Title
Direct optimization, sensitivity analysis, and the evolution of the hymenopteran superfamilies
Title Variants
Alternative:
Optimization and sensitivity analysis of Hymenoptera
Related Titles
Series:
American Museum novitates, no. 3789
By
Payne, Ansel.
Barden, Phillip M.
Wheeler, Ward
Carpenter, James M. (James Michael), 1956-
Type
Book
Material
Published material
Publication info
New York, NY, American Museum of Natural History, [2013], ©2013
Notes
Caption title.
"December 5, 2013."
Even as recent studies have focused on the construction of larger and more diverse datasets, the proper placement of the hymenopteran superfamilies remains controversial. In order to explore the implications of these new data, we here present the first direct optimization-sensitivity analysis of hymenopteran superfamilial relationships, based on a recently published total evidence dataset. Our maximum parsimony analyses of 111 terminal taxa, four genetic markers (18S, 28S, COI, EF-1[alpha]), and 392 morphological/behavioral characters reveal areas of clade stability and volatility with respect to variation in four transformation cost parameters. While most parasitican superfamilies remain robust to parameter change, the monophyly of Proctotrupoidea sensu stricto is less stable; no set of cost parameters yields a monophyletic Diaprioidea. While Apoidea is monophyletic under eight of the nine parameter regimes, no set of cost parameters returns a monophyletic Vespoidea or a monophyletic Chrysidoidea. The relationships of the hymenopteran superfamilies to one another demonstrate marked instability across parameter regimes. The preferred tree (i.e., the one that minimizes character incongruence among data partitions) includes a paraphyletic Apocrita, with (Orussoidea + Stephanoidea) sister to all other apocritans, and a monophyletic Aculeata. "Parasitica" is rendered paraphyletic by the aculeate clade, with Aculeata sister to (Trigonaloidea + Megalyroidea).
Subjects
Cladistic analysis
,
Evolution
,
Hymenoptera
,
Insects
,
Mathematical optimization
,
Phylogeny
,
Sensitivity theory (Mathematics)
Call Number
QL1 .A436 no.3789 2013
Language
English
Identifiers
OCLC:
864824089
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