Desenvolvimento e avaliação de alguns métodos de controle químico em Stomoxys calcitrans (Linnaeus) e Musca domestica (Linnaeus)

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DC Field	Value	Language
dc.creator	Coelho, Valéria Magalhães Aguiar	-
dc.creator.Lattes	http://lattes.cnpq.br/0174838161539244	por
dc.contributor.advisor1	Grisi, Laerte	-
dc.contributor.advisor1Lattes	http://lattes.cnpq.br/2144350398003754	por
dc.contributor.referee1	Grisi, Laerte	-
dc.contributor.referee2	Massard, Carlos Luiz	-
dc.contributor.referee3	Mello, Rubens Pinto de	-
dc.date.accessioned	2020-09-17T12:05:23Z	-
dc.date.issued	1988-08-29	-
dc.identifier.citation	COELHO, Valéria Magalhães Aguiar. Desenvolvimento e avaliação de alguns métodos de controle químico em Stomoxys calcitrans (Linnaeus) e Musca domestica (Linnaeus). 1988. 106 f. Dissertação (Mestrado em Ciências Veterinárias) - Instituto de Ciências Biológicas e da Saúde, Universidade Federal Rural do Rio de Janeiro, Seropédica - RJ, 1988.	por
dc.identifier.uri	https://tede.ufrrj.br/jspui/handle/jspui/3901	-
dc.description.resumo	No presente trabalho estudou-se a atividade mosquicida de compostos utilizados como carrapaticidas, bem como de novos compostos no controle de Musca domestica e Stomoxys calcitrans. É descrita a metodologia experimental desenvolvida e seu uso prático avaliado através do estudo do efeito mosquicida e do período residual de atividade destes compostos, quando aplicados em bovinos, equinos e em instalações. Foram estudados além da piretrina natural, os seguintes piretróides sintéticos: alfametrina, flumetrina, cipermetrina high cis, decametrina, fenvalerato, fluvalinate, FMC 63428, FMC 49655, FMC 57508, FMC 41752, FMC 45724 e San 811. Combinações de piretróides com o organo-fosforado DDVP e isoladamente do composto amitraz também foram estudados. A cipermetrina high cis aplicada por pulverização e a alfametrina pour-on utilizadas no tratamento de bovinos a ní- vel de campo foram os compostos que mostraram maior poder residual de atividade, em relacão a Stomoxys calcitrans, mantendo uma taxa de mortalidade > 95% até o 16º dia após a apli- x i x . cação. Com relação a Musca domestica o período residual de atividade dos piretróides em geral foi de apenas 2 dias, com exceção da aplicação de alfametrina pour-on que variou entre 6 a 8 dias. O efeito de repelência da alfametrina em relação a Stomoxys calcitrans foi avaliado em bovinos semi-estabulados e tratados por pulverização, utilizando-se o método de manuten- ção dos animais em baía telada, tendo demonstrado atividade até o 22º dia após o tratamento. A pulverização de instalações com alfametrina apresentou um efeito mosquicida e um período residual de atividade mais prolongado quando aplicada em superfície de madeira do que em paredes de cimento l i s o . A utilização de compostos análogos do hormônio juvenil na ração de suínos foi também estudada para o controle de Musca domestica. O composto codificado AB 1023, inibiu totalmente a emergência de adultos de Musca domestica por 21 dias consecutivos. Observaram-se alterações morfológicas das pupas formadas em todos os tratamentos u t i l i z a d o s	por
dc.description.abstract	The activity of tickcide compounds were studied in relation to the control of Musca domestica and Stomoxys calcitrans. It is described the experimental methods and it's use in the study of letal effect on flies as well as the residual a c t i v i t y in c a t t l e , horse and animal f a c i l i t i e s . Natural pyrethrins and the following synthetic pyrethroids: alphamethrin, cypermethrin high cis, decamethrin, fenvalerate, fluvalinate, FMC 63428, FMC 49655, FMC 57508, FMC 41752, FMC 45724 and San 811, were studied. Combination of pyrethroids with the organophosphate DDVP, polivinyl acetate (PVAC) and the compound amitraz were also t e s t e d . Cattle kept on pastures and treated with cypermethrin high cis by spraying and alphamethrin pour on showed a longer residual effect than other compounds, regarding control of Stomoxys calcitrans, with a mortality rate > 95%, up to the 16th day after treatment. The residual activity of the pyrethroids against Musca domestica were shorter than against Stomoxys x x i . calcitrans, with an average of only 2 days, with exception of the treatment with alphamethrin pour on, which ranged from 6 to 8 days. The repelence effect of alphamethrin to Stomoxys calcitrans was studied in cattle treated by spraying and using the method of observation in screen stable and it showed a detected residual effect up to 22 days after treatment. Spraying of animal facilities with alphamethrin showed higher and longer a c t i v i t y on wood than in c o n c r e t e s u r f a c e s . The use of insect juvenile hormone analogs in feed of pigs were studied for the control of Musca domestica. The compound codified as AB 1023 inhibit the emergence of adult flies during 21 consecutive days. Morphological modifications were observed in pupae from a l l t r e a t m e n t s .	eng
dc.description.provenance	Submitted by Celso Magalhaes (celsomagalhaes@ufrrj.br) on 2020-09-17T12:05:23Z No. of bitstreams: 1 1988 - Valéria Magalhães Aguiar Coelho.pdf: 693745 bytes, checksum: 1f597fb900db168c618dbb591848546e (MD5)	eng
dc.description.provenance	Made available in DSpace on 2020-09-17T12:05:23Z (GMT). No. of bitstreams: 1 1988 - Valéria Magalhães Aguiar Coelho.pdf: 693745 bytes, checksum: 1f597fb900db168c618dbb591848546e (MD5) Previous issue date: 1988-08-29	eng
dc.description.sponsorship	Coordenação e Aperfeiçoamento de Pessoal de Nível Superior - CAPES	por
dc.format	application/pdf	*
dc.thumbnail.url	https://tede.ufrrj.br/retrieve/61995/1988%20-%20Val%c3%a9ria%20Magalh%c3%a3es%20Aguiar%20Coelho.pdf.jpg	*
dc.language	por	por
dc.publisher	Universidade Federal Rural do Rio de Janeiro	por
dc.publisher.department	Instituto de Ciências Biológicas e da Saúde	por
dc.publisher.country	Brasil	por
dc.publisher.initials	UFRRJ	por
dc.publisher.program	Programa de Pós-Graduação em Ciências Veterinárias	por
dc.relation.references	ADAMS, T.S. 1974. The role of juvenile hormone in housefly ovarian follicle morphogenesis. J. Insect. Physiol., 20:263- 276. ADAMS, T.S. & HINTZ, A.M. 1969. Relationship of age, ovarian development, and the corpus allatum to mating in the housef l y , Musca domestica. J. I n s e c t . P h y s i o l . , 15:201-215. ADAMS, J.R. & FORGASH, A.J. 1966. The location of the contact chemoreceptors of the stable fly, Stomoxys calcitrans (Dipt e r a , Muscidae). Ann. Ent. Soc. Am., 59:133-141. AHRENS, E.H. 1977. Horn fly control with an insecticide impregnated ear tag. Southwest E n t o m o l 2:8-10. AHRENS, E.H. & COKE, J. 1979. Season long horn fly control with an insecticide - impregnated ear tag. J. Econ. Entomol., 72:215. APPERSON, C.S. & GEORGHIOU, G.P. 1975. Mechanisms of resistance to organophosphorus insecticides in Culex tarsalis. J. Econ. Entomol., 68:153-157. 92. ARTHUR, B.W. & CASIDA, J.E. 1957. Metabolism and selectivity of 0,0-dimethyl 2, 2, 2 - trichloro - 1 - hydroxyethyl phosphonate and its acetyl and vinyl derivatives. J. Agr. Food. Chem., 5:186-192. AXTELL, R.C. & EDWARDS, T.D. 1983. Efficacy and nontarget e f f e c t s of larvadex as a feed a d d i t i v e f o r c o n t r o l l i n g house flies in caged - layer poultry manure. Poultry Science, 62:2371-2377. BAGLEY, R.W. & BAUERNFEIND, J.C. 1972. Field experiences with juvenile hormone mimics. Insect juveni!e hormones. Ed. J.J. Menn, M. Beroza, 113-142, New York, Academic. BAILIE, H.D. & MORGAN, D.W.T. 1980, Field trials to assess the efficacy of permethrin for the control of flies on c a t t l e . The Vet. Rec., 106:124-127. BAILEY, D.L.; LA BRECQUE, G.C. & WHITFIELD, T.L. 1971. House fly control in a poultry house with insecticides in slowrelease plastic formulations. J. Econ. Entomol., 64(1): 138-140. BARNES, J.M. & VERSCHOYLE, R.D. 1974. Toxicity of new pyret h r o i d i n s e c t i c i d e . Nature, 248:711. BARTLETT, C. 1985. An olfactometer for measuring the repellent effect of chemicals on the stable fly Stomoxys calc i t r a n s (L.). P e t i s c . S c i . , 16:479-487. BISHOPP, F.C. 1913, The stable fly (Stomoxys calcitrans L.), an important l i v e s t o c k pest. J. Econ. Entomol., 6(1) : 112-126. BISHOPP, F.C. 1937. The stable fly. How to prevent its annoyance and its losses to livestock. USDA, Farmer's Bull., 1097, 19 pp. BLACKMAN, G.G. & HODSON, M.J. 1977. Further evaluation of permethrin for biting-fly control. Pestic. Sci., 8(3):270-273. BLAKESLEE, E.B. 1944. DDT as a barn spray in stablefly control. J. Econ. Entomol., 3 7 ( 1 ) : 1 3 4 - 1 3 5 . BLUME, R.R.; ROBERTS, R.H.; ESCHLE, J.L. & MATTER, J.J. 1971. Tests of aerosols of deet for protection of livestock from b i t i n g f l i e s . J. Econ. Entomol., 64(5):1193-1196. re BOURDEAU, P. 1987. Les topiques insecticides et acaricides: 1 p a r t i e . L e P o i n t V e t e r . , 1 9 ( 1 0 4 ) : 1 3 3 - 1 4 2 . BOWERS, W.S. 1968. Juvenile hormone: Activity of natural and synt h e t i c s y n e r g i s t s . Science, 161:895-897. BREEDEN, G.C.; TURNER, E.C. Jr. & BEANE, W.L. 1975. Methoprene as a feed additive for control of the house fly breeding in chicken manure. J. Econ. Entomol., 68(4):451-452. BRUCE, W.N. & DECKER, G.C. 1957. Experiments with several repellent formulations applied to cattle for the control of stable flies. J. Econ. Entomol., 50(6):709-713. BRUES, T. 1913. The geographical distribution of the stable fly, Stomoxys c a l c i t r a n s J . Econ. Entomol., 6 : 4 5 9 - 4 7 7 . BUSVINE, J.R. 1951. Mechanism of resistance to insecticide in houve f l i e s . Nature, 168:193-195. BYFORD, R.L.; QUISENBERRY, S.S.; SPARKS, T.C. & LOCKWOOD, J.A. 1985. Spectrum of insecticide cross-resistance in pyrethroidresistant populations of Haematobia irritans (Diptera: Mus- 94. c i d a e ) . J. Econ. Entomol., 7 8 ( 4 ) : 7 6 8 - 7 7 3 . CAMPBELL, J.B. & WRIGHT, J.E. 1976. Field evaluations of insect growth regulators, insecticides, and a bacterial agent for stable fly control in feedlot breeding areas. J. Econ. Entomol., 6 9 ( 5 ) : 5 6 6 - 5 6 8 . CAMPBELL, J.B.; WHITE, R.G.; WRIGHT, J.E.; CROOKSHANK, R. & CLANTON, D.C. 1977. Effects of stable flies on weight gains and feed efficiency of calves on growing or finishing rations. J. Econ. Entomol., 7 0 ( 5 ) : 5 9 2 - 5 9 4 . CARDOSO, J.B.F. & SCHONHORST, E.O. 1987. Projeto cypermethrin 8,5% (Brinco inseticida). Hora Veterinária, nº 38:11-19. CARLSON, D.A. & LEIBOLD, C.M. 1981. Field trials of pheromonetoxicant devices containing muscalure for house flies (Diptera: Muscidae). J. Med. Entomol., 1 8 ( 1 ) : 7 3 - 7 7 . CERF, D.C. & GEORGHIOU, G.P. 1972. Evidence of cross-resistance to a juvenile-hormone analogue in some insecticide-resistant h o u s e f l i e s . Nature, 239:401-402. CHADWICK, P.R. 1985. Surfaces and other factors modifying the effectiveness of pyrethroids against insects in public hea l t h . P e s t i c . S c i . , 16:383-391. CHADWICK, P.R.; INVEST, J.F. & BROWN, M.J. 1977. An example of cross-resistance to pyrethroids in DDT-resistant Aedes aegypt i . Pestic. S c i . , 8:618-624. CHENG, T.H. & KESLER, E.M. 1961. A three-year study on the effect of fly control on milk production by selected and randomized dairy herds. J. Econ. Entomol., 54(4):751-757. DEVRIES, D.H. & GEORGHIOU, G.P. 1980. A wide spectrum of resistance to pyrethroid insecticides in Musca doméstica. Experientia, 36:226-227. DOVE, W.E. 1947. Piperonyl butoxide, a new and safe insecticide for household and field. Am. Jour. Trop. Med., 27(3): 339- 345. DRUMMOND, R.O. 1985. New methods of applying drugs for the cont r o l of e c t o p a r a s i t e s , vet. P a r a s i t o l . , 18:111-119. DYTE, C.E. 1972. Resistance of synthetic juvenile hormone in a strain of the flour beetle, Tribolium casteneum. Nature, 238: 48-49. EATON, J.K. 1949. Insecticidal properties of certain organophosphorus compounds. Nature, 26(163):496. ELLIOTT, M.; FARHAM, A.W.; JANES, N.F.; NEEDHAM, P.H. & PEAR SON, B.C. 1967. 5-Benzyl 3-furylmethyl chrysanthemate: a new potent i n s e c t i c i d e . Nature, 213:493-494. ELLIOTT, M.; FARNHAM, A.W.; JANES, N.F.; NEEDHAM, P.H.; PULMAN, D.A. & STEVENSON, J.H. 1973. A photostable pyrethroid. Nature, 246(16):169-170. ELLIOTT, M.; FARNHAM, A.W.; JANES, N.F.; NEEDHAM, P.H. & PULMAN, D.A. 1974. Synthetic insecticide with a new order of a c t i v i t y . Nature, 248(1):710-711. ELLIOTT, M.; JANES, N.F.; POTTER, C. 1978. The future of pyrethroids in insect control. Ann. Rev. Entomol., 23:443-469. ESCOBAR, E.N.; LEFFEL, E.C. & MILLER, R.W. 1976. Feeding rabon to swine: larvicidal activity against house flies. J. of Animal Science, 42(6):1580-1581. 96. FARNHAM, A.W. 1971. Changes in cross-resistance patterns of houseflies selected with natural pyrethrins or resmethrin (5-benzyl-3-furylmethyl (±) cis, trans chrysanthemate). Pest. S c i . , 2:138-143. FARNHAM, A.W. 1973. Genetics of resistance of pyrethroid-selected house-flies, Musca domestica. Pestic. Sci., 4:513- 520. FOIL, L.D.; MEEK, C.L.; ADAMS, W.D. & ISSEL, C.J. 1983. Mechanical transmission of equine infectious anemia virus by deer flies (Chrysops flavidus) and stable flies (Stomoxys c a l c i t r a n s ) . Am. J. V e t Res., 44(1):155-156. FREEBORN, S.B.; REGAN, W.M. & FOLGER, A.W. 1925. The relation of flies and fly sprays to milk production. J. Econ. Entomol., 18:779-790. GERSDORFF, W.A. & MCGOVRAN, E.R. 1944. Laboratory tests on houseflies with DDT in contact sprays. J. Econ. Entomol., 3 7 ( 1 ) : 1 3 7 - 1 3 8 . GEORGHIOU, G.P.; ARIARATNAM, V.; PASTERNAK, M.E. & LIM, C.S. 1975. Organophosphorus multiresistance in Culex pipiens quinquefasciatus in California. J. Econ. Entomol., 68: 461-467. GOLENDA, C.F. & FORGASH, A.J. 1984. Toxicity of three isomeric mixtures of resmethrin to resistant and susceptible house flies (Diptera: Muscidae). J. Econ. Entomol., 77(5): 1105-1109. GOLENDA, C.F. & FORGASH, A.J. 1985. Fenvalerate cross-resistance in a resmethrin-selected strain of the house fly 97. (Diptera: Muscidae). J. Econ. Entomol., 78(1):19-23. GOODWIN, W.J.; SLOAN, M.J. & SCHWARDT, H.H. 1952. Repellency test for house flies and horn flies in New York State. J. Econ. Entomol., 4 5 ( 1 ) : 1 2 1 - 1 2 2 . GREENBERG, B. 1971. Flies and Disease, Vol. I. Ecology, classification and biotic associations. Univ. Press. Princeton, N.J., 856 pp. GREENBERG, B. 1973. Flies and Disease, Vol. II. Biology and disease t r a n s m i s s i o n . Princeton, N . J . , 447 pp. GUIMARÃES, J.H. 1986. Problemas ocasionados ao gado por moscas hematófagas no Brasil Stomoxys calcitrans e Haematobia irritans. Curso sobre doenças parasitárias dos ruminantes S.P.- S.A.A. Coordenadoria de Pesquisas Agropecuária - I n s t i t u t o de Zootecnia. HANSENS, E.J.; SCHMIDT, J.B. & BARBER, G.W. 1948. Resistance of house flies to residual applications of DDT in New Jersey. J. Econ. Entomol., 802-803. HARRIS, R.L.; FRAZER, E.D. & YOUNGER, R.L. 1973. Horn flies, stable flies, and house flies: development in feces of bovines treated orally with juvenile hormone analogues. J. Econ. Entomol., 66(5):1099-1102. HAWKINS, J.A.; ADAMS, W.V.; COOK, L.; WILSON, B.N. & RUTH, E.E. 1973. Role of horse fly (Tabanus fuscicosttatus hine) and (Stomoxys calcitrans) in transmission of equine infections anemia virus to ponies in Lousiana. Am. J. Vet. Res., 24:1583-1586. 98. HILLERTON, J.E.; BRAMLEY, A.J. & YARROW, N.H. 1985. Control of flies (Diptera: Muscidae) on dairy heifers by flecton eartags. Br. Vet. J., 141(2):160-167. HOFFMAN, R.A. & MONROE, R.E. 1957. Further tests on the control of fly larvae in poultry and cattle manure. J. Econ. Entomol., 5 0 ( 4 ) : 5 1 5 . HOUGH, W.S. 1934. Colorado and Virginia strains of codling moth in relation to their ability to enter sprayed and unsprayed apples. J. A g r i c . Res., 48(6):533-553. HOWELL, D.E. 1949. Piperonyl formulations as horse fly repel l e n t s . J. Econ. Entomol., 42:401-404. HOYER, R.F. & PLAPP, F.W. 1966. A gross genetic analysis of two DDT-resistant house fly strains. J. Econ. Entomol., 59: 495-501. HUGHES, P.B. 1982. Organophosphorus resistance for the sheep blow fly Lucilia cuprina (Wiedemann) (Diptera: Calliphoridae): a genetic study incorporating synergists. Bull. Entomol. Res., 72:573-582. HUGHES, P.B. & DEVONSHIRE, A.L. 1982. The biochemical basis of resistance to organophosphorus insecticides in the sheep blowfly, Lucilia cuprina. Pestic. Biochem. Physiol., 18:289- 297. JAKOB, W.L. 1973. Insect development inhibitors: tests with house f l y l a r v a e . J. Econ. Entomol., 66:819-820. KEIDING, J. 1976. Development of resistance to pyrethroids in field populations of danish houseflies. Pestic. Sci., 7:283- 291. 99. LEEUWEN, E.R.V. 1944. Residual effect of DDT against houseflies. J. Econ. Entomol., 3 7 ( 1 ) : 1 3 4 . LEGNER, R.F. & McCOY, C.W. 1966. The house fly Musca domestica Linnaeus as an exotic species in the western hemisphere incites biological control studies. Canad. Ent., 98(3):243-248. LINDQUIST, A.W. & WILSON, H.G. 1948. Development of a strain of h o u s e f l i e s r e s i s t a n t to DDT. Science, 107:276. LINDQUIST, D.A. & FAY, R.W. 1956. Laboratory comparison of eight organic phosphorus insecticides as larvicides against nonr e s i s t a n t house f l i e s . J. Econ. Entomol., 59(4):463-467. LINDSAY, A.W. & SCUDDER, H.I. 1956. Non biting flies and diseases. Ann. Rev. Ent., 1:323-346. MACKIE, T.T.; HUNTER, G.W. & WORTH, C.B. 1945. A manual of tropical medicine W.B. Saunders Co., Philadelphia and London, 612. MARTIN, S.J.S. 1975. A laboratory technique for the evaluation of compounds applied to cattle for the control of the stable fly , Stomoxys calcitrans. Proc. 8th Br. Insectic. Fungic. Conf., pp. 539-545. MATSUMURA, F. & BROWN, A.W.A. 1961. Biochemical of malathion resistance in Culex tarsalis. J. Econ. Entomol., 54:1176-1185. MATTSON, A.M.; SPILLANE, J.T. & PEARCE, G.W. 1955. Dimethyl 2,2- dichlorovinylphosphate (DDVP), an organic phosphorus compound highly toxic in insects. J. Agr. Food Chem., 3:319- 321. 100. MEIFERT, D.W.; PATTERSON, R.S.; WHITFIELD, T.; LABRECQUE, G.C. & WEIDHAAS, D.E. 1978. Unique attractant-toxicant system to control stable fly populations. J. Econ. Entomol., 71 (2):290-292. METCALF, R.L.; FUKUTO, T.R. & MARCH, R.B. 1959. Toxic action of dipterex and DDVP to the house fly. J. Econ. Entomol., 52(1):44-49. MILLER, R.W.; CORLEY, C. & HILL, K.R. 1975. Feeding TH 6040 to chickens: effects on larval house flies in manure and determination of residues in eggs. J. Econ. Entomol., 68:181-182. MOORHOUSE, D.E. 1972. Cutaneous lesions on cattle caused by stable f l y . Aust. Veter. J., 48:643-644. MUIR, F. 1914. On the original habitat of Stomoxys calcitrans J. Econ. Entomol., 7:459-460. NOLAN, J. 1985. Mechanisms of resistance to chemicals in arthropod parasites of veterinary importance. Vet. Paras., 18: 155-166. OBA, M.S.P. & BENEDITO, V.A. 1982. Avaliação da ação residual do permethrin, inseticida piretróide, sobre as moscas de estábulo. A Hora V e t e r i n á r i a , nº 10:13-15. OBA, M.S.P. & DELL'PORTO, A. 1982. Piretróides. A química moderna a serviço da produtividade. Agrop. Ciba-geigy, nº 18: 20-26. OLIVEIRA, S.J. & MOUSSATCHÉ, J. 1947. Ação do DDT (dicloro-difenil-tricloretana) sobre larvas e pupas de ''Musca domestica" Linneus. Rev. Brasil. Biol., 7(1):67-72. 101 . PHILPOTT, M. & EZEH, A.C. 1978. The experimental transmission by Musca and Stomoxys species of D. congolensis infection between c a t t l e . B r i t . Vet. J., 1 3 4 : 5 1 5 - 5 1 7 . PLAPP, F.W.; CHAPMAN, G.A. & MORGAN, S.W. 1965. DDT resistance in Culex tarsalis: cross-resistance to related compounds and metabolic fate of a C14 labeled DDT analog. J. Econ. Entomol., 5 8 : 1 0 6 4 - 1 0 6 9 . PLAPP, F.W. Jr. & HOYER, R.F. 1967. Insecticide resistance in the house fly: resistance spectra and preliminary genetic of resistance in eight strains. J. Econ. Entomol., 60:768- 774. PLAPP, F.W. & HOYER, R.F. 1968. Possible pleiotropism of a gene confering resistance to DDT, DDT analogs and pyrethrins in the housefly and Culex tarsalis. J. Econ. Entomol., 61: 761-765. POTTER, C. 1935. An account of the constitution and use of an atomised white oil-pyrethrum fluid - to controle Phodia interpunctella Hb. and Ephestia elutella Hb. in warehouses. Ann. Appl. B i o l . , 4 : 7 6 9 - 8 0 5 . PRASITTISUK, C. & BUSVINE, J.R. 1977. DDT - resistant mosquito strains with cross resistance to pyrethroids. Pestic. S c i . , 8 : 5 2 7 - 5 3 3 . QUAYLE, H.J. 1922. Resistance of certain scale insects in certain localities to hydrocyanic acid fumigation. J. Econ. Entomol., 5 8 : 1 0 6 4 - 1 0 6 9 . RASMUSSEN, R.L. & CAMPBELL, J.B. 1979. Bibliograph of the stable fly Stomoxys calcitrans (L.). Neb. Agric. Exp. Stn. 102. Rep., 8:47 pp. RIDDIFORD, L.M. 1970. Prevention of metamorphosis by exposure of insects eggs to juvenile hormone analogs. Science, 167: 287-288. RIDDIFORD, L.M. 1972. Juvenile hormone and insect embryonic development i t s p o t e n t i a l r o l e as an o v i c i d e . Insect juven i l e hormone, ed, J.J. Menn, M. Beroza, 5-27. New York. Academic. RUSCOE, C.N.E. 1977. The new NRDC pyrethroids as agricultural i n s e c t i c i d e s , Pestic. Sci., 8:236-242. SACCA, G. 1964. Comparative bionomics in the genus Musca. Ann. Rev. Ent., 9:341-358. SCHECHTER, M.S.; GREEN, N. & LAFORGE, F.B. 1949. Constituents of pyrethrum flowers X X I I I . Cinerolone and the synthesis of related cyclopentenolores. J. Am. Chem. Soc., 71:3165- 3173. SCHMIDT, C.D.; MATTER, J.J.; MEURER, J.H.; REEVES, R.E. & SHELLEY, B.K. 1976. Evaluation of a s y n t h e t i c p y r e t h r o i d f o r control of stable flies and horn flies on cattle. J. Econ. Entomol., 69:484-486. SCHNEIDERMAN, H.A. 1972. Insect hormones and insect cont r o l . In: Insect j u v e n i l e hormones, ed. JJ. Menn, M. Beroza, 5-27. New York, Academic. SCHUNTNER, C.A.; ROULSTON, W.J. & WHARTON, R.H. 1974. Toxicity of piperonyl butoxide to Boophilus microplus. Nature, (London). 249:386. 103. SCOTT, J.G. & GEORGHIOU, G.P. 1985. Rapid development of highlevel permethrin resistance in a field - collected strain of the house fly (Diptera: Muscidae) under laboratory selection. J. Econ. Entomol., 78(2):316-319. SEHNAL, F. & MEYER, A.S. 1968. Larval-pupal transformation control by juvenile hormone. Science, 159:981-984. SHEMANCHUK, J.A. 1981. Repellent action of permethrin, cypermethrin and resmethrin against black flies (Simulium spp.) a t t a c k i n g c a t t l e . P e s t i c Sci., 12:412-416. SIMMONS, S.W. & WRIGHT, M. 1944. The use of DDT in the treatment of manure for fly control. J. Econ. Entomol., 37(1): 135. SLAMA, K. & WILLIAMS, C.M. 1966. Paper factor as inhibitor of embryonic development of the European bug, Pyrhocoris apterus. Nature, 210:329-330. SMITH, H.S. 1941. Racial segregation in insect populations and its signifance in applied entomology. J. Econ. Entomol., 34 ( 1 ) : 1 - 1 3 . SMITH, A. 1952. House fly resistance to chemicals. J. Amer. Vet. Ass., 149(18):1655. SPIELMAN, A. & WILLIAMS, C.M. 1966. Lethal effects of synthetic juvenile hormone on larvae of the yellow fever mosquito, Aedes aegypti. Science, 154:1043-1044. SRIVASTAVA, U.S. & GILBERT, L.I. 1968. Juvenile hormone: Effects on a higher dipteran. Science, 161:61-62. SRIVASTAVA, U.S. & GILBERT, L.I. 1969. The influence of juvenile hormone on the metamorphosis of Sarcophaga bullata. J. 104. Insect Physiol., 15:177-189. STAAL, G.B. 1975. Insect growth regulators with juvenile hormone activity. Ann. Rev. Entomol., 20:417-460. STAAL, G.B. 1986. Anti juvenile hormone agents. Ann. Rev. Entomol., 31:391-429. STAGE, H.H. 1947. DDT to c o n t r o l insects a f f e c t i n g man and animals in a tropical village. J. Econ. Entomol., 40(6): 759-762. STAMMERS, F.M.G. & WHITFIELD, F.G.S. 1948. T o x i c i t y of DDT. Nature, 162(4107):120. STENERSEN, J.H.V. 1965. DDT-metabolism in resistant and susceptible stable flies and in bacteria. Nature, 207:660-661. STONE, B.F. & BROWN, A.W.A. 1969. Mechanisms of resistance to fenthion in Culex pipiens fatigans. Wied. Bull. W.H.O., 40. 401-408. STUBBS, V.K.; WILSHIRE, C. & WEBBER, L.G. 1982. Cyhalothrina novel a c a r i c i d a l and i n s e c t i c i d a l s y n t h e t i c p y r e t h r o i d for the control of the cattle tick (Boophilus microplus) and the buffalo fly (Haematobia irritans exigua). Aust. Vet. J., 59:152-155. SWEETMAN, H.L. 1947, Comparative effectiveness of DDT and DDD for control of flies. J. Econ. Entomol., 40(4):565-566. TITCHENER, R.N. & COCHRANE, D.G. 1980. Use of synthetic pyret h r o i d s . Vet. Rec., 107(22).517-516. WILLIAMS, C.M. 1956. The juvenile hormone of insects. Nature, 178:212-213. 105. WILLIAMS, C.M. 1967. Third-generation pesticides. Scient. Am., 217(1):13-18. WILLIAMS, R.E. & BERRY, J.G. 1980. Evaluation of CGA 72662 as a topical spray and feed additive for controlling house flies breeding in chicken manure. Poultry Sci., 59: 2207- 2217. WILLIAMS, R.E. & WESTBY, E.J. 1980. Evaluation of pyrethroids impregnated in cattle ear tags for control of face flies and horn flies. J. Econ. Entomol., 73(6):791-792. WILSON, H.G. & GAHHN, J.B. 1948. Susceptibility of DDR - resistant houseflies to other insecticidal sprays. Science, 107: 276-277. WILSON, H.G.; LABRECQUE, G.C. & THOMAS, J.A. 1975. Evaluation of new compounds as space sprays for the control of house f l i e s ( D i p t e r a : Muscidae). 11(6):754-755. WELLS, R.W. 1944. DDT as a flyspray on range cattle. J. Econ. Entomol., 37(1):136. WRIGHT, J.E. 1970. Hormones for control of livestock arthropods. Development of an assay to select candidate compounds with juvenile hormone activity in the stable fly. J. Econ. Entomol., 63(3):878-882 WRIGHT, J.E.; MCGOVERN, T.P.; SARMIENTO, R. & BEROZA, M. 1974. Juvenile hormone activity of substituted aryl 3,7 - dimethil G - octenyl ethers in the stable fly and house fly. J. Insect. Physiol., 20:423-427. WRIGHT, J.E. & SPATES, G.E. 1971. Biological evaluation of juv e n i l e hormones compounds against pupae of the s t a b l e f l y . 106. J. Agr. Food Chem., 19(2):289-290. WRIGHT, J.E.; SPATES, G.E. & SCHWARZ, M. 1976. Insect growth regulator AI3-36206. Biological activity against Stomoxys calcitrans and Musca domestica and its environmental stabil i t y . J. Econ. Entomol., 69(1):79-82. YATES, J.R. & SHERMAN, M. 1970. Latent and differential toxicity of insecticides to larvae and adults of six fly species. J. Econ. Entomol., 6 3 ( 1 ) : 1 8 - 2 3 . YEOMAN, G.H. & WARREN, B.C. 1968. Repellents for Stomoxys calcitrans (L.), the stable fly: techniques and a comparative laboratory assessement of butyl methylcinchoninate. Bull. Ent. Res., 59:563-577.	por
dc.rights	Acesso Aberto	por
dc.subject	Medicina Veterinária	por
dc.subject.cnpq	Medicina Veterinária	por
dc.title	Desenvolvimento e avaliação de alguns métodos de controle químico em Stomoxys calcitrans (Linnaeus) e Musca domestica (Linnaeus)	por
dc.type	Dissertação	por
Appears in Collections:	Mestrado em Ciências Veterinárias

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