Hostname: page-component-cd9895bd7-fscjk Total loading time: 0 Render date: 2024-12-23T11:21:33.518Z Has data issue: false hasContentIssue false

Development of a larval diet for the South American fruit fly Anastrepha fraterculus (Diptera: Tephritidae)

Published online by Cambridge University Press:  13 October 2014

M. Teresa Vera*
Affiliation:
Sección Zoología Agrícola, Estación Experimental Agroindustrial Obispo Colombres, Tucumán, Argentina CONICET, Tucumán, Argentina
Andrea Oviedo
Affiliation:
Sección Zoología Agrícola, Estación Experimental Agroindustrial Obispo Colombres, Tucumán, Argentina
Solana Abraham
Affiliation:
Sección Zoología Agrícola, Estación Experimental Agroindustrial Obispo Colombres, Tucumán, Argentina CONICET, Tucumán, Argentina
M. Josefina Ruiz
Affiliation:
Sección Zoología Agrícola, Estación Experimental Agroindustrial Obispo Colombres, Tucumán, Argentina CONICET, Tucumán, Argentina
M. Mendoza
Affiliation:
Sección Zoología Agrícola, Estación Experimental Agroindustrial Obispo Colombres, Tucumán, Argentina
Chiou Ling Chang
Affiliation:
USDA-ARS-DKI-USPBARC, Hilo, HI, USA
Eduardo Willink
Affiliation:
Sección Zoología Agrícola, Estación Experimental Agroindustrial Obispo Colombres, Tucumán, Argentina
*
Get access

Abstract

Mass-rearing protocols must be developed, in particular, a cost-effective larval diet, to implement the sterile insect technique against Anastrepha fraterculus (Wiedemann). The key elements of this diet are the optimal nutrients and their concentrations, diet supports or bulking agents, and the pH of the diet. To improve the currently used formulation and develop a more cost-effective diet, in the present study, we evaluated various supports, sugar contents, nutrient proportions and pH levels. Egg-to-pupa recovery was found to increase when agar was replaced with sponge cloth in the diet. Although low, the recovery values obtained when using the sugarcane bagasse-based diet were similar to those obtained when using the agar-based diet, but the percentage of adult emergence was lower. Larval viability was found to increase when the amount of sugar in the diet was doubled. Yet, it is still necessary to evaluate this diet on a larger scale and determine the feasibility of reusing the sponge cloth to reduce the costs of larval diets.

Type
Research Papers
Copyright
Copyright © ICIPE 2014 

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

Artiaga-López, T., Hernández, E., Domínguez-Gordillo, J., Moreno, D. S. and Orozco-Dávila, D. (2004) Mass-production of Anastrepha obliqua at the Moscafrut Fruit Fly Facility, Mexico, pp. 389392. In Proceedings of the 6th International Symposium on Fruit Flies of Economic Importance. 6–10 May 2002, Stellenbosch, South Africa (edited by Barnes, B. N.). Isteg Scientific Publications, Irene, South Africa.Google Scholar
Chang, C. L. (2009) Evaluation of yeasts and yeast products in larval and adult diets for the oriental fruit fly, Bactrocera dorsalis, and adult diets for the medfly, Ceratitis capitata, and the melon fly, Bactrocera cucurbitae. Journal of Insect Science 9, 23.Google Scholar
Chang, C. L., Caceres, C. and Ekesi, S. (2007) Life history parameters of Ceratitis capitata (Diptera: Tephritidae) reared on liquid diets. Annals of the Entomological Society of America 100, 900906.CrossRefGoogle Scholar
Chang, C. L., Caceres, C. and Jang, E. B. (2004) A novel liquid larval diet and its rearing system for melon fly, Bactrocera cucurbitae (Diptera: Tephritidae). Annals of the Entomological Society of America 97, 524528.CrossRefGoogle Scholar
Chang, C. L. and Kurashima, R. (1999) Effects of ascorbic acid-rich bell pepper on development of Bactrocera latifrons (Diptera: Tephritidae). Journal of Economic Entomology 92, 11081112.CrossRefGoogle Scholar
Chang, C. L., Vargas, R. I., Caceres, C., Jang, E. and Cho, I. K. (2006) Development and assessment of a liquid larval diet for Bactrocera dorsalis (Diptera: Tephritidae). Annals of the Entomological Society of America 99, 11911198.CrossRefGoogle Scholar
Cohen, A. C. (2004) Insect Diets: Science and Technology. CRC Press, Boca Raton, FL. 324 pp.Google Scholar
Enkerlin, W. R. (2005) Impact of fruit fly control programmes using the sterile insect technique, pp. 651676. In Sterile Insect Technique. Principles and Practice in Area-Wide Integrated Pest Management (edited by Dyck, V. A., Hendrichs, J. and Robinson, A. S.). Springer, Dordrecht, The Netherlands.CrossRefGoogle Scholar
FAO/IAEA/USDA (2003) Product Quality Control and Shipping Procedures for Sterile Mass-Reared Tephritid Fruit Flies. Joint FAO/IAEA Programme of Nuclear Techniques in Food and Agriculture. Manual, Version 5.0. IAEA, Vienna, Austria. 85 pp. Available athttp://www-naweb.iaea.org/nafa/ipc/public/ipc-mass-reared-tephritid.html.Google Scholar
Fay, H. A. C. and Wornoayporn, V. (2002) Inert reusable substrates as potential replacements for wheat bran in larval diets for Mediterranean fruit fly, Ceratitis capitata (Wied.) (Dipt., Tephritidae). Journal of Applied Entomology 126, 9296.CrossRefGoogle Scholar
Guillén, D. and Sánchez, R. (2007) Expansion of the national fruit fly control programme in Argentina, pp. 653660. In Area-Wide Control of Insect Pests: From Research to Field Implementation (edited by Vreysen, M. J. B., Robinson, A. S. and Hendrichs, J.). Springer, Dordrecht, The Netherlands.CrossRefGoogle Scholar
InfoStat (2004) InfoStat. Version 2004, Manual del Usuario. Grupo InfoStat, FCA, Universidad Nacional de Córdoba, 1st edn. Editorial Brujas, Argentina.Google Scholar
Jaldo, H. E. (2001) Estudios biológicos y poblacionales de Anastrepha fraterculus (Wiedemann) (Diptera: Tephritidae). PhD Thesis, Facultad de Agronomía y Zootecnia, Universidad Nacional de Tucumán, Argentina..Google Scholar
Jaldo, H. E., Gramajo, M. C. and Willink, E. (2001) Mass rearing of Anastrepha fraterculus (Diptera: Tephritidae): a preliminary strategy. Florida Entomologist 84, 716718.CrossRefGoogle Scholar
Katiyar, K. P. (1970) Comparación de dietas de zanahoria y bagazo para la cría de moscas del Mediterráneo. Turrialba 20, 217222.Google Scholar
Knipling, E. F. (1955) Possibilities of insect control or eradication through the use of sexually sterile males. Journal of Economic Entomology 48, 459462.CrossRefGoogle Scholar
Malavasi, A., Zucchi, R. A. and Sugayama, R. (2000) Biogeografia, pp. 9398. In Moscas-das-frutas de Importância Econômica no Brasil. Conhecimento Básico e Aplicado (edited by Malavasi, A. and Zucchi, R. A.). Holos Editora, Riberão Preto, Brazil.Google Scholar
Moreno, D. S., Ortega-Zaleta, D. A. and Mangan, R. L. (1997) Development of artificial larval diets for West Indian fruit fly (Diptera: Tephritidae). Journal of Economic Entomology 90, 427434.CrossRefGoogle Scholar
Nestel, D. and Nemny-Lavy, E. (2008) Nutrient balance in medfly, Ceratitis capitata, larval diets affects the ability of the developing insect to incorporate lipid and protein reserves. Entomologia Experimentalis et Applicata 126, 5360.CrossRefGoogle Scholar
Nestel, D., Nemny-Lavy, E. and Chang, C. L. (2004) Lipid and protein loads in pupating larvae and emerging adults as affected by the composition of Mediterranean fruit fly (Ceratitis capitata) meridic larval diets. Archives of Insect Biochemistry and Physiology 56, 97109.CrossRefGoogle ScholarPubMed
Norrbom, A. L. (2004) Host plant database for Anastrepha and Toxotrypana (Diptera: Tephritidae: Toxotripanini). Available athttp://www.sel.barc.usda.gov:8080/diptera/Tephritidae/TephIntro.html.Google Scholar
Oroño, L. E., Albornoz-Medina, P., Núñez-Campero, S., Van Nieuwenhove, G. A., Bezdjian, L. P., Martin, C. B., Schliserman, P. and Ovruski, S. M. (2008) Update of host plant list of Anastrepha fraterculus and Ceratitis capitata in Argentina, pp. 207225. In Fruit Flies of Economic Importance: From Basic to Applied Knowledge (edited by Sugayama, R. L., Zucchi, R. A., Ovruski, S. M. and Sivinski, J.). Proceedings of the 7th International Symposium on Fruit Flies of Economic Importance, 10–15 September 2006, Color Press, Salvador, Brazil.Google Scholar
Ortiz, G. (1998) Potential use of the sterile insect technique against the South American fruit fly, pp. 121130. In: The South American Fruit Fly, Anastrepha fraterculus (Wied.): Advances in Artificial Rearing, Taxonomic Status and Biological Studies. IAEA-TECDOC-1064. IAEA, Vienna, Austria.Google Scholar
Oviedo, A., Nestel, D., Papadopoulos, N. T., Ruiz, M. J., Prieto, S. C., Willink, E. and Vera, M. T. (2011) Management of protein intake in the fruit fly Anastrepha fraterculus. Journal of Insect Physiology 57, 16221630.CrossRefGoogle ScholarPubMed
Ovruski, S. M., Schliserman, P. and Aluja, M. (2003) Native and introduced host plants of Anastrepha fraterculus and Ceratitis capitata (Diptera: Tephritidae) in Northwestern Argentina. Journal of Economic Entomology 96, 11081118.CrossRefGoogle ScholarPubMed
Parker, A. G. (2005) Mass-rearing for sterile insect release, pp. 209232. In Sterile Insect Technique. Principles and Practice in Area-Wide Integrated Pest Management (edited by Dyck, V. A., Hendrichs, J. and Robinson, A. S.). Springer, Dordrecht, The Netherlands.CrossRefGoogle Scholar
Rivera, J. P., Hernández, E., Toledo, J., Salvador, M. and Silva, R. (2007) Dieta texturizada con agar para el desarrollo larvario de tres especies de moscas de la fruta (Diptera: Tephritidae). Folia Entomologica Mexicana 46, 3752.Google Scholar
Salles, L. A. B. (1995) Bioecologia e controle da Mosca-das-Frutas Sul-Americana. EMBRAPA-CPACT, Pelotas, Brazil. 58 pp.Google Scholar
Segura, D. F., Vera, M. T., Cagnotti, C. L., Vaccaro, N., de Coll, O., Ovruski, S. M. and Cladera, J. L. (2006) Relative abundance of Ceratitis capitata and Anastrepha fraterculus (Diptera: Tephritidae) in diverse host species and localities of Argentina. Annals of the Entomological Society of America 99, 7083.CrossRefGoogle Scholar
Singh, P. (1977) Artificial Diets for Insects, Mites, and Spiders. Plenum, New York. 594 pp.CrossRefGoogle Scholar
Tanaka, N., Hart, R. A., Okamoto, R. Y. and Steiner, L. F. (1972) Control of the excessive metabolic heat produced in diet by a high density of larvae of the Mediterranean fruit fly. Journal of Economic Entomology 65, 866867.CrossRefGoogle Scholar
Tanaka, N., Steiner, L. F., Ohinata, K. and Okamoto, R. (1969) Low-cost larval rearing medium for mass production of oriental and Mediterranean fruit flies. Journal of Economic Entomology 62, 967968.CrossRefGoogle Scholar
Vargas, R. I., Chang, H. and Williamson, D. L. (1983) Evaluation of a sugarcane bagasse larval diet for mass production of the Mediterranean fruit fly (Diptera: Tephritidae) in Hawaii. Journal of Economic Entomology 76, 13601362.CrossRefGoogle Scholar
Vera, T., Abraham, S., Oviedo, A. and Willink, E. (2007) Demographic and quality control parameters of Anastrepha fraterculus (Diptera: Tephritidae) maintained under artificial rearing. Florida Entomologist 90, 5357.CrossRefGoogle Scholar