A pheromone-based trapping system for monitoring the population of Cosmopolites sordidus [Germar] [Coleoptera: Curculionidae]

• Autorzy: Reddy G V P , Cruz Z.T. , Naz F. , Muniappan R.

Warianty tytułu

PL

Pulapki feromonowe do monitoringu populacji chrzaszcza Cosmopolites sordidus [German] Coleoptera: Curculionidae]

• Języki publikacji: EN

Abstrakty

EN

The banana root borer Cosmopolites sordidus (Coleoptera: Curculionidae) is native to Malaysia and Indonesia but is found in nearly all banana-growing areas of the world. Studies were conducted to determine the pheromone trap efficacy, effect of shade on trap catches and to monitor the population of C. sordidus using pheromones in Guam. In Guam, pheromone traps were used to monitor the population level of C. sordidus. Before monitoring began, two basic studies were carried out, which established that pheromone-baited ramp traps positioned in the shade of the banana crop canopy caught significantly more adults than those placed in sunlight and that ramp traps baited with pheromone lures caught significantly more adults than did identical traps without pheromone lures. Ramp traps baited with pheromone lures were set up at each of 10 locations throughout the island in November 2005. Weekly counts were made of the borers caught by the pheromone traps. The data indicated higher population levels (>10 per week) in the northern region and low (<5 per week) to medium level (5-10 week) populations in the southern part of the island. These differences among sites were highly significant. Linear and quadratic effects of rainfall on the number of borers captured were statistically significant, but according to quadratic regression models, the significance was due to differences at just one site.

PL

Chrząszcz Cosmopolides sorididus (Koleoptera: Curculionidae) jest rodzimym gatunkiem szkodnika występującym w Malezji i Indonezji, chociaż spotykany jest niemal we wszystkich rejonach uprawy drzew bananowych. Celem prezentowanych badań było określenie skuteczności pułapek feromonowych, wpływu zacienienia na liczebność odławianych dojrzałych osobników oraz monitoring populacji chrząszcza C. soridus z zastosowaniem wabiących pułapek feromonowych na wyspie Guam. Przed przystąpieniem do monitoringu przeprowadzono badania podstawowe, z których wynikało, że wabiące pułapki feromonowi usytuowane w cieniu korony drzewa bananowego odławiały znacznie więcej dorosłych osobników w porównaniu do takich samych pułapek wystawionych na ekspozycję słoneczną, a uzyskane różnice były istotne. Badania podstawowe potwierdziły też, że zastosowanie feromonu jako czynnika wabiącego owady miało istotny wpływ na liczebność odławianych chrząszczy w porównaniu z kontrolą (pułapki bez wabiących przynęt). Pułapki wabiące umiejscowiono w 10 punktach na terenie całej wyspy listopadzie 2005. Każdego tygodnia określano liczebność chrząszczy. Wyniki badań wykazały wyższy poziom populacji chrząszczy (powyżej 10 owadów tygodniowo) w północnej części wyspy oraz od niskiego (poniżej 5) do stanu średniego (5-10), w jej południowej części. Uzyskane różnice w poziomach populacji były wysoce istotne. Współczynniki regresji liniowej i kwadratowej wpływu poziomu opadów na liczebność populacji były też statystycznie istotne.

Słowa kluczowe

EN

plant protection; pheromone-based trapping; monitoring; animal population; beetle; Cosmopolites sordidus; Coleoptera; Curculionidae; banana root borer; trap; pheromone trap; pheromone trapping technique

• Wydawca: -
• Czasopismo: Journal of Plant Protection Research
• Rocznik: 2008
• Tom: 48
• Numer: 4
• Opis fizyczny: p.515-527,fig.,ref.

Twórcy

autor

Reddy G V P

• University of Guam, Mangilao, Guam 96923, USA

autor

Cruz Z.T.

autor

Naz F.

autor

Muniappan R.

Bibliografia

• Alpizar D., Fallas M., Oehlschlager A. C., Gonzalez L. M., Jayaraman S. 1999. Weevil aggregation pheromones for mass trapping banana weevil in banana and plantain. Abstracts of the XIV International Plant Protection Congress, p. 100. Jerusalem, Israel, July 1999.
• Arbogast R. T., Torto B., Van Engelsdorp D., Teal P. E. A. 2007. An effective trap and bait combination for monitoring the small hive beetle, Aethina tumida (Coleoptera: Nitidulidae). Florida Entomol.90: 404-406.
• Beauhaire J. P., Ducrot H., Malosse C., Rochat D., Ndiege I. O., Otieno D. O., 1995. Identification and synthesis of sordidin, a male pheromone emitted by Cosmopolites sordidus.Tetrahedron Lett.36: 1043-1046.
• Blackmer J. L., Byers J., Rodriguez-Saona C. 2008. Evaluation of colour traps for monitoring Lygus spp.: design, placement, height, time of day, and non-target effects. Crop Prot.27: 171-181.
• Budenberg W. J., Ndiege I. O., Karago F. W. 1993. Evidence for volatile male-produced pheromone in banana weevil Cosmopolites sordidus.J. Chem. Ecol.19: 1905-1916.
• Carlton R. E., Cardé R. T. 1990. Orientation of male gypsy moths, Lymantria dispar (L.), to pheromone sources: the role of olfactory and visual cues. J. Insect Behav.3: 443-469.
• Fletcher T. M., Moore J. C., Kitching W. 1997. Absolute configuration of Sordidin and 7-Episordidin emitted by the banana weevil, Cosmopolites sordidus.Tetrahedron Lett.38: 3475-3476.
• Franzmann B. A. 1972. Banana weevil borer in North Queensland. Queensland Agric. J. 319-321.
• Fukaya M., Wakamura S., Arakaki N., Yasui H., Yasuda T., Akino T. 2006. Visual ‘pinpoint’ location associated with pheromonal cue in males of the black chafer Holotrichia loochooana loochooana (Coleoptera: Scarabaeidae). Appl. Entomol. Zool.41: 99-104.
• Gold C. S., Pena J. E., Karamura E. B. 2001. Biology and integrated pest management for the banana weevil Cosmopolites sordidus (Germar) (Coleoptera: Curculionidae). Integr. Pest Manage. Rev.6: 79-155.
• Govender P., Viljoen A. 2004. The biology and management of the banana weevil, Cosmopolites sordidus in South Africa. Infomusa11: X.
• Gressitt J. L. 1954. Insects of Micronesia. Vol. 1. Bishop Museum, Honolulu.
• Hidaka T. 1972. Biology of Hyphantria cunea Drury (Lepidoptera: Arctiidae) in Japan. XIV. Mating behavior. Appl. Entomol. Zool.7: 116-132.
• Jayaraman S., Ndiege I. O., Oehlschlager C. A., Gonzales L. M., Alpizar D., Fallas M., Budenburg W. J., Ahuya P. 1997. Synthesis and analysis and field activity of sordidin, a male-produced aggregation pheromone of the banana weevil Cosmopolites sordidus.J. Chem. Ecol.23: 1145-1161.
• Koppenhoeffer A. M., Seshu Reddy K. V., Sikora R. A. 1994. Reduction of banana weevil populations with pseudostem traps. Inter. J. Pest Manag.40: 300-304.
• Mau R. F. L., Kessing J. L. M. 2005. Cosmopolites sordidus (Germar) ( http://www.extento.hawaii.edu/Kbase/crop/type/cosmopol.html
• McIntyre B. D, Gold C. S., Kashaija I. N., Ssali H., Night G., Bwamiki D. P. 2001. Biomass, nutrients, soil water and pest incidence in banana-legume intercrops. Biol. Fert. Soils34: 342-348.
• Mori K., Nakayama S., Takikawa H. 1996. Synthesis and absolute configuration of sordidin, the male-produced aggregation pheromone of the banana weevil, Cosmopolites sordidus.Tetrahedron Lett.37: 3741-3744.
• Ndiege I. O., Jayaraman S., Oehlschlager A. C., Gonzalez L. M., Alpizar D., Fallas M. 1996. Convenient synthesis and field activity of a male-produced aggregation pheromone for Cosmopolites sordidus.Naturwissenschaften83: 280-282.
• Oehlschlager C. A., Alpizar D., Fallas M., Gonzalez L. M., Jayaraman S. 2000. Pheromone-based mass trapping of the banana weevil Cosmopolites sordidus and the West Indian sugarcane weevil, Metamasius hemipterus in banana and plantain. Abstracts of the XXI International Congress of Entomology. Iguassu Falls, Brazil, 20-26 August 2000.
• Ostmark H. E. 1974. Economic insect pests of bananas. Annu. Rev. Entomol.19: 161-176.
• Prokopy R. J. 1986. Visual and olfactory stimulus interaction in resource finding by insects. p. 81-90. In: "Mechanisms in Insect Olfaction" (T. L. Payne M. C. Birch C. E. J. Kennedy eds.) Oxford University Press, Oxford, UK.
• Prokopy R. J., Owens E. O. 1983. Visual detection of plants by herbivorous insects. Annu. Rev. Entomol.28: 337-364.
• Raguso R. A., Willis M. A. 2002. Synergy between visual and olfactory cues in nectar feeding by naive hawkmoths. Anim. Behav.63: 685-695.
• Reddy G. V. P. 2007. Improved semiochemical-based trapping method for old-house borer, Hylotrupes bajulus (Coleoptera: Cerambycidae). Environ. Entomol.36: 281-286.
• Reddy G. V. P., Guerrero A. 2004. Interactions of insect pheromones and plant semiochemicals. Trends Plant Sci.9: 253-261.
• Rukazambuga N. D., Gold C. S., Gowen S. R. 1998. Yield losses in East African highland banana (Musa spp., AAA-EA group) caused by the banana weevil, Cosmopolites sordidus Germar. Crop Prot.17: 581-589.
• SAS Institute Inc. 2004. SAS/STAT user's guide, release 9.13. SAS Institute, Cary, NC.
• Sallam M. N., Peck D. R., McAvoy C. A., Donald D. A. 2007. Pheromone trapping of the sugarcane weevil borer, Rhabdoscelus obscures (Boisduval) (Coleoptera: Curculionidae): an evaluation of trap design and placement in the field. Aust. J. Entomol.46: 217-223.
• Sengooba T. 1986. Survey of banana pest problem complex in Rakai and Masaka districts, August 1986: preliminary trip report. Ministry of Agriculture, Namulonge Research Station, Uganda.
• Sikora R. A., Bafokuzara N. D., Mbwana A. S. S., Oloo G. W., Uronu B., Seshu Reddy K. V. 1989. Interrelationship between banana weevil, root lesion nematode and agronomic practices and their importance for banana decline in the United Republic of Tanzania. FAO Plant Protection Bulletin37: 151-157.
• Smith RI. 1982. Cosmopolites sordidus Germ. pp. 438-442. In: "Enfermedades, plagas y malezas de cultivos tropicales" (J. Kranz H. Schmutterer W. Koch eds.) Paul Parey, Berlin & Hamburg, Germany.
• Stover R. H., Simmonds N. W. 1987. Bananas. Tropical Agriculture Series. Scientific and Technical, UK.
• Tinzaara W., Tushemiereirwe W. K., Kashija I. 2000. Efficiency of pheromones and trap type in the capture of the banana weevil Cosmopolites sordidus Germar in Uganda. Ugandan J. Agric. Sci.5: 91-97.
• Tinzaara W., Dicke M., Van Huis A., Gold C. S. 2002. Use of infochemicals in pest management with special reference to the banana weevil, Cosmopolites sordidus (Germar) (Coleoptera: Curculionidae). Insect Sci. Appli.22: 241-261.
• Tinzaara W., Dicke M., Van Huis A., Van Loon J. J. A., Gold C. S. 2003. Different bioassays for investigating orientation responses of the banana weevil, Cosmopolites sordidus, show additive effects of host plant volatiles and a synthetic male-produced aggregation pheromone. Entomol. Exp. Applic.106: 169-175.
• Tinzaara W., Gold C. S., Dicke M., Van Huis A., Ragama P. E. 2005. Factors influencing pheromone trap effectiveness in attracting the banana weevil, Cosmopolites sordidus.Intern. J. Pest Manag.51: 281-288.
• Vet L. E. M., Dicke M. 1992. Ecology of infochemical use by natural enemies in a tritrophic context. Annu. Rev. Entomol.37: 141-172.
• Waterhouse D. F., Norris K. R. 1987. Biological Control Pacific Prospects. Inkata Press, Melbourne, Australia.
• Weddell J. A. 1932. The banana weevil borer. Brief Notes on Plaesius javanus Er., the histerid predator. Queensland Agric. J.38: 24-29.