@ARTICLE{TreeBASE2Ref18086,
author = {G. D. Weiblen},
title = {Phylogenetic relationships of fig wasps pollinating functionally dioecious figs based on mitochondrial DNA sequences and morphology},
year = {2001},
keywords = {},
doi = {10.1093/sysbio/50.2.243},
url = {},
pmid = {},
journal = {Systematic Biology},
volume = {50},
number = {},
pages = {243--267},
abstract = {The obligate mutualism between pollinating wasps in the family Agaonidae (Hymenoptera: Chalcidoidea) and Ficus species (Moraceae) is often regarded as an example of coevolution but little is known about the history of the interaction, and understanding the origin of functionally dioecious pollination has been especially difficult. The phylogenetic relationships of wasps pollinating functionally dioecious Ficus were inferred from mitochondrial cytochrome oxidase gene sequences (mtDNA) and morphology. Separate and combined analyses indicated that the pollinators of functionally dioecious figs are not monophyletic. However, pollinator relationships were generally congruent with host phylogeny and support a revised classication of Ficus. Ancestral changes in pollinator ovipositor length also correlated with changes in breeding systems. In particular, the relative elongation of the ovipositor was associated with the repeated loss of functionally dioecious pollination. The concerted evolution of interacting morphologies may bias estimates of phylogeny based on female head characters, but homoplasy is not so strong in other morphological traits. The lesser phylogenetic utility of morphology than of mtDNA is not due to rampant convergence in morphology but rather to the greater number of potentially informative characters in DNA sequence data; patterns of nucleotide substitution also limit the utility of mtDNA findings. Nonetheless, inferring the ancestral associations of pollinators fromthe best-supported phylogeny provided strong evidence of host conservatism in this highly specialized mutualism. [Post-publication note: Some taxa in the original publication were misidentified. Corrected names are available under Genbank accession numbers and in Table 1 of Silvieus, S. I., W. L. Clement, and G. D. Weiblen. 2007. Cophylogeny of figs, pollinators, gallers and parasitoids. Pp. 225-239 in K. J. Tilmon, ed. Specialization, Speciation, and Radiation: The Evolutionary Biology of Herbivorous Insects. University of California Press, Berkeley, California.]}
}
Citation for Study 1986
Citation title:
"Phylogenetic relationships of fig wasps pollinating functionally dioecious figs based on mitochondrial DNA sequences and morphology".
This study was previously identified under the legacy study ID S1971
(Status: Published).
Citation
Weiblen G. 2001. Phylogenetic relationships of fig wasps pollinating functionally dioecious figs based on mitochondrial DNA sequences and morphology. Systematic Biology, 50: 243-267.
Authors
Abstract
The obligate mutualism between pollinating wasps in the family Agaonidae (Hymenoptera: Chalcidoidea) and Ficus species (Moraceae) is often regarded as an example of coevolution but little is known about the history of the interaction, and understanding the origin of functionally dioecious pollination has been especially difficult. The phylogenetic relationships of wasps pollinating functionally dioecious Ficus were inferred from mitochondrial cytochrome oxidase gene sequences (mtDNA) and morphology. Separate and combined analyses indicated that the pollinators of functionally dioecious figs are not monophyletic. However, pollinator relationships were generally congruent with host phylogeny and support a revised classication of Ficus. Ancestral changes in pollinator ovipositor length also correlated with changes in breeding systems. In particular, the relative elongation of the ovipositor was associated with the repeated loss of functionally dioecious pollination. The concerted evolution of interacting morphologies may bias estimates of phylogeny based on female head characters, but homoplasy is not so strong in other morphological traits. The lesser phylogenetic utility of morphology than of mtDNA is not due to rampant convergence in morphology but rather to the greater number of potentially informative characters in DNA sequence data; patterns of nucleotide substitution also limit the utility of mtDNA findings. Nonetheless, inferring the ancestral associations of pollinators fromthe best-supported phylogeny provided strong evidence of host conservatism in this highly specialized mutualism. [Post-publication note: Some taxa in the original publication were misidentified. Corrected names are available under Genbank accession numbers and in Table 1 of Silvieus, S. I., W. L. Clement, and G. D. Weiblen. 2007. Cophylogeny of figs, pollinators, gallers and parasitoids. Pp. 225-239 in K. J. Tilmon, ed. Specialization, Speciation, and Radiation: The Evolutionary Biology of Herbivorous Insects. University of California Press, Berkeley, California.]
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http://purl.org/phylo/treebase/phylows/study/TB2:S1986
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@ARTICLE{TreeBASE2Ref18086,
author = {G. D. Weiblen},
title = {Phylogenetic relationships of fig wasps pollinating functionally dioecious figs based on mitochondrial DNA sequences and morphology},
year = {2001},
keywords = {},
doi = {10.1093/sysbio/50.2.243},
url = {},
pmid = {},
journal = {Systematic Biology},
volume = {50},
number = {},
pages = {243--267},
abstract = {The obligate mutualism between pollinating wasps in the family Agaonidae (Hymenoptera: Chalcidoidea) and Ficus species (Moraceae) is often regarded as an example of coevolution but little is known about the history of the interaction, and understanding the origin of functionally dioecious pollination has been especially difficult. The phylogenetic relationships of wasps pollinating functionally dioecious Ficus were inferred from mitochondrial cytochrome oxidase gene sequences (mtDNA) and morphology. Separate and combined analyses indicated that the pollinators of functionally dioecious figs are not monophyletic. However, pollinator relationships were generally congruent with host phylogeny and support a revised classication of Ficus. Ancestral changes in pollinator ovipositor length also correlated with changes in breeding systems. In particular, the relative elongation of the ovipositor was associated with the repeated loss of functionally dioecious pollination. The concerted evolution of interacting morphologies may bias estimates of phylogeny based on female head characters, but homoplasy is not so strong in other morphological traits. The lesser phylogenetic utility of morphology than of mtDNA is not due to rampant convergence in morphology but rather to the greater number of potentially informative characters in DNA sequence data; patterns of nucleotide substitution also limit the utility of mtDNA findings. Nonetheless, inferring the ancestral associations of pollinators fromthe best-supported phylogeny provided strong evidence of host conservatism in this highly specialized mutualism. [Post-publication note: Some taxa in the original publication were misidentified. Corrected names are available under Genbank accession numbers and in Table 1 of Silvieus, S. I., W. L. Clement, and G. D. Weiblen. 2007. Cophylogeny of figs, pollinators, gallers and parasitoids. Pp. 225-239 in K. J. Tilmon, ed. Specialization, Speciation, and Radiation: The Evolutionary Biology of Herbivorous Insects. University of California Press, Berkeley, California.]}
}
- Show RIS reference
TY - JOUR
ID - 18086
AU - Weiblen,G. D.
T1 - Phylogenetic relationships of fig wasps pollinating functionally dioecious figs based on mitochondrial DNA sequences and morphology
PY - 2001
UR - http://dx.doi.org/10.1093/sysbio/50.2.243
N2 - The obligate mutualism between pollinating wasps in the family Agaonidae (Hymenoptera: Chalcidoidea) and Ficus species (Moraceae) is often regarded as an example of coevolution but little is known about the history of the interaction, and understanding the origin of functionally dioecious pollination has been especially difficult. The phylogenetic relationships of wasps pollinating functionally dioecious Ficus were inferred from mitochondrial cytochrome oxidase gene sequences (mtDNA) and morphology. Separate and combined analyses indicated that the pollinators of functionally dioecious figs are not monophyletic. However, pollinator relationships were generally congruent with host phylogeny and support a revised classication of Ficus. Ancestral changes in pollinator ovipositor length also correlated with changes in breeding systems. In particular, the relative elongation of the ovipositor was associated with the repeated loss of functionally dioecious pollination. The concerted evolution of interacting morphologies may bias estimates of phylogeny based on female head characters, but homoplasy is not so strong in other morphological traits. The lesser phylogenetic utility of morphology than of mtDNA is not due to rampant convergence in morphology but rather to the greater number of potentially informative characters in DNA sequence data; patterns of nucleotide substitution also limit the utility of mtDNA findings. Nonetheless, inferring the ancestral associations of pollinators fromthe best-supported phylogeny provided strong evidence of host conservatism in this highly specialized mutualism. [Post-publication note: Some taxa in the original publication were misidentified. Corrected names are available under Genbank accession numbers and in Table 1 of Silvieus, S. I., W. L. Clement, and G. D. Weiblen. 2007. Cophylogeny of figs, pollinators, gallers and parasitoids. Pp. 225-239 in K. J. Tilmon, ed. Specialization, Speciation, and Radiation: The Evolutionary Biology of Herbivorous Insects. University of California Press, Berkeley, California.]
L3 - 10.1093/sysbio/50.2.243
JF - Systematic Biology
VL - 50
IS -
SP - 243
EP - 267
ER -