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Assessing resistance of sugarcane varieties to sugarcane borer Diatraea saccharalis Fab. (Lepidoptera: Crambidae)

Published online by Cambridge University Press:  04 December 2017

A.C. Tomaz*
Affiliation:
Department of Plant Sciences, Universidade Federal de Viçosa, Avenue Ph Rolphs, s/n, Viçosa- MG, 36570-000, Brazil
A.E. Coutinho
Affiliation:
Department of Plant Sciences, Universidade Federal de Viçosa, Avenue Ph Rolphs, s/n, Viçosa- MG, 36570-000, Brazil
B.O. Soares
Affiliation:
Department of Plant Sciences, Universidade Federal de Viçosa, Avenue Ph Rolphs, s/n, Viçosa- MG, 36570-000, Brazil
L.A. Peternelli
Affiliation:
Department of Statistics, Universidade Federal de Viçosa, Av. Ph Rolphs, s/n, Viçosa- MG, 36570-000, Brazil
E.J.G. Pereira
Affiliation:
Department of Entomology, Universidade Federal de Viçosa, Av. Ph Rolphs, s/n, Viçosa- MG, 36570-000, Brazil
M.H.P. Barbosa
Affiliation:
Department of Plant Sciences, Universidade Federal de Viçosa, Avenue Ph Rolphs, s/n, Viçosa- MG, 36570-000, Brazil
*
*Author for correspondence Phone: +553138991114 Fax: +553138992614 Email: [email protected]

Abstract

In this study, we investigated resistance traits to the sugarcane borer Diatraea saccharalis Fab. (Lepidoptera: Crambidae) in the leaves and stalks of six sugarcane cultivars in a series of greenhouse and laboratory assays. Investigation of plant factors and infestation rates to better discriminate stalk damage by the sugarcane borer indicated that infestation of 7-month-old, single plants with 20 larvae at the third or fourth instar per plant was suitable to assess tunneling length. Three cultivars (i.e. SP803280, RB928064, and RB835486) had lower stalk damage (i.e. tunnel length) than cultivar SP891115, which exhibited relatively greater susceptibility to tunneling by the borer. The time required for the larvae to enter the sugarcane stalk was longer for cultivar SP803280, indicating resistance traits on the stalk surface, which correlated with lower stalk damage. Larvae feeding on SP813250 stalks had the lowest weight gain, indicating that this cultivar has resistance traits to larval development within its stalks. Cultivars RB867515 and SP891115 resulted in the highest mortality of early-stage larvae feeding on leaves, indicating the presence of resistance factors in their leaves. Multi-trait cluster and principal component analyses placed the cultivars into three and four clusters, respectively. The cultivars placed in different groups that exhibited resistance to leaf feeding, stalk entrance, and tunneling by the sugarcane borer could be used for crossings in sugarcane breeding programs with the goal of obtaining higher levels of resistance to D. saccharalis.

Type
Research Papers
Copyright
Copyright © Cambridge University Press 2017 

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References

Araújo, J.R., Botelho, P.S.M., Araújo, S.M.S.S., Almeida, L.C. & Degaspari, N. (1985) New artificial diet for rearing Diatraea saccharalis (Fabr.). Saccharum APC 36, 4548.Google Scholar
Barbosa, M.H.P., Resende, M.D.V., Dias, L.A.S., Barbosa, G.V.S., Oliveira, R.A., Peternelli, L.A. & Daros, E. (2012) Genetic improvement of sugar cane for bioenergy: the Brazilian experience in network research with RIDESA. Crop Breeding and Applied Biotechnology S2, 8798.Google Scholar
Bessin, R.T., Reagan, T.E. & Martin, F.A. (1990) A moth production index for evaluating sugarcane cultivars for resistance to the sugarcane borer (Lepidoptera: Pyralidae). Journal of Economic Entomology 83, 221225.Google Scholar
Botelho, P.S.M. & Macedo, N. (2002) Cotesia flavipes for controling Diatraea saccharalis (in Portuguese). pp 409425 in Parra, R.P., Botelho, P.S.M., Correa-Ferreira, B.S. & Bento, J.M.S (Eds) Biological Control in Brazil: Parasitoids and Predators (In Portuguese). São Paulo, Brazil, Manole.Google Scholar
Coburn, G.E. & Hensley, S.D. (1972) Differential survival of Diatraea saccharalis (F.) larvae on two varieties of sugarcane. Proceedings of International Society of Sugarcane Technologists 14, 440444.Google Scholar
Conab (National supply Company). (2016) Accompaniment of Brazilian Sugarcane Crop. v.1. Brasília: Conab. Available online at http://www.conab.gov.br.Google Scholar
Cruz, C.D. (2013) GENES – a software package for analysis in experimental statistics and quantitative genetics. Acta Scientiarum 35(3), 271276.Google Scholar
Cruz, C.D., Carneiro, P.C.S. & Regazzi, A.J. (2014) BIOMETRIC Models Applied to Crop Breeding. 3rd edn. Viçosa, Brazil, Universidade Federal de Viçosa.Google Scholar
Dinardo-Miranda, L.L. (2008) Sugarcane pests (in Portuguese). pp 349404 in Dinardo-Miranda, L.L., Vasconselos, A.C.M. & Landell, M.G. (Eds) Sugarcane (In Portuguese). Campinas, Brazil, Instituto Agronômico de Campinas.Google Scholar
Dinardo-Miranda, L.L., Anjos, I.A., Costa, V.P. & Fracasso, J.V. (2012) Resistance of sugarcane cultivars to sugarcane borer. Pesquisa Agropecuária Brasileira 47, 17.Google Scholar
Girón-Pérez, K., Oliveira, A.L., Teixeira, A.F., Guedes, R.N.C. & Pereira, E.J.G. (2014) Susceptibility of Brazilian populations of Diatraea saccharalis to Cry1Ab and response to selection for resistance. Crop Protection 62, 124128.Google Scholar
Gitahy, P.D.M., Souza, M.T.D., Monnerat, R.G., Arrigoni, E.D.B. & Baldani, J.I. (2007) A Brazilian Bacillus thuringiensis strain highly active to sugarcane borer Diatraea saccharalis (Lepidoptera: Crambidae). Brazilian Journal of Microbiology 38, 531537.Google Scholar
Goebel, F.R & Sallam, N. (2011) New pest threats for sugarcane in the new bioeconomy and how to manage them. Current Opinion Environmental Sustainability 3, 8189.Google Scholar
Hensley, S.D. & Hammond, A.H. (1968) Laboratory techniques for rearing the sugar cane borer on an artificial diet. Journal of Economic Entomology 61, 17421743.Google Scholar
Keeping, M.G. (2006) Screening of South African sugarcane cultivars for resistance to the stalk borer Eldana saccharina Walker (Lepidoptera: Pyralidae). African Entomology 14, 277288.Google Scholar
Klun, J.A. & Robinson, J.F. (1969) Concentration of two 1,4-benzoxazinones in dente corn at various stages of development of the plant and its relations to resistance of the host plant to the European corn borer. Journal of Economic Entomology 62, 214220.Google Scholar
Korndorfer, G.H., Ribeiro, A.C. & Andrade, L.A.B. (1999) Sugarcane (in Portuguese). pp. 2532 in Ribeiro, A.C., Guimarães, P.T.G. & Alvarez, V. (Eds) Recommendations for the Use of Correctors and Fertilizers in Minas Gerais. 5th edn. Viçosa, Comissão de Fertilidade do Solo do Estado de Minas Gerais.Google Scholar
Kvedaras, O.L., Keeping, M.G., Goebel, F.R. & Byrne, M.J. (2007). Larval performance of the pyralid borer Eldana saccharina Walker and stalk damage in sugarcane: influence of plant silicon, cultivar and feeding site. International Journal of Pest Management 53, 183194.Google Scholar
Long, W.H. & Hensley, S.D. (1972) Insect pests of sugar cane. Annual Review of Entomology 17, 149176.Google Scholar
Macedo, N. & Botelho, P.S.M. (1988) Integrated pest management of sugarcane borer Diatraea saccharalis (Fabricius, 1794) (Lepidoptera, Pyralidae) (in Portuguese). Brasil Açucareiro 162, 211.Google Scholar
Milligan, S.B., Balzarini, M. & White, W.H. (2003) Broad-sense heritability, genetic correlations, and selection indices for sugar-cane borer resistance and their relation to yield loss. Crop Science 43, 17291735.Google Scholar
Painter, R.H. (1951) Insect Resistance in Crop Plants. New York, Macmillan.Google Scholar
Posey, F.R., White, W.H., Reay-Jones, F.P.F., Gravois, K., Salassi, M.E., Leonard, B.R. & Reagan, T.E. (2006) Sugarcane borer (Lepidoptera: Crambidae) management threshold assessment on four sugarcane cultivars. Journal of Economic Entomology 99, 966971.Google Scholar
Ramanchandran, R. & Khan, Z.R. (1991) Feeding site selection of first instar larvae of Cnaphalocrocis medinalis on susceptible and resistant rice plants. Entomology Experimentalis et Applicata 60, 4350.Google Scholar
SAS Institute Inc. (2013) Base SAS® 9.4 Procedures Guide: Statistical Procedures. 2nd edn. Cary, NC, SAS Institute, Inc.Google Scholar
Sidhu, J.K., Stout, M.J. & Blouin, D.C. (2013) Performance and preference of sugarcane borer, Diatraea saccharalis, on rice cultivars. Entomologia Experimentalis et Applicata 149, 6776.Google Scholar
Smith, C.M. (2005) Plant Resistance to Arthropods: Molecular and Conventional Approaches. Berlin/Heidelberg, Germany, Springer Science & Business Media.Google Scholar
Stout, M.J. (2013) Reevaluating the conceptual framework for applied research on host-plant resistance. Insect Science 20, 263272.Google Scholar
Vargas, G., Gómez, L.A. & Michaud, J.P. (2015) Sugarcane stem borers of the Colombian Cauca River Valley: current pest status, biology, and control. Florida Entomologist 98, 728735.Google Scholar
Videla, G.W., Davis, F.M. & Willians, W.P. (1992) Fall armyworm (Lepidoptera: Noctuidae) larval growth and survivorship on susceptible and resistance corn at different vegetative growth stages. Journal of Economic Entomology 85, 24862491.Google Scholar
Ward, J.H. Jr. (1963) Hierarchical grouping to optimize an objective function. Journal of American Statistical Association 58, 236244.Google Scholar
White, W.H. (1993a) Cluster analysis for assessing sugarcane borer resistance in sugarcane line trials. Field Crops Research 33, 159168.Google Scholar
White, W.H. (1993b) Movement and establishment of sugarcane borer (Lepidoptera: Pyralidae) larvae onresistant and susceptible sugarcane. Florida Entomology 76, 465473.Google Scholar
White, W.H, Tew, T.L. & Richard, E.P. (2006) Association of sugarcane pith, rind hardness, and fiber with resistance to the sugarcane borer. Journal of American Society of Sugar Cane Technologists 26, 87100.Google Scholar
White, W.H., Hale, A.L., Veremis, J.C., Tew, T.L. & Richard, E.P. Jr. (2011) Registration of two sugarcane germplasm clones with antibiosis to the sugarcane borer (Lepidoptera: Crambidae). Journal of Plant Registration 5, 248253.Google Scholar
Wilson, B.E., VanWeelden, M.T., Beuzelin, J.M., Reagan, T.E., Way, M.O., White, W.H., Wilson, L.T. & Showler, A.T. (2015) A relative resistance ratio for evaluation of Mexican rice borer (Lepidoptera: Crambidae) susceptibility among sugarcane cultivars. Journal of Economic Entomology 108, 13631370.Google Scholar
Zhou, M. (2015) Selection for Eldana saccharina borer resistance in early stages of sugarcane breeding in South Africa. American Journal of Plant Sciences 6, 2168.Google Scholar
Zhou, M. (2016) Family selection as a strategy for stem borer (Eldana saccharina Lepidoptera: Pyralidae) resistance breeding in South Africa. American Journal of Plant Sciences 7, 2006.Google Scholar