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Dictyophara europaea (Hemiptera: Fulgoromorpha: Dictyopharidae): description of immatures, biology and host plant associations

Published online by Cambridge University Press:  22 February 2016

O. Krstić
Affiliation:
Department of Plant Pests, Institute for Plant Protection and Environment, Banatska 33, 11080 Zemun, Serbia
T. Cvrković
Affiliation:
Department of Plant Pests, Institute for Plant Protection and Environment, Banatska 33, 11080 Zemun, Serbia
M. Mitrović
Affiliation:
Department of Plant Pests, Institute for Plant Protection and Environment, Banatska 33, 11080 Zemun, Serbia
I. Toševski
Affiliation:
Department of Plant Pests, Institute for Plant Protection and Environment, Banatska 33, 11080 Zemun, Serbia CABI, 1 Rue des Grillons, 2800 Delémont, Switzerland
J. Jović*
Affiliation:
Department of Plant Pests, Institute for Plant Protection and Environment, Banatska 33, 11080 Zemun, Serbia
*
*Author for correspondence Phone/Fax: +381 11 2611762 E-mail: jovic_biolab@yahoo.com

Abstract

The European lantern fly Dictyophara europaea (Linnaeus, 1767), is a polyphagous dictyopharid planthopper of Auchenorrhyncha commonly found throughout the Palaearctic. Despite abundant data on its distribution range and reports on its role in the epidemiology of plant-pathogenic phytoplasmas (Flavescence dorée, FD-C), literature regarding the biology and host plants of this species is scarce. Therefore, the aims of our study were to investigate the seasonal occurrence, host plant associations, oviposition behaviour and immature stages of this widespread planthopper of economic importance. We performed a 3-year field study to observe the spatio-temporal distribution and feeding sources of D. europaea. The insects's reproductive strategy, nymphal molting and behaviour were observed under semi-field cage conditions. Measurement of the nymphal vertex length was used to determine the number of instars, and the combination of these data with body length, number of pronotal rows of sensory pits and body colour pattern enabled the discrimination of each instar. We provide data showing that D. europaea has five instars with one generation per year and that it overwinters in the egg stage. Furthermore, our study confirmed highly polyphagous feeding nature of D. europaea, for all instars and adults, as well as adult horizontal movement during the vegetation growing season to the temporarily preferred feeding plants where they aggregate during dry season. We found D. europaea adult aggregation in late summer on Clematis vitalba L. (Ranunculaceae), a reservoir plant of FD-C phytoplasma strain; however, this appears to be a consequence of forced migration due to drying of herbaceous vegetation rather than to a high preference of C. vitalba as a feeding plant. Detailed oviposition behaviour and a summary of the key discriminatory characteristics of the five instars are provided. Emphasis is placed on the economic importance of D. europaea because of its involvement in epidemiological cycles of phytoplasma-induced plant diseases.

Type
Research Papers
Copyright
Copyright © Cambridge University Press 2016 

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References

Angelini, E., Clair, D., Borgo, M., Bertaccini, A. & Boudon-Padieu, E. (2001) Flavescence dorée in France and Italy – occurrence of closely related phytoplasma isolates and their near relationships to Palatinate grapevine yellows and an alder phytoplasma. Vitis 40, 7986.Google Scholar
Biedermann, R. & Niedringhaus, R. (2004) Die Zikaden Deutschlands – Bestimmungstafeln für alle Arten. Scheessel, WABV.Google Scholar
Burrows, M. (2014) Jumping mechanisms in dictyopharid planthoppers (Hemiptera, Dictyopharidae). Journal of Experimental Biology 217, 402413.CrossRefGoogle Scholar
Cvrković, T., Jović, J., Mitrović, M., Petrović, A., Krstić, O., Krnjajić, S. & Toševski, I. (2010) Diversity of Auchenorrhyncha species and potential “bois noir” vectors in Serbian vineyards. pp. 4646in Bertaccini, A., Lavina, A., Torres, E. (Eds) Abstract Book of the Combined COST Meeting of Work Groups 1–4, 1–2 February 2010, Sitges, Spain, COST Action FA0807.Google Scholar
Delbac, L., Lecharpentier, P. & Thiery, D. (2010) Larval instars determination for the European grapevine moth (Lepidoptera: Tortricidae) based on the frequency distribution of head-capsule widths. Crop Protection 29, 623630.CrossRefGoogle Scholar
Denno, R.F. & Roderick, G.K. (1990) Population biology of planthoppers. Annual Review of Entomology 35, 489520.CrossRefGoogle Scholar
Duduk, B., Botti, S., Ivanović, M., Krstić, B., Dukić, N. & Bertaccini, A. (2004) Identification of phytoplasmas associated with grapevine yellows in Serbia. Journal of Phytopathology 152, 575579.CrossRefGoogle Scholar
D'Urso, V. & Mifsud, D. (2012) A preliminary account of the Auchenorrhyncha of the Maltese Islands (Hemiptera). Bulletin of the Entomological Society of Malta 5, 5772.Google Scholar
Dyar, H.G. (1890) The number of molts of lepidopterous larvae. Psyche: A Journal of Entomology 5, 420422.CrossRefGoogle Scholar
Emeljanov, A.F. (1987) The phylogeny of the Cicadina (Homoptera, Cicadina) based on comparative morphological data. Trudy Vsesoyuznogo Entomologischeskogo Obshchestva 69, 19109.Google Scholar
Emeljanov, A.F. (2003) The subgeneric division of the genus Dictyophara Germar, 1833 (Homoptera: Dictyopharidae). Russian Entomological Journal 12, 357358.Google Scholar
Filippin, L., Jović, J., Cvrković, T., Forte, V., Clair, D., Toševski, I., Boudon-Padieu, E., Borgo, M. & Angelini, E. (2009 a) Molecular characteristics of phytoplasmas associated with Flavescence dorée in clematis and grapevine and preliminary results on the role of Dictyophara europaea as a vector. Plant Pathology 58, 826837.CrossRefGoogle Scholar
Filippin, L., Tonon, E., Forte, V., Zottini, M., Santovito, G., Borgo, M. & Angelini, E. (2009 b) Genetic polymorphism of stolbur phytoplasma in grapevine, wild plants and insects. pp. 139140in Extended Abstracts 16th Meeting of ICVG, Dijon, Le Progres Agricole et Viticole, 2009.Google Scholar
Folmer, O., Black, M., Hoeh, W., Lutz, R. & Vrijenhoek, R. (1994) DNA primers for amplification of mitochondrial cytochrome c oxidase subunit I from diverse metazoanin vertebrates. Molecular Marine Biology and Biotechnology 3, 294299.Google Scholar
Hernández, M.C., Sacco, J. & Cabrera, G. (2011) Biology and host preference of the planthopper Taosa longula (Hemiptera: Dictyopharidae), a candidate for biocontrol of water hyacinth. Biocontrol Science and Technology 21, 10791090.CrossRefGoogle Scholar
Hogenhout, S.A., Oshima, K., Ammar, E.D., Kakizawa, S., Kingdom, H.N. & Namba, S. (2008) Phytoplasmas: bacteria that manipulate plants and insects. Molecular Plant Pathology 9, 403423.CrossRefGoogle ScholarPubMed
Holzinger, W.E. & Hausl-Hofstätter, U. (1994) Zur bisher bekannten Verbreitung der Zikaden Dictyophara europaea, Gargara genistae und Stictocephala bisonia in der Steiermark mit einem Nachweis von S. bisonia aus Kärnten. Mitt. Abt. Zool. Landesmus. Joanneum Graz 48, 6567.Google Scholar
Holzinger, W.E., Kammerlander, I. & Nickel, H. (2003) The Auchenorrhyncha of Central Europe, Fulgoromorpha, Cicadomorpha Excl. Cicadellidae. p. 673. Leiden, Brill Academic Publishers.Google Scholar
Hsia, W.T. & Kao, S.S. (1987) Application of head width measurements for instar determination of corn earworm larvae. Plant Protection Bulletin 29, 277282.Google Scholar
Hunt, G. & Chapman, R.E. (2001) Evaluating hypotheses of instar-grouping in arthropods: a maximum likelihood approach. Paleobiology 27, 466484.2.0.CO;2>CrossRefGoogle Scholar
Imo, M., Maixner, M. & Johannesen, J. (2013) Sympatric diversification vs. immigration: deciphering host-plant specialization in a polyphagous insect, the stolbur phytoplasma vector Hyalesthes obsoletus (Cixiidae). Molecular Ecology 22, 21882203.CrossRefGoogle Scholar
IRPCM (2004) Candidatus Phytoplasma’, a taxon for the wall-less, non-helical prokaryotes that colonize plant phloem and insects. International Journal of Systematic and Evolutionary Microbiology 54, 12431255.CrossRefGoogle Scholar
Klingenberg, C.P. & Zimmermann, M. (1992) Dyar's rule and multivariate allometric growth in nine species of waterstriders (Heteroptera: Gerridae). Journal of Zoology 227, 453464.CrossRefGoogle Scholar
Kosovac, A., Radonjić, S., Hrnčić, S., Krstić, O., Toševski, I. & Jović, J. (2016) Molecular tracing of the transmission routes of bois noir in Mediterranean vineyards of Montenegro and experimental evidence for the epidemiological role of Vitex agnus-castus (Lamiaceae) and associated Hyalesthes obsoletus (Cixiidae). Plant Pathology 65, 285–298.CrossRefGoogle Scholar
Krnjajić, S., Mitrović, M., Cvrković, T., Jović, J., Petrović, A., Forte, V., Angelini, E. & Toševski, I. (2007) Occurrence and distribution of Scaphoideus titanus Ball – multiple outbreaks of Flavescence dorée in Serbia. Bulletin of Insectology 60, 197198.Google Scholar
Krstić, O., Cvrković, T., Toševski, I. & Jović, J. (2012) Population genetics of a planthopper Dictyophara europaea and its interaction with Flavescence dorée phytoplasma. pp. 77–77 in Stamenković-Radak, M., Kenig, B. (Eds) Book of Abstracts of the Second Symposium of Population and Evolutionary Genetics. 9–12 May 2012, Belgrade, Serbia, Serbian Genetic Society.Google Scholar
Lee, I.M., Gundersen-Rindal, D.E., Davis, R.E. & Bartoszyk, I.M. (1998) Revised classification scheme of phytoplasmas based on RFLP analyses of 16S rRNA and ribosomal protein gene sequences. International Journal of Systematic Bacteriology 48, 11531169.CrossRefGoogle Scholar
Lee, I.M., Zhao, Y. & Davis, R.E. (2010) Prospects of multiple gene-based systems for differentiation and classification of phytoplasmas. pp. 5163in Weintraub, G.P., Jones, P. (Eds) Phytoplasmas: Genomes, Plant Hosts, and Vectors. Wallingford, UK, CABI Publishing.Google Scholar
Lessio, F. & Alma, A. (2008) Host plants and seasonal presence of Dictyophara europaea in the vineyard agro-ecosystem. Bulletin of Insectology 61, 199200.Google Scholar
Liang, A.P. & Wilson, M.R. (2002) Wax-secreting, cuticular structures in nymphs of Scolops abnormis Ball (Hemiptera: Fulgoromorpha: Dictyopharidae). Journal of the Kansas Entomological Society 75, 132137.Google Scholar
McClellan, Q.C. & Logan, J.A. (1994) Instar determination for the gypsy moth (Lepidoptera: Lymantriidae) based on the frequency distribution of head capsule widths. Environmental Entomology 23, 248253.CrossRefGoogle Scholar
McPherson, K.R. & Wilson, S.W. (1995) Life history and descriptions of immatures of the dictyopharid planthopper Phylloscelis pallescens (Homoptera: Fulgoroidea). Journal of the New York Entomological Society 103, 170179.Google Scholar
Mehle, N., Rupar, M., Seljak, G., Ravnikar, M. & Dermastia, M. (2011) Molecular diversity of ‘Flavescence dorée’ phytoplasma strains in Slovenia. Bulletin of Insectology 64, 2930.Google Scholar
Melichar, L. (1912) Monographie der Dictyophorinen (Homoptera). Abhandlungen der K. K. Zoologisch-Botanischen Gesellschaft in Wien 7(1), 1221, pls. 1–5. (In German).Google Scholar
Mitrović, M., Jović, J., Cvrković, T., Krstić, O., Trkulja, N. & Toševski, I. (2012) Characterisation of a 16SrII phytoplasma strain associated with bushy stunt of hawkweed oxtongue (Picris hieracioides) in south-eastern Serbia and the role of the leafhopper Neoaliturus fenestratus (Deltocephalinae) as a natural vector. European Journal of Plant Pathology 134, 647660.CrossRefGoogle Scholar
Nickel, H. (2003) The leafhoppers and planthoppers of Germany (Hemiptera, Auchenorrhyncha): Patterns and strategies in a highly diverse group of phytophagous insects. Sofia–Moscow, Pensoft Publishers: Keltern, Goecke & Evers.Google Scholar
Nickel, H. & Remane, R. (2002) Artenliste der Zikaden Deutschlands, mit Angaben zu Nährpflanzen, Lebenszyklen und Verbreitung (Hemiptera, Fulgoromorpha et Cicadomorpha). Cicadina 5, 2764.Google Scholar
Olofsson, H., Ripa, J. & Jonzén, N. (2009) Bet-hedging as an evolutionary game: the trade-off between egg size and number. Proceedings of the Royal Society of London B: Biological Sciences 276, 29632969.CrossRefGoogle Scholar
Prestidge, R.A. (1982) Instar duration, adult consumption, oviposition and nitrogen utilization efficiencies of leafhoppers feeding on different quality food (Auchenorrhyncha: Homoptera). Ecological Entomology 7, 91101.CrossRefGoogle Scholar
Quaglino, F., Zhao, Y., Casati, P., Bulgari, D., Bianco, P.A., Wei, W. & Davis, R.E. (2013) Candidatus Phytoplasma solani’, a novel taxon associated with stolbur- and bois noir-related diseases of plants. International Journal of Systematic and Evolutionary Microbiology 63, 28792894.CrossRefGoogle Scholar
Remes Lenicov, A.M., Hernández, M.C., Brentassi, M.E. & Defea, B. (2012) Descriptions of immatures of the South American plant hopper, Taosa (C.) longula. Journal of Insect Science 12, 142.Google Scholar
Snodgrass, R.E. (1935) Principles of Insect Morphology. New York, MacGraw-Hill.Google Scholar
Song, Z.S. & Liang, A.I. (2008) The Palaearctic planthopper genus Dictyophara Germar, 1833 (Hemiptera: Fulgoroidea: Dictyopharidae) in China. Annales Zoologici 58, 537549.CrossRefGoogle Scholar
Steffek, R., Reisenzein, H. & Zeisner, N. (2007) Analysis of the pest risk from grapevine flavescence dorée phytoplasma to Austrian viticulture. EPPO Bulletin 37, 191203.CrossRefGoogle Scholar
Wilson, S.W. & McPherson, J.E. (1981) Notes on the biology of Nersia florens (Homoptera: Fulgoroidea:Dictyopharidae) with descriptions of eggs, first, second, and fifth instars. The Great Lakes Entomologist 14, 4548.Google Scholar
Wilson, S.W. & Wheeler, A.G. (1992) Host plant and descriptions of nymphs of the planthopper Rhabdocephala brunnea (Homoptera: Fulgoridae). Annals of the Entomological Society of America 85, 258264.CrossRefGoogle Scholar
Wilson, S.W. & Wheeler, A.G. (2005) An African grass, Eragrostis curvula (Poaceae), planted in the southern United States recruits rarely collected native planthoppers (Hemiptera: Fulgoroidea: Dictyopharidae, Fulgoridae). Journal of the New York Entomological Society 113, 174204.CrossRefGoogle Scholar
Wilson, S.W., Mitter, C., Denno, R.F. & Wilson, M.R. (1994) Evolutionary patterns of host plant use by delphacid planthoppers and their relatives. pp. 7113in Denno, R.F., Perfect, J.R. (Eds) Planthoppers: Their Ecology and Management. USA, Springer.CrossRefGoogle Scholar
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