dispersal events in Odontomachus are reported for the mid-Miocene, Pliocene, and modern human-mediated spread. Biotic interactions and shifts in habitat preferences, as suggested by the original taxon cycle hypothesis, may have facilitated further geographical range expansion across distinct Melanesian ant lineages over the past 10 Ma. Overall, Indo-Pacific ants' diversity and distribution have likely been modulated by paleoenvironmental changes, including ancient climate and geographical modifications, as well as ecological interactions.
L3 - 10.1111/mec.14835
JF - Molecular Ecology
VL -
IS -
ER -