Biogeography of the Cantacaderinae Stål (Insecta : Heteroptera : Tingidae) revisited
Eric Guilbert
+ Author Affiliations
- Author Affiliations
Muséum national d’Histoire naturelle, Département de Systématique et Evolution, UMR 7205 CNRS, CP50, 57 rue Cuvier, 75005 Paris, France. Email: guilbert@mnhn.fr
Invertebrate Systematics 26(3) 316-322 https://doi.org/10.1071/IS12010
Submitted: 16 February 2012 Accepted: 13 May 2012 Published: 21 September 2012
Abstract
The biogeographic relationships among the Cantacaderinae (Heteroptera) are revisited in the light of a genus and species recently described. The results are reasonably congruent with previous studies, but with some differences. The common ancestor of Cantacaderinae may not be restricted to Australia but to a more widely distributed taxon. The Cantacaderinae evolved into two lineages: the Ceratocaderini + Carldrakeanini, originating in the Australia–New Zealand complex; and the Cantacaderini, originating in the Oriental region and dispersing through a south-eastern arc of continental fragments but not through the Asian peninsula.
Additional keywords: BPA, Gondwana.
References
Boedeker, C., Ramirez, M. E., and Nelson, W. A. (2010). Cladophoropsis brachyartra from southern South America is a synonym of Wittrockiella lyallii (Cladophorales, Chlorophyta), previously regarded as endemic to New Zealand. Phycologia 49, 525–536.| Cladophoropsis brachyartra from southern South America is a synonym of Wittrockiella lyallii (Cladophorales, Chlorophyta), previously regarded as endemic to New Zealand.Crossref | GoogleScholarGoogle Scholar |
Brooks, D. R. (1981). Hennig’s parasitological method: a proposed solution. Systematic Zoology 30, 229–249.
| Hennig’s parasitological method: a proposed solution.Crossref | GoogleScholarGoogle Scholar |
Brooks, D. R. (1990). Parsimony analysis in historical biogeography and coevolution: methodological and theoretical update. Systematic Zoology 39, 14–30.
| Parsimony analysis in historical biogeography and coevolution: methodological and theoretical update.Crossref | GoogleScholarGoogle Scholar |
Brooks, D. R., and McLennan, D. A. (2001). A comparison of a discovery-based and an event-based method of historical biogeography. Journal of Biogeography 28, 757–767.
| A comparison of a discovery-based and an event-based method of historical biogeography.Crossref | GoogleScholarGoogle Scholar |
Brooks, D. R., van Veller, M. G. P., and McLennan, D. A. (2001). How to do BPA, really. Journal of Biogeography 28, 345–358.
| How to do BPA, really.Crossref | GoogleScholarGoogle Scholar |
Brooks, D. R., Dowling, A. P. G., van Veller, M. G. P., and Hoberg, E. P. (2004). Ending a decade of deception, a valiant failure, a not-so-valiant failure, and a success story. Cladistics 20, 32–46.
| Ending a decade of deception, a valiant failure, a not-so-valiant failure, and a success story.Crossref | GoogleScholarGoogle Scholar |
Conow, C., Fielder, D., Ovadia, Y., and Libeskind-Hadas, R. (2010). Jane: a new tool for the cophylogeny reconstruction problem. Algorithms for Molecular Biology 5, 16.
| Jane: a new tool for the cophylogeny reconstruction problem.Crossref | GoogleScholarGoogle Scholar |
Cowie, R. H., and Holland, B. S. (2006). Dispersal is fundamental to biogeography and the evolution of biodiversity on oceanic islands. Journal of Biogeography 33, 193–198.
| Dispersal is fundamental to biogeography and the evolution of biodiversity on oceanic islands.Crossref | GoogleScholarGoogle Scholar |
Francis, J. E., Ashworth, A., Cantrill, D. J., Crame, J. A., Howe, J., Stephens, R., Tosolini, A.-M., and Thorn, V. (2008). 100 million years of Antarctic climate evolution: evidence from fossil plants. In ‘Antarctica, a Keystone in a Changing World. Proceedings of the 10th International Symposium on Antarctic Earth Sciences, Santa Barbara, California, 2007’. (Eds A. K. Cooper, P. Barrett, H. Stagg, B. Storey, E. Stump and W. Wise.) pp.19–28. (The National Academies Press: Washington, DC, USA.)
Froeschner, R. C. (1996). Lacebug genera of the world, I, Introduction, Subfamily Cantacaderinae (Heteroptera, Tingidae). Smithsonian Contributions to Zoology 574, 1–43.
| Lacebug genera of the world, I, Introduction, Subfamily Cantacaderinae (Heteroptera, Tingidae).Crossref | GoogleScholarGoogle Scholar |
Gillespie, R. G., Baldwin, B. G., Waters, J. M., Fraser, C. I., Nikula, R., and Roderick, G. K. (2012). Long-distance dispersal: a framework for hypothesis testing. Trends in Ecology & Evolution 27, 47–56.
| Long-distance dispersal: a framework for hypothesis testing.Crossref | GoogleScholarGoogle Scholar |
Golub, V. B. (2001). Archepopovia yurii n. gen. n. sp. a new remarkable lace bug from Baltic amber, with some notes on phylogeny and classification of Tingidae (Heteroptera, Tingidae). Mitteilungen aus dem Geologisch – Palaöntologischen Institut der Universität Hamburg 85, 263–276.
Guilbert, E. (2004). Do larvae evolve the same way as adults in Tingidae (Insecta, Heteroptera). Cladistics 20, 139–150.
| Do larvae evolve the same way as adults in Tingidae (Insecta, Heteroptera).Crossref | GoogleScholarGoogle Scholar |
Guilbert, E. (2012). Phylogeny of Cantacaderinae Stål (Insecta, heteroptera, Tingidae) revisited after the description of a new genus and new species from New Caledonia. European Journal of Entomology 109, 111–116.
Hall, R. (1998). The plate tectonics of Cenozoic Southeast Asia and the distribution of land and sea. In ‘Biogeography and Geological Evolution of Southeast Asia’. (Eds R. Hall and J. D. Holloway.) pp. 99–131. (Backhuys Publishers: Leiden, The Netherlands.)
Hall, R. (2009). Southeast Asia’s changing palaeogeography. Blumea 54, 148–161.
| Southeast Asia’s changing palaeogeography.Crossref | GoogleScholarGoogle Scholar |
Hill, D. E. (2009). Salticidae of the Antartic land bridge. Peckhamia 76, 1–14.
Hurr, K. A., Lockhart, P. J., Heenan, P. B., and Penny, D. (1999). Dispersal of Edwardsia section of Sophora (Leguminosae) around the Southern Oceans: molecular evidence. Journal of Biogeography 26, 565–577.
| Dispersal of Edwardsia section of Sophora (Leguminosae) around the Southern Oceans: molecular evidence.Crossref | GoogleScholarGoogle Scholar |
Kodandaramaiah, U. (2010). Use of dispersal–vicariance analysis in biogeography – a critique. Journal of Biogeography 37, 3–11.
| Use of dispersal–vicariance analysis in biogeography – a critique.Crossref | GoogleScholarGoogle Scholar |
Lawver, L. A., and Gahagan, L. M. (1998). Opening of Drake Passage and its impact on Cenozoic ocean circulation. In ‘Tectonic Boundary Conditions for Climate Reconstructions’. (Eds T. J. Crowley and K. C. Burke.) Oxford Monographs on Geology and Geophysics 39, 212–223.
Liggins, L., Chapple, D.G., Daugherty, H., and Ritchie, P.A. (2008). Origin and post-colonization of the Chatham Islands skink (Oligosoma nigriplantare nigriplantare). Molecular Ecology 17, 3290–3305.
| Origin and post-colonization of the Chatham Islands skink (Oligosoma nigriplantare nigriplantare).Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD1cXhtValt7rF&md5=18e830544eb8cfe7c9fe3204b40d7552CAS |
Lis, B. (1999). Phylogeny and classification of Cantacaderini [Cantacaderidae stat. nov.] (Hemiptera, Tingoidea). Annales Zoologici Warszawa 49, 157–196.
Metcalfe, I. (1998). Palaeozoic and Mesozoic geological evolution of the Southeast Asian region, multidisciplinary constraints and implications for biogeography. In ‘Biogeography and Geological Evolution of Southeast Asia’. (Eds R. Hall and J. D. Holloway.) pp. 25–41. (Backhuys Publishers: Leiden, The Netherlands.)
Nel, A., Waller, A., and De Ploëg, G. (2004). The oldest fossil Tingidae from the Lowermost Eocene amber of the Paris Basin (Heteroptera: Cimicomorpha: Tingoidea). Geologica Acta 2, 37–43.
Nelson, G., and Ladiges, P. Y. (2001). Gondwana, vcariance biogeography and the New York School revisited. Australian Journal of Botany 49, 389–409.
| Gondwana, vcariance biogeography and the New York School revisited.Crossref | GoogleScholarGoogle Scholar |
Page, R. D. M. (1994). Maps between trees and cladistic analysis of historical associations among genes, organisms, and areas. Systematic Biology 43, 58–77.
Ronquist, F. (1997). Dispersal–vicariance analysis, a new approach to the quantification of historical biogeography. Systematic Biology 46, 195–203.
| Dispersal–vicariance analysis, a new approach to the quantification of historical biogeography.Crossref | GoogleScholarGoogle Scholar |
Ronquist, F. (2001). DIVA version 1.2. Computer program for MacOS and Win32. Evolutionary Biology Centre, Uppsala University. Available at http://www.ebc.uu.se/systzoo/research/diva/diva.html.
Sanmartín, I., and Ronquist, F. (2004). Southern Hemisphere biogeography inferred by event-based models, plant versus animal patterns. Systematic Biology 53, 216–243.
| Southern Hemisphere biogeography inferred by event-based models, plant versus animal patterns.Crossref | GoogleScholarGoogle Scholar |
Sanmartín, I., Wanntorp, L., and Winkworth, C. (2007). West Wind Drift revisited, testing for directional dispersal in the Southern Hemisphere using event-based tree fitting. Journal of Biogeography 34, 398–416.
| West Wind Drift revisited, testing for directional dispersal in the Southern Hemisphere using event-based tree fitting.Crossref | GoogleScholarGoogle Scholar |
Schuh, R. T., Cassis, G., and Guilbert, E. (2006). Description of the first recent macropterous species of Vianaidinae (Heteroptera, Tingidae) with comments on the phylogenetic relationships of the family within the Cimicomorpha. Journal of the New York Entomological Society 114, 38–53.
| Description of the first recent macropterous species of Vianaidinae (Heteroptera, Tingidae) with comments on the phylogenetic relationships of the family within the Cimicomorpha.Crossref | GoogleScholarGoogle Scholar |
Siddall, M. E. (2005). Bracing for another decade of deception, the promise of Secondary Brooks Parsimony Analysis. Cladistics 21, 90–99.
| Bracing for another decade of deception, the promise of Secondary Brooks Parsimony Analysis.Crossref | GoogleScholarGoogle Scholar |
Siddall, M. E., and Perkins, S. L. (2003). Brooks Parsimony Analysis, a valiant failure. Cladistics 19, 554–564.
| Brooks Parsimony Analysis, a valiant failure.Crossref | GoogleScholarGoogle Scholar |
Swenson, U., Hill, R. S., and McLoughlin, S. (2001). Biogeography of Nothofagus supports the sequence of Gondwana break-up. Taxon 50, 1025–1041.
| Biogeography of Nothofagus supports the sequence of Gondwana break-up.Crossref | GoogleScholarGoogle Scholar |
Torsvik, T. H., Rousse, S., Labails, C., and Smethurst, M. A. (2009). A new scheme for the opening of the South Atlantic Ocean and the dissection of an Aptian salt basin. Geophysical Journal International 177, 1315–1333.
| A new scheme for the opening of the South Atlantic Ocean and the dissection of an Aptian salt basin.Crossref | GoogleScholarGoogle Scholar |
Truswell, E. M., and Macphail, M. K. (2009). Polar forests on the edge of extinction: what does the fossil spore and pollen evidence from East Antarctica say? Australian Systematic Botany 22, 57–106.
| Polar forests on the edge of extinction: what does the fossil spore and pollen evidence from East Antarctica say?Crossref | GoogleScholarGoogle Scholar |
Wagstaff, S. J., and Garnock-Jones, P. J. (1998). Evolution and biogeography of the Hebe complex (Scrophulariaceae). New Zealand Journal of Botany 36, 425–437.
| Evolution and biogeography of the Hebe complex (Scrophulariaceae).Crossref | GoogleScholarGoogle Scholar |
Wagstaff, S. J., Breitwieser, I., and Ito, M. (2011). Evolution and biogeography of Pleurophyllum (Astereae, Asteraceae), a small genus of megaherbs endemic to the Subantartic islands. American Journal of Botany 98, 62–75.
| Evolution and biogeography of Pleurophyllum (Astereae, Asteraceae), a small genus of megaherbs endemic to the Subantartic islands.Crossref | GoogleScholarGoogle Scholar |
Wappler, T. (2006). Lutetiacader, a puzzling new genus of cantacaderid lace bugs (Heteroptera, Tingidae) from the middle Eocene Messel Maar, Germany. Palaeontology 49, 435–444.
| Lutetiacader, a puzzling new genus of cantacaderid lace bugs (Heteroptera, Tingidae) from the middle Eocene Messel Maar, Germany.Crossref | GoogleScholarGoogle Scholar |
Winkworth, R. C., Wagstaff, S. J., Glenny, D., and Lockhart, P. J. (2002). Plant dispersal N.E.W.S from New Zealand. Trends in Ecology & Evolution 17, 514–520.
| Plant dispersal N.E.W.S from New Zealand.Crossref | GoogleScholarGoogle Scholar |
Wojcicki, M., and Brooks, D. R. (2005). PACT, an efficient and powerful algorithm for generating area cladograms. Journal of Biogeography 32, 755–774.
| PACT, an efficient and powerful algorithm for generating area cladograms.Crossref | GoogleScholarGoogle Scholar |
Yu, Y., Harris, A. J., and He, X. (2010). S-DIVA (Statistical Dispersal-Vicariance Analysis), a tool for inferring biogeographic histories. Molecular Phylogenetics and Evolution 56, 848–850.
| S-DIVA (Statistical Dispersal-Vicariance Analysis), a tool for inferring biogeographic histories.Crossref | GoogleScholarGoogle Scholar |
