<strong>Phylogeny of the weevil genus <em>Rhinusa </em>Stephens based on adult morphological characters and host plant information (Coleoptera: Curculionidae)</strong>

ROBERTO CALDARA; DAVIDE SASSI; IVO TOŠEVSKI

doi:10.11646/zootaxa.2627.1.3

Issue: Vol. 2627 No. 1: 27 Sep. 2010

Type: Articles

Published: 2010-09-27

DOI: 10.11646/zootaxa.2627.1.3

Page range: 39–56

Abstract views: 42

PDF downloaded: 4

**Phylogeny of the weevil genus Rhinusa Stephens based on adult morphological characters and host plant information (Coleoptera: Curculionidae)**

ROBERTO CALDARA⁺⁻
DAVIDE SASSI⁺⁻
IVO TOŠEVSKI⁺⁻

via Lorenteggio 37, 20146 Milano , Italy

via San Rocco 17, 22030 Castelmarte, Italy

CABI Europe-Switzerland, 1 Rue des Grillons, 2800 Délemont, Switzerland, and Institute for Plant Protection and Environment Belgrade, Banatska 33, Zemun, Serbia

Coleoptera Curculionidae host plants Mecinini morphology Rhinusa phylogenetics species groups

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Abstract

A phylogenetic analysis of the species belonging to the weevil genus Rhinusa Stephens, 1829 (Coleoptera: Curculionidae: Curculioninae: Mecinini) was carried out. Rhinusa weevils feed on plants of the closely related families Scrophulariaceae and Plantaginaceae. Based on a cladistic analysis of six outgroup and 33 ingroup taxa, and 39 adult morphological and 8 ecological characters, eight well supported species groups and two monobasic groups belonging to three separate and more inclusive assemblages were recognized. The first assemblage (A) includes nine species belonging to two groups (R. bipustulata and R. tetra groups), whereas the second and third assemblages (B and C) include a total of 14 species belonging to two groups (R. antirrhini and R. linariae groups) and six groups (R. pilosa, R. herbarum, R. neta, R. vestita, R. mauritii and R. melas groups), respectively. Two of the three main assemblages (A and B) are well supported as monophyletic entities, whereas the third assemblage (C) has weak support contingent in part upon the exclusion of host plant associations. Assemblage A includes all species living on species of Scrophulariaceae, with two groups occurring on two closely related plant genera, Scrophularia (R. bipustulata group) and Verbascum (R. tetra group), respectively. The other two assemblages include species living exclusively on species of the family Plantaginaceae, tribe Antirrhineae. These patterns suggest a well conserved and phylogenetically congruent association among the weevils and their hosts. Optimizing host plant preferences onto the morphological phylogeny indicates that feeding on Plantaginaceae was the plesiomorphic condition for the genus Rhinusa. In general there are no strict relationships between groups of weevils and their specific feeding habits; however, species of the R. antirrhini group are all feeding on seed capsules. In contrast, in other groups the larvae of closely related species display significant variations in host plant parasitism. Some species of the R. tetra group feed on seed capsules whereas others are stem borers. In turn, certain species of the R. neta group feed on seed capsules yet others are inquilines of gall forming species of Rhinusa. The latter habit is present in multiple convergent groups such as the R. linariae and R. pilosa groups.

References

Albach, D.C., Meudi, H.M. & Oxelman, B. (2005) Piecing together the “new” Plantaginaceae. American Journal of Botany, 92, 297–315.
Arzanov, Y.G. (2000) Review of weevils of the genus Mecinus Germar, 1821 (Coleoptera, Curculionidae) from the fauna of European Russia and the Caucusus. Entomological Review, 80, 1082–1090 (translation from Entomologicheskoe Obozrenie, 79, 865–875).
Bryant, H.N. (2001) Character polarity and the rooting of cladograms. In: Wagner, G.P. (Ed.), The Character Concept in Evolutionary Biology. Academic Press, San Diego, pp. 321–340.
Caldara, R. (2001) Phylogenetic analysis and higher classification of the tribe Mecinini (Coleoptera: Curculionidae, Curculioninae). Koleopterologische Rundschau, 71, 171–203.
Caldara, R. (2008) Revisione delle specie paleartiche del genere Gymnetron (Insecta, Coleoptera: Curculionidae). Aldrovandia, 4, 27–104.
Caldara, R. & Korotyaev, B.A. (2002) Taxonomic revision and reconstructed phylogeny of the weevil genus Nanomicrophyes Pic, 1908 (Coleoptera: Curculionidae, Curculioninae). Koleopterologische Rundschau, 72, 183–195.
Caldara, R., Desančić, M., Gassmann, A., Legarreta, L., Emerson, B.C. & Toševski, I. (2008) On the identity of Rhinusa hispida (Brullé) and its current synonyms (Coleoptera: Curculionidae). Zootaxa, 1805, 61–68.
Carpenter, J.M. (1988) Choosing among multiple equally parsimonious cladograms. Cladistics, 8, 147–153.
Carpenter, J.M. (1994) Successive weighting, reliability and evidence. Cladistics, 10, 215–220.
Desbrochers des Loges, J. (1893) Révision des espèces de curculionides appartenant à la tribu des Gymnetridae d'Europe et circa. Le Frelon, 3, 1–68.
Farris, J.S. (1969) A successive approximations approach to character weighting. Systematic Zoology, 18, 374–385.
Gassmann, A. & Paetel, C. (1998) Gymnetron netum (Col.; Curculionidae). A potential agent for biological control of toadflax in North America. Centre for Agriculture and Biosciences International, Delémont, Switzerland, 33 pp.
Ghebrehiwet, M., Bremer, B. & Thulin, M. (2000) Phylogeny of the tribe Antirrhineae (Scrophulariaceae) based on morphological and ndhF sequence data. Plant Systematics and Evolution, 220, 223–239.
Groppe, K. (1992) Gymnetron antirrhini Paykull (Col.: Curculionidae). A candidate for biological control of Dalmatian toadflax in North America. Centre for Agriculture and Biosciences International, Delémont, Switzerland, 22 pp.
Hoffmann, A. (1958) Coléoptères Curculionides. Troisième partie. Faune de France, 62, 1209–1839.
Hustache, A. (1931) Curculionidae Gallo-Rhénans (suite). Mecinini. Annales de la Société Entomologique de France, 100, 399–435.
Jordan, K. (1994) Gymnetron linariae Panzer (Col.: Curculionidae). A candidate for biological control of Dalmatian and yellow toadflax in North America. Centre for Agriculture and Biosciences International, Delémont, Switzerland, 36 pp.
Lohse, G.A. & Tischler, T. (1983) Mecininae. In: Freude, H., Harde, K.W. & Lohse, G.A. (Eds.), Die Käfer Mitteleuropas, Band 11, Goecke & Evers, Krefeld, pp. 259–283.
Nixon, K.C. & Carpenter, J.M. (1993) On outgroups. Cladistics, 9, 413–426.
Olmstead, R.G., dePamphilis, C.W., Wolfe, A.D., Young, N.D., Elisons, W.J. & Reeves, P.A. (2001) Disintegration of the Scrophulariaceae. American Journal of Botany, 88, 348–361.
Reitter, E. (1908) Bestimmung-Tabellen der europäischen Coleopteren. LIX Heft. Curculionidae. 13 Theil: Mecinini (Gymnetrini). Verhandlungen des naturforschendenden Vereines in Brünn, 1–50.
Saner, M.A., Clements, D.R., Hall, M.R., Doohan, D.J. & Crompton, C.W. (1995) The biology of Canadian weeds. Linaria vulgaris Mill. Canadian Journal of Plant Science, 75, 525–537.
Smith, J.M. (1959) Notes on insects, especially Gymnaetron spp. (Coleoptera: Curculionidae), associated with toadflax, Linaria vulgaris Mill. (Scrophulariaceae), in North America. The Canadian Entomologist, 91, 116–121.
Smreczyński, S. (1976) Klucze do oznaczania owadów polski.. XIX (98f). Coleoptera, Curculionidae, Curculioninae. Polski Towarzystwo Entomologiczene, Wroclaw, 115 pp.
Swofford, D.L. (2002) PAUP*. Phylogenetic analysis using parsimony (*and other methods), version 4.0b10. Sinauer Associates, Sunderland, Massachusetts.
Toševski, I. & Gassmann, A. (2004) Biological control of Dalmatian and Yellow Toadflax, Linaria dalmatica and L. vulgaris., Centre for Agriculture and Biosciences International, Delémont, Switzerland, 75 pp.
Vujnovic, K. & Wein, R.W. (1997) The biology of Canadian weeds. Linaria dalmatica (L.) Mill. Canadian Journal of Plant Science, 77, 483–491.