10.5061/DRYAD.J316C
Kawahara, Akito Y.
University of Florida
Plotkin, David
University of Florida
Ohshima, Issei
Kyoto Prefectural University
Lopez-Vaamonde, Carlos
French National Institute for Agricultural Research
French National Centre for Scientific Research
Houlihan, Peter R.
University of Florida
Breinholt, Jesse W.
University of Florida
Kawakita, Atsushi
Kyoto University
Xiao, Lei
University of Florida
Regier, Jerome C.
University of Maryland, College Park
Davis, Donald R.
Smithsonian Institution
Kumata, Tosio
Hokkaido University
Sohn, Jay-Cheon
University of Maryland, College Park
De Prins, Jurate
Royal Belgian Institute of Natural Sciences
Mitter, Charles
University of Maryland, College Park
SOHN, JAE-CHEON
University of Maryland, College Park
Mokpo National University
Smithsonian Institution
Data from: A molecular phylogeny and revised higher-level classification
for the leaf-mining moth family Gracillariidae and its implications for
larval host-use evolution
Dryad
dataset
2017
National Science Foundation
https://ror.org/021nxhr62
DEB-1354585, DEB-0531639
2017-09-26T00:00:00Z
2017-09-26T00:00:00Z
en
https://doi.org/10.1111/syen.12210
7115852 bytes
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CC0 1.0 Universal (CC0 1.0) Public Domain Dedication
Gracillariidae are one of the most diverse families of internally feeding
insects, and many species are economically important. Study of this family
has been hampered by lack of a robust and comprehensive phylogeny. In the
present paper, we sequenced up to 22 genes in 96 gracillariid species,
representing all previously recognized subfamilies and genus groups, plus
20 outgroups representing other families and superfamilies. Following
objective identification and removal of two rogue taxa, two datasets were
constructed: dataset 1, which included 12 loci totalling 9927 bp for 94
taxa, and dataset 2, which supplemented dataset 1 with 10 additional loci
for 10 taxa, for a total of 22 loci and 16 167 bp. Maximum likelihood
analyses strongly supported the monophyly of Gracillariidae and most
previously recognized subfamilies and genus groups. On this basis, we
propose a new classification consisting of eight subfamilies, four of
which are newly recognized or resurrected: Acrocercopinae Kawahara
& Ohshima subfam. n.; Gracillariinae Stainton; Lithocolletinae
Stainton; Marmarinae Kawahara & Ohshima subfam. n.;
Oecophyllembiinae Réal & Balachowsky; Parornichinae Kawahara
& Ohshima subfam. n.; Ornixolinae Kuznetzov & Baryshnikova
stat. rev.; and Phyllocnistinae Zeller. The subfamily Gracillariinae is
restricted to the monophyletic group comprising Gracillaria Haworth and
closely related genera. We also formally transfer Acrocercops scriptulata
Meyrick to Ornixolinae and use the name Diphtheroptila Vári, creating
Diphtheroptila scriptulata comb. n. An exploratory mapping of larval
host-use traits on the phylogeny shows strong conservation of modes of
leaf mining but much higher lability of associations with host plant
orders and families, suggesting that host shifts could play a significant
role in gracillariid diversification.
10genes_nt12312genes_degen112genes_nt12322genes_degen122genes_nt123
United States