eesti teaduste
akadeemia kirjastus
Estonian Journal of Ecology
Contrasting patterns of macroptery in Roesel’s bush cricket Metrioptera roeselii (Orthoptera, Ensifera); pp. 299–311
PDF | doi: 10.3176/eco.2014.4.07

Szabolcs Szanyi, Antal Nagy, István A. Rácz, Zoltán Varga

We studied the wing dimorphism in Roesel’s bush cricket populations. A total of 410 individuals (77 macropterous and 333 brachypterous) were sampled in seven sites. We found a high frequency (£ 53%) of macropterous individuals in some meadows surrounded by forests. We measured the body weight, thorax weight, and abdomen weight in connection with macroptery vs brachyptery. We could find a positive correlation between macroptery and thorax weight. The abdomen weight of females showed high individual variation; thus the supposed trade-off between macroptery and lower fertility of females was not supported.


Andrew, N. R. 2013. Population dynamics of insect populations: impacts of a changing climate.

In The Balance of Nature and Climate Change (Rohde, K., ed.), pp. 311–324. Cambridge University Press.

Andrew, N. R., Hill, S. J., Binns, M., Bahar, H., Ridley, E. V., Jung, M.-P., Fyfe, C., Yates, M., and Khusro, M. 2013. Assessing insect responses to climate change:What are we testing for? Where should we be heading? PeerJ, 1, 11

Applebaum, S. W. and Heifetz, Y. 1999. Density-dependent physiological phase in insects. Annual Review of Entomology, 44, 317–341.

Benedek, Zs., Nagy, A., Rácz, I. A., Jordán, F., and Varga, Z. 2011. Landscape metrics as indicators: quantifying habitat network changes of a bush-cricket Pholidoptera transsylvanica in Hungary. Ecological Indicators, 11, 930–933.

Bonte, D., Van Dyck, H., Bullock, J. M. et al. 2012. Costs of dispersal. Biological Reviews, 87, 290–312.

Gardiner, T. 2009. Macropterism of Roesel’s bushcricket Metrioptera roeselii in relation to climate change and landscape structure in eastern England. Journal of Orthoptera Research, 18, 95–102.

Harrison, R. G. 1980. Dispersal polymorphism in insects. Annual Review of Ecology and Systematics, 11, 95–118.

Harz, K. 1957. Die Geradflügler Mitteleuropas. Gustav Fischer Verlag, Jena.

Hochkirch, A. 2001. Rezente Areal- und Bestandsveränderungen bei Heuschrecken Nordwest­deutschlands. Verhandlungen, Westdeutscher Entomologentag, 13, 167–178.

Hochkirch, A. and Damerau, M. 2009. Rapid range expansion of a wing-dimorphic bush-cricket after the 2003 climatic anomaly. Biological Journal of the Linnean Society, 97, 118–127.

Ingrisch, S. and Köhler, G. 1998. Die Heuschrecken Mitteleuropas. Die Neue Brehm-Bücherei, Vol. 629. Westarp.

Jordán, F., Báldi, A., Orci, K. M., Rácz, I. A., and Varga, Z. 2003. Characterizing the importance of habitat patches and corridors in maintaining the landscape connectivity of a Pholidoptera transsylvanica metapopulation. Landscape Ecology, 18, 83–92.

Ketskeméty, L., Izsó, L., and Könyves Tóth, E. 2011. Bevezetés az IBM SPSS Statistics program­rendszerbe [Introduction to the IBM SPSS Statistics Program System]. Artéria Stúdió Kft, Budapest (in Hungarian).

Marshall, J. A. and Haes, E. C. M. 1988. Grasshoppers and Allied Insects of Great Britain and Ireland. Harley Books, Colchester.

Mole, S. and Zera, A. J. 1993. Differential allocation of resources underlies the dispersal-reproduction trade-off in the wing-dimorphic cricket, Gryllus rubens. Oecologia, 93, 121–127.

Mole, S. and Zera, A. J. 1994. Differential resource consumption obviates a potential flight-fecundity trade-off in the sand cricket (Gryllus firmus). Functional Ecology, 8, 573–580.

Olvido, A. E., Elvington, E. S., and Mousseau, T. A. 2003. Relative effects of clomate and crowding on wing polymorphism in the Southern Ground Cricket, Allonemobius socies (Orthoptera, Gryllidae). Florida Entomologist, 86, 158–167.[0158:REOCAC]2.0.CO;2

Parmesan, C. 2006. Ecological and evolutionary responses to recent climate change. Annual Review of Ecology, Evolution, and Systematics, 37, 637–669.

Parmesan, C. 2007. Influences of species, latitudes and methodologies on estimates of phenological response to global warming. Global Change Biology, 13,1860–1872.

Poniatowski, D. and Fartmann, T. 2009. Experimental evidence for density-determined wing dimorphism in two bush-crickets (Ensifera: Tettigoniidae). European Journal of Entomology, 106, 599–605.

Poniatowski, D. and Fartmann, T. 2011. Does wing dimorphism affect mobility in Metrioptera roeselii (Orthoptera: Tettigoniidae)? European Journal of Entomology, 108, 409–415.

Preuss, S., Berggre, Å., and Cassel-Lundhagen, A. 2011. Modelling the distribution of Roesel’s bush-cricket (Metrioptera roeselii) in a fragmented landscape. NeoBiota, 11, 33–49.

Reiczigel, J., Harnos, A., and Solymosi, N. 2007. Biostatisztika nem statisztikusoknak. [Biostatistics for Not-statisticians]. Pars Kft. Nagykovácsi (in Hungarian).

Roff, D. A. 1986. The evolution in wing dimorphism in insects. Evolution, 40, 1009–1020.

Roff, D. A. and Bradford, M. J. 1996. Quantitative genetics of the trade-off between fecundity and wing dimorphism in the cricket Allonemobius socius. Heredity, 76, 178–185.

Simmons, A. D. and Thomas, C. D. 2004. Changes in dispersal during species’ range expansions. The American Naturalist, 164, 378–395.

Stange, E. E. and Ayres, M. P. 2010. Climate change impacts: Insects. In Encyclopedia of Life Sciences. John Wiley & Sons. [doi: 10.1002/9780470015902.a0022555] (accessed 06.07.2014).

Suzuki, Y. and Tanaka, S. 1998. Physiological trade-offs between reproduction, flight capability and longevity in a wing-dimorphic cricket, Modicogryllus confirmatus. Journal of Insect Physiology, 44, 121–129.

Szanyi, Sz., Debnár, Zs., Nagy, A., Rácz, I. A., and Varga, Z. 2014. Fragmentált gyepek három védett egyenesszárnyú (Orthoptera) fajának metapopuláció-hálózata az Aggteleki-karszton. [Metapopulation network of three protected Orthoptera species in fragmented grasslands of the Aggtelek karst]. Állattani Közlemények, 98, 97–110 (in Hungarian).

Thomas, C. D., Bodsworth, E. J., Wilson, R. J., Simmons, A. D., Davies, Z. G., Musche, M., and Conradt, L. 2001. Ecological and evolutionary processes at expanding range margins. Nature, 411, 577–581.

Uvarov, B. I. 1977. Grasshoppers and Locusts. Vol. 2. Centre for Overseas Pest Research, London.

Vahed, K. and Gilbert, F. S. 1996. Differences across taxa in nuptial gift size correlate with differences in sperm number and ejaculate volume in bushcrickets (Orthoptera: Tettigoniidae). Proceedings of the Royal Society of London B, 263, 1257–1265.

Vickery, V. R. 1965. Factors governing the distribution and dispersal of the recently introduced grasshopper, Metrioptera roeseli (Hgb.) (Orthoptera: Ensifera). Annales of the Entomological Society of Québec, 10, 165–171.

Wake, A. 1997. Grasshoppers and Crickets (Orthoptera) of Essex. Colchester Natural History Society, Colchester.

Wedell, N. 1992. Protandry and mate assessment in the warbiter Decticus verrucivorus (Orthoptera: Tettigoniidae). Behavioural Ecology and Sociobiology, 31, 301–308.

Wissmann, J., Schielzeth, H., and Fartmann, T. 2009. Landscape-scale expansion of Roesel’s bush-cricket Metrioptera roeselii at the north-western range limit in Central Europe (Orthoptera: Tettigoniidae). Entomologia Generalis, 31, 317–326.

Zeng, Y. and Zhu, D. H. 2012. Trade-off between flight capability and reproduction in male Velarifictorus asperses crickets. Ecological Entomology, 37, 244–251.

Zeng, Y., Zhu, D. H., and Zhao, L. Q. 2010. Effects of environmental factors on wing differentiation in Velarifictorus asperses Walker. Acta Ecologica Sinica, 30, 6001–6008.

Zera, A. J. 2005. The endocrine regulation of wing polymorphism in insects: state of the art, recent surprises, and future directions. Integrative and Comparative Biology, 43, 607–616.

Zera, A. J. and Denno, R. F. 1997. Physiology and ecology of the dispersal polymorphism in insects. Annual Review of Entomology42, 207–231.

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