Hostname: page-component-cd9895bd7-mkpzs Total loading time: 0 Render date: 2024-12-25T17:31:29.610Z Has data issue: false hasContentIssue false

Feeding activities of Cicadulina mbila (Hemiptera: Cicadellidae) on different host-plants

Published online by Cambridge University Press:  10 July 2009

T. Mesfin
Affiliation:
University College, Cardiff, Wales
J. Den Hollander*
Affiliation:
University College, Cardiff, Wales
P. G. Markham
Affiliation:
John Innes Centre, Norwich Research Park, UK
*
P.G. Markham, John Innes Centre, Norwich Research Park, Colney Lane, Norwich NR4 7UH, UK.

Abstract

The probing activities of the most important leafhopper vector of maize streak virus, Cicadulina mbila (Naudé) (Hemiptera: Cicadellidae) were studied on different host-plants. Host preference was determined by giving the insects a choice of six plants, Digitaria sanguinalis, Zea mays, Zea perennis, Paspalum conjugatum, Oryza sativa and Saccharum officinarum (all Gramineae). Cicadulina mbila showed a strong preference for D. sanguinalis. Histological examination of plant tissues for salivary sheaths was used to reveal the preferred tissue. Cicadulina mbila tended to ingest from the phloem of its preferred hosts, and switch to mesophyll or xylem tissue on less preferred hosts. The suitability of each host was assessed by measuring the weight gain and amount of honeydew produced on each host by newly emerged adult females. Both parameters were greatest on the preferred host. Probing behaviour was also monitored electronically by recording the different waveform patterns produced when insects were probing, ingesting or not probing on the selected hosts. Cicadulina mbila probed less frequently, ingested longer and spent less time in non-probing activities on its preferred host, D. sanguinalis, although these responses were similar on maize and sugarcane. Rice induced poor probing responses and altered behaviour. This interpretation of the waveforms was supported by histological examination. As maize streak virus (MSV) is not found in phloem sieve elements, prolonged ingestion from sieve cells would not account for efficient acquisition from maize, which would require ingestion from other types of cells. D. sanguinalis was the host in which most ingestion from the phloem occurred, but it is the poorest source of MSV.

Type
Original Articles
Copyright
Copyright © Cambridge University Press 1995

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Atiri, G.I. & Thottappilly, G. (1985) Aphis craccivora settling behaviour and acquisition of cowpea aphid-borne mosaic virus in aphid-resistant cowpea lines. Entomologia Experimentalis et Applicata 39, 241245.CrossRefGoogle Scholar
Atiri, G.I., Ekpo, E.J.A. & Thottappilly, G. (1984) The effect of aphid-resistance in cowpea on infestation and development of Aphis craccivora and the transmission of cowpea aphid-borne mosaic virus. Annals of Applied Biology 104, 339346.CrossRefGoogle Scholar
Backus, E.A., Hunter, W.B.& Arne, C.N. (1988) Technique for staining leafhopper (Homoptera: Cicadellidae) salivary sheaths and eggs within unsectioned plant tissue. Journal of Economic Entomology 81, 18191823.CrossRefGoogle Scholar
Bock, K.R. (1974) Maize streak virus. CMI/AAB Descriptions of Plant Viruses No. 133, 4 pp.Google Scholar
Bock, K.R., Guthrie, E.J. & Woods, R.D. (1974) Purification of maize streak virus and its relationship to viruses associated with streak diseases of sugar cane and Panicum maximum. Annals of Applied Biology 77, 289296.CrossRefGoogle Scholar
Boulton, M.I. & Markham, P.G. (1986) The use of dot blotting for the detection of plant pathogens in insect vectors. pp. 5569in Jones, R.A.C. & Torrance, L. (Eds) Developments and applications in virus testing, Wellesbourne UK, Association of Applied Biologists.Google Scholar
Carle, P. & Moutous, G. (1965) Observations sur le mode de nutrition sur vigne de quatre espèces de cicadelles. Annales des Epiphyties 16H5, 333354.Google Scholar
Claridge, M.F. & Den Hollander, J. (1980) The ‘biotypes’ of the rice brown planthopper Nilaparvata lugens. Entomologia Experimentalis et Applicata 27, 2330.CrossRefGoogle Scholar
Claridge, M.F., Reynolds, W.J. & Wilson, M.R. (1977) Oviposition behaviour and food plant discrimination in leafhoppers of the genus Oncopsis Ecological Entomology 2, 1925.CrossRefGoogle Scholar
Crane, P.S. (1970) The feeding behaviour of the blue green sharpshooter, Hordnia circellata (Baker) (Homoptera Cicadellidae). Ph D Dissertation, University of California, Davis, USA.Google Scholar
Dabrowski, Z.T. (1985) The biology of Cicadulina triangula in relation to maize streak virus resistance screening. Insect Science and its Application 6, 417424.Google Scholar
Dabrowski, Z.T. (1987) Comparative studies of Cicadulina leafhoppers in West Africa. pp. 3539in Wilson, M.R. & Nault, L.R. (Eds) Proceedings of the 2nd International Workshop on Leaf hoppers and Planthoppers of Economic Importance Brigham Young University, Provo, Utah, USA. 28 July—1 August 1986, London, CAB International Institute of Entomology.Google Scholar
Damsteegt, V.D. (1983) Maize streak virus. I. Host range and vulnerability of maize (Zea mays) germplasm. Plant Disease 67,734737.CrossRefGoogle Scholar
Day, M.F., Irzykiewicz, H. & McKinnon, A. (1952) Observations on the feeding of the virus vector, Orosius argentatus (Evans), and comparisons with certain other Jassids. Australian Journal of Scientific Research B 5, 128142.Google Scholar
Esau, K. (1977) Virus-like particles in nuclei of phloem in spinach leaves infected with the curly top virus. Journal of Ultrastructural Research 9, 7888.CrossRefGoogle Scholar
Fajemisin, J.M. & Shoyinka, S.A. (1976) Maize streak and other maize virus diseases in West Africa. pp. 5261in Williams, L.E., Gordon, D.T. & Nault, L.R. (Eds) Proceedings of the International Maize Disease Colloquium and Workshop, Wooster, Ohio, USA, August 16–19, 1976, 1.Google Scholar
Fife, J.M. & Frampton, V.L. (1936) The pH gradient extending from the phloem into the parenchyma of sugar beet and its relation to the feeding behaviour of Eutettix tenella. Journal of Agricultural Research 53, 581593.Google Scholar
Fisk, J.K. (1980) Effects of HCN, phenolic acids and related compounds in Sorghum bicolor on the feeding behaviour of the planthopper Peregrinus maidis. Entomologia Experimentalis et Applicata 27, 211222.CrossRefGoogle Scholar
Grimsley, N., Hohn, T., Davies, J.W. & Hohn, B. (1987) Agrobacterium-mediated infection of maize streak virus into maize plants. Nature 325, 177179.CrossRefGoogle Scholar
Guthrie, E.J. (1977) Virus disease of maize in East Africa. pp. 6268in Williams, L.E., Gordon, D.T. & Nault, L.R. (Eds) Proceedings of International Maize Virus Disease Colloquium and Workshop, Wooster, Ohio, U.S.A. August 16–19, 1976, 1.Google Scholar
Harrison, D.B. (1981) Plant virus ecology: ingredients, interaction and environment influence. Annals of Applied Biology 99, 195209.CrossRefGoogle Scholar
Hunter, W.B. & Backus, E.A. (1989) Mesophyll-feeding by the potato leafhopper, Empoasca fabae (Homoptera: Cicadellidae): results from electronic monitoring and thin-layer chromatography. Environmental Entomology 18, 465472.CrossRefGoogle Scholar
IITA, (1975) Survey of disease and insect damage. pp. 163164in Annual Report for 1975. Ibadan, Nigeria.Google Scholar
IITA, (1981) Research highlights for (1980). Ibadan, Nigeria, International Institute of Tropical Agriculture.Google Scholar
Ishihara, T. (1969) Families and genera of leafhopper vectors. pp 235254. in Maramorosch, K. (Ed.) Viruses, vectors and vegetation. New York, Interscience Publishers.Google Scholar
Kawabe, S., McLean, D.C., Tatsuki, S. & Ouchi, T. (1981) An improved electronic measurement system for studying ingestion and salivation activities of leafhoppers. Annals of the Entomological Society of America 74, 222225.CrossRefGoogle Scholar
Kimmins, F.M. (1982) The probing behaviour of Rhopalosiphum maidis. pp. 411412in Proceedings of the 5th International Symposium on Insect Plant Relationships, Wageningen, The Netherlands.Google Scholar
Kimmins, F.M. (1989) Electrical penetration graphs from Nilaparvata lugens on resistant and susceptible rice varieties. Entomologia Experimentalis et Applicata 50, 6979.CrossRefGoogle Scholar
Kimmins, F.M. & Tjallingii, W.F. (1985) Ultrastructure of sieve element penetration by aphid stylets during electrical recording. Entomologia Experimentalis et Applicata 39, 135141.CrossRefGoogle Scholar
Kimsey, B.R. & McLean, D.L. (1987) Versatile electronic measurement system for studying probing and feeding behaviour of piercing and sucking insects. Annals of the Entomological Society of America 80, 118129.CrossRefGoogle Scholar
Lehmann, W. & Claus, S. (1970) Die Eigmung von Planzenarten für die Enabrung von Euscelis plebejus Fall. in beziehung zuibrex bedentung als virusworte. Biologische Zentralblatt 89, 912.Google Scholar
Markham, P.G. (1973) Some aspects of the biology of Euscelis plebejus (Fallen) in relation to the transmission of clover phyllody. PhD Thesis, University of Newcastle-upon-Tyne, UK.Google Scholar
Markham, P.G., Pinner, M.S. & Boulton, M.I. (1984) Dalbulis maidis and Cicadulina species as vectors of disease in maize. Maize Virus Disease Newsletter 1, 3334.Google Scholar
McLean, D.L. & Kinsey, M.G. (1964) A technique for electronically recording aphid feeding and salivation. Nature 202, 13581359.CrossRefGoogle Scholar
McLean, D.L. & Kinsey, M.G. (1967) Probing behaviour of pea aphid Acyrthosiphum pisum. I. Definite correlation of electronically recorded waveforms with aphid probing activity. Annals of the Entomological Society of America 60, 400406.CrossRefGoogle Scholar
McLean, D.L. & Weight, W.A. (1968) An electronic measuring system to record aphid salivation and ingestion. Annals of the Entomological Society of America 61, 180185.CrossRefGoogle Scholar
Mesfin, T. (1987) Biological and feeding studies of Cicadulina species (Homoptera: Cicadellidae). PhD Thesis, University College, Cardiff, Wales.Google Scholar
Mesfin, T., Markham, P.G. & Den Hollander, J. (1991) Cicadulina species and maize streak virus in Ethiopia. Tropical Pest Management 37, 240244.CrossRefGoogle Scholar
Moreau, J.P. & Boulay, C. (1967) Mode de pigûre de trois cicadelles vectrices de virus, Euscelis plebejus Fall., Macrosteles sexnotatus Fall. et Aphrodes bicinctus Schrk étude histologique. Annales des Epiphyties 18 hors-sér., 133141.Google Scholar
Mumford, D.L. & Thornley, W.R. (1977) Location of curly top antigen in bean, sugarbeet, tobacco and tomato by fluorescent antibody staining. Phytopathology 6, 13131316.CrossRefGoogle Scholar
Nault, L.R. & Madden, L.V. (1988) Phylogenetic relatedness of maize chlorotic dwarf virus leafhopper vectors. Phytopathology 78, 16831687.CrossRefGoogle Scholar
Nebbache, S. (1988) Virus-vector relationships of maize streak virus with Cicadulina leafhoppers. M. Phil Thesis, University of East Anglia, Norwich, UK.Google Scholar
Nielson, M.W. (1968) The leafhopper vectors of phytopathogenic viruses. Taxonomy, biology and virus transmission. Technical Bulletin, US Department of Agriculture No. 1382, 386.Google Scholar
Nielson, M.W. (1979) Taxonomic relationships of leafhopper vectors of plant pathogens. pp. 327in Maramorosch, K. & Harris, K.L. (Eds) Leafhopper vectors and plant disease agents. New York Academic Press.CrossRefGoogle Scholar
Okoth, V.A.O. & Dabrowski, Z.T. (1987) Population density, species composition and infectivity with maize streak virus (MSV) of Cicadulina spp. leafhoppers in some ecological zones in Nigena. Acta Oecologica, Oecologia Applicata 8, 191200.Google Scholar
Pinner, M.S., Markham, P.G., Markham, R.H. & Dekker, E.L. (1988) Characterization of maize streak virus. 1: description of strains and symptoms. Plant Pathology 34, 7487.CrossRefGoogle Scholar
Pinner, M.S., Medina, V., Plaskitt, K.A. & Markham, P.G. (1993) Viral inclusions in monocotyledons infected by maize streak and related geminiviruses. Plant Pathology 42, 7587.CrossRefGoogle Scholar
Rapusas, H.R. & Heinrichs, E.A. (1990) Feeding behaviour of Nephotettix virescens (Homoptera: Cicadellidae) on rice varieties with different levels of resistance. Environmental Entomology 19, 594602.CrossRefGoogle Scholar
Rose, D.J.W. (1971) The biology and dispersal of Cicadulina sp. Ph D Thesis, University of London, England.Google Scholar
Rose, D.J.W. (1978) Epidemiology of maize streak disease. Annual Review of Entomology 23, 259282.CrossRefGoogle Scholar
Rose, D.J.W. (1982) The distribution of various species of Cicadulina in different African coutries, frequency of their attack and impact on crop production. pp. 297304in Proceedings 1st International Workshop on Leaf hoppers and Planthoppers of Economic Importance. London, 4–7 October 1982. London, Commonwealth Institute of Entomology.Google Scholar
Ruppel, R. F. (1965) A review of the genus Cicadulina (Hemiptera: Cicadellidae). Michigan State University Museum Biology Series 2, 385428.Google Scholar
Saxena, C.R. & Khan, R.Z. (1985) Electronically recorded disturbances in feeding behaviour of Nephotettix virescens (Homoptera: Cicadellidae) on neem oil treated rice plants. Journal of Economic Entomology 78, 222226.CrossRefGoogle Scholar
Sogawa, F. (1970) Studies on feeding habits of the brown planthopper. I. Effect of nitrogen deficiency of host plant on insect feeding. Journal of Applied Entomology and Zoology 14,101106.CrossRefGoogle Scholar
Sogowa, K. & Pathak, M.D. (1970) Mechanisms of brown planthopper resistance in Mudgo variety of rice (Hemiptera: Delphacidae). Japanese Journal of Applied Entomology and Zoology 5, 145158.CrossRefGoogle Scholar
Storey, H.H. (1924) The transmission of a new plant virus disease by insects. Nature 114, 245.CrossRefGoogle Scholar
Storey, H.H. (1925) The transmission of streak disease of maize by the leafhopper Balclutha mbila Naude. Annals of Applied Biology 12, 422439.CrossRefGoogle Scholar
Storey, H.H. (1931) The inheritance by a leafhopper of the ability to transmit a plant virus. Nature 127, 928.CrossRefGoogle Scholar
Storey, H. H. (1938) Investigation of the mechanisms of the transmission of plant viruses by insect vectors. III. The part played by puncture in transmission. Proceedings of the Royal Society of London. Ser (B) 125, 456477.Google Scholar
Van Rensburg, G.D.J. (1981) Effect of plant age and the time of infection with maize streak virus on yield of maize. Phytophylactica 13, 197198.Google Scholar
Van Rensburg, G.D.J. (1983) Southern African species of the genus Cicadulina China (Homoptera: Cicadellidae) with descriptions of new species. Entomology Memoir, Department of Agriculture, Republic of South Africa No. 57, 32 pp.Google Scholar
Van Rensburg, G.D.J. & Kuhn, H.C. (1977) Maize streak disease. South African Department of Agriculture Technical Service, Maize Series leaflet No. E3, 14.Google Scholar
Velusamy, R. & Heinrichs, E.A. (1986) Electronic monitoring of feeding behaviour of Nilaparvata lugens (Stal.) (Homoptera: Delphacidae) on resistant and susceptible rice cultivars. Environmental Entomology 15, 678682.CrossRefGoogle Scholar
Vilbaste, J. (1976) A review of Homoptera-Cicadinea described by S. Matsumara from Europe and Mediterranean area. Easti NSV Teaduste Akademia Toimetised 25 Koide Biologia 1, 2529.Google Scholar
Webb, D.M. (1987) Species recognition of Cicadulina leafhoppers (Hemiptera: Cicadellidae), vectors of pathogens of Gramineae. Bulletin of Entomological Research 77, 683712.CrossRefGoogle Scholar