Phylogeny and biogeography of Neotropical spittlebugs (Hemiptera: Cercopidae: Ischnorhininae): revised tribal classification based on morphological data

The spittlebug family Cercopidae is currently divided into two subfamilies: the paraphyletic Old World Cercopinae and the monophyletic New World Ischnorhininae. The most recent classification scheme proposed by Fennah in 1968 divided the New World Cercopidae into four tribes: Tomaspidini, Ischnorhin...

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Published inSystematic entomology Vol. 40; no. 1; pp. 82 - 108
Main Authors PALADINI, ANDRESSA, TAKIYA, DANIELA M, CAVICHIOLI, RODNEY R, CARVALHO, GERVÁSIO S
Format Journal Article
LanguageEnglish
Published Oxford, UK Blackwell Publishing Ltd 01.01.2015
Wiley Subscription Services, Inc
Subjects
biogeography
C4 plants
Cercopidae
dry forests
grasses
Hemiptera
monophyly
paraphyly
polyphyly
savannas
taxonomic keys
tropics
South America
Arctic region
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Summary:The spittlebug family Cercopidae is currently divided into two subfamilies: the paraphyletic Old World Cercopinae and the monophyletic New World Ischnorhininae. The most recent classification scheme proposed by Fennah in 1968 divided the New World Cercopidae into four tribes: Tomaspidini, Ischnorhinini, Hyboscartini and Neaenini. Herein we present a phylogenetic analysis of Ischnorhininae using 108 morphological characters and including 53 of the 59 recognized genera, to evaluate the tribal‐level classification and understand the processes underlying the current distributional patterns of these genera. We found significant support for the monophyly of many Neotropical genera, but Fennah's tribal classification is revised because tribes Neaenini, Ischnorhinini and Tomaspidini were recovered as polyphyletic. Hyboscartini was synonymized with Tomaspidini. A taxonomic key to tribes and genera of Neotropical spittlebugs is provided based mostly on recovered apomorphies. The biogeographical analysis suggests a Neotropical origin of ischnorhinines, more specifically in northwestern South America. This was possibly coincident spatially and temporally with the origin of grasses, with ancestral range expansions southward to the Amazonian and Paraná regions, and posterior vicariant events, possibly related to the expansion of forests in the Chacoan region, the South America diagonal of open formations. Dispersals to the Chacoan region and to the Nearctic region are hypothesized to have occurred only within genera. In the Chacoan region it is associated with more recent events, such as the diversification of C4 grasses and establishment of the savannas and seasonally dry forests.
Bibliography:http://dx.doi.org/10.1111/syen.12091
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Figure S1. Optimization of unambiguous character state changes over the strict consensus of cladograms for the Neotropical cercopids, resulting from the analysis of morphological data with the implied weighting scheme using the optimal concavity interval K8-K13. Characters were mapped using Winclada (Nixon, 2002). Black squares represent nonhomoplastic apomorphies, white squares homoplastic ones. Character numbers are indicated above the squares and character states below: (A) Neaenini clade; (B) Ischnorhinini clade; (C) Tomaspidini clade T1; (D) Tomaspidini clade T2.Figure S2. Optimization of unambiguous character state changes over the strict consensus of cladograms for the Neotropical cercopids, resulting from the analysis of morphological data with the implied weighting scheme using the optimal concavity interval K8-K13. Characters were mapped using Winclada (Nixon, 2002). Black squares represent nonhomoplastic apomorphies, white squares homoplastic ones. Character numbers are indicated above the squares and character states below: (A) Tomaspidini clade T3; (B) Tomaspidini clade T4; (C) Tomaspidini clade T5.Figure S3. Biogeographical analysis of the Neotropical cercopids showing relative probabilities of ancestral area alternative distributions as recovered by S-DIVA. Distribution of terminal taxa are given as coloured circles next to genera in complete cladogram based on strict consensus obtained. Each colour represents a single area defined in South and Central American map in Fig. .Table S1. Data matrix of 108 morphological characters for 100 taxa of Ischnorhininae and outgroups. Characters: (?) not observed, (-) inapplicable.Table S2. Index values of single best-fit topologies obtained with different K values, where: K, concavity constant; F, fit; L, number of steps with equal weights; RI, retention index; CI, consistency index; SPR, average values of SPR comparisons to every other topology; Ric, distortion coefficient.Table S3. New classification proposal for Ischnorhininae.
ArticleID:SYEN12091
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:0307-6970
1365-3113
DOI:10.1111/syen.12091