Abstract
The basic principles of the single mark-recapture technique and the calculation of population size by the Lincoln Index and other simple methods are described in Chapter 2 in relation to estimating the size of larval populations. More complicated methods involving a series of markings and recaptures are more appropriate for studying adult populations, and are consequently described in this chapter, which also includes a review of the different marking methods as well as an account of adult dispersal. Mark-recapture techniques were principally devised for estimating population size, but adult mosquitoes have usually been marked to study dispersal, feeding behaviour, duration of the gonotrophic cycle, survival rates and other behaviours.
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References
Aarons, T., Walker, J. R., Gray, H. F. & Mezger, E. G. (1951). Studies of the flight range of Aedes squamiger (Coquillett). Proc. Calif. Mosq. Contr. Ass., 19, 65–9.
Abdel-Malek, A. A. (1961). The effect of radioactive phosphorous on the growth and development of Culex pipiens molestus Forsk. (Diptera: Culicidae). Bull. ent. Res., 53, 701–8.
Abdel-Malek, A. A. (1966). Study of the dispersion and flight range of Anopheles sergentii Theo. in Siwa Oasis using radioactive isotopes as markers. Bull. Wld Hlth Org., 35, 968–73.
Abdel-Malek, A. A. & Abdel-Wahab, M. F. (1961). Autoradiography as a technique for radioactive phosphorus, P-32 uptake in Culex molestus Forsk. Bull. Soc. ent. Egypte, 45, 409–18.
Alho, J. M. (1990). Logistic regression in capture-recapture models. Biometrics, 46, 623–35.
Anderson, R. A., Edman, J. D. & Scott, T. W. (1990). Rubidium and cesium as host blood-markers to study multiple blood feeding by mosquitoes (Diptera: Culicidae). J. med. Entomol., 27, 999–1001.
Aragao, M. B. (1953). Utilizçâo de mosquitos radioactivos na avaliagao do raio de võo. Revta bras. Malar. Doenc. trop., 5, 137–43.
Arnason, A. N. (1972a). Parameter estimates from mark-recapture experiments on two populations subject to migration and death. Res. Popul. Ecol., 13, 97–113.
Arnason, A. N. (1972b). ‘Prediction Methods and Variance Estimates for the Parameters of the Triple Catch—Two Population Model with Migration and Death’. Scient. Rep. No. 54, Dept. Computer Sci., University Manitoba, Canada, 31 pp. (mimeographed).
Asman, S. M., Nelson, R. L., McDonald, P. T. Milby, M. M. Reeves, W. C., White, K. D. & Fine, P. E. M. (1979). Pilot release of a sex-linked multiple translocation into a Culex tarsalis field population in Kern county, California. Mosquito News, 39, 248–58.
Bailey, D. L., Lowe, R. E., Fowler, J. E. F. & Dame, D. A. (1979). Sterilizing and packaging males of Anopheles albimanus Wiedemann for field release. Am. J. trop. Med. Hyg., 28, 902–8.
Bailey, N. T. J. (1951). On estimating the size of mobile populations from recapture data. Biometrika, 38, 293–306.
Bailey, N. T. J. (1952). Improvements in the interpretation of recapture data. J. Anim. Ecol., 21, 120–7.
Bailey, S. F. & Baerg, D. C. (1967). The flight habits of Anopheles freeborni Aitken. Proc. Calif. Mosq. Contr. Ass., 25, 55–9.
Bailey, S. F., Eliason, D. A. & litis, W. G. (1962). Some marking and recovery techniques in Culex tarsalis Coq. flight studies. Mosquito News, 22, 1–10.
Bailey, S. F., Eliason, D. A. & Hoffman, B. L. (1965). Flight and dispersal of the mosquito Culex tarsalis Coquillett in the Sacramento valley of California. Hilgardia, 37, 73–113.
Baldry, D. A. T. & Bennett, R. B. (1981). ‘Preliminary appraisal of X-ray energy-dispersive spectroscopy for studying tsetse dispersal’. 16th Mtg Int. sci Council tryp. Res. & Contr. Yaounde, 1979. Eleza Services Ltd, Nairobi, 334–40.
Barndorff-Nielsen, O. (1972). Estimation problems in capture-recapture analysis. Danish Rev. Game Biol., 6, No. 5, 22 pp.
Beesley, W. N. & Crewe, W. (1963). The bionomics of Chrysops silacea Austen, 1907 II. The biting-rhythm and dispersal in rain-forest. Ann. trop. Med. Parasit., 57, 191–203.
Begon, M. (1976). Dispersal, density and microdistribution in Drosophila subobscura Collin. Anim. Ecol., 45, 441–56.
Begon, M. (1979). Investigating Animal Abundance: Capture-recapture for Biologists. Edward Arnold, London, 97 pp.
Begon, M. (1983). Abuses of mathematical techniques in ecology: applications of Jolly’s capture-recapture method. Oikos, 40, 155–8.
Begon, M., Harper, J. L. & Townsend, C. R. (1986). Ecology. Individuals, Populations and Communities. Blackwell Sci. Pubis, Oxford, 876 pp.
Beier, J. C., Berry, W. J. & Craig, G. B. (1982). Horizontal distribution of adult Aedes triseriatus (Diptera: Culicidae) in relation to habitat structure, oviposition, and other mosquito species. J. med. Entomol., 19, 239–47.
Bennett, G. F. (1965). The effect of phosphorus32 on the fecundity of Aedes aegypti (L.) and its use in determining blood meal volumes. Mosquito News, 25, 465–9.
Bennett, S. R., McClelland, G. A. H. & Smilanick, J. M. (1981). A versatile system of fluorescent marks for studies of large populations of mosquitoes (Diptera: Culicidae). J. med. Entomol., 18, 173–4.
Bidlingmayer, W. L. & Schoof, H. F. (1957). The dispersal characteristics of the salt-marsh mosquito, Aedes taeniorhynchus (Wiedemann), near Savannah, Georgia. Mosquito News, 17, 202–12.
Birley, M. H. & Charlwood, J. D. (1989). The effect of moonlight and other factors on the oviposition cycle of malaria vectors in Madang, Papua New Guinea. Ann. trop. Med. Parasit., 83, 415–22.
Bishop, J. A. & Sheppard, P. M. (1973). ‘An evaluation of two capture-recapture models using the technique of computer simulation.’ pp. 233–244. In The Mathematical Theory of the Dynamics of Biological Populations (edit. M. S. Bartlett & R. W. Hiorns). Academic Press, London, xii + 347 pp.
Blower, J. G., Cook, L. M. & Bishop, J. A. (1981). Estimating the Size of Animal Populations. Allen & Unwin, London, 128 pp.
Bond, H. A., Craig, G. B. & Fay, R. W. (1970). Field mating and movement of Aedes aegypti. Mosquito News, 30, 394–402.
Bonnet, D. D. & Worcester, D. J. (1946). The dispersal of Aedes albopictus in the territory of Hawaii. Am. J. trop. Med., 26, 465–76.
Boreham, P. F. L. & Port, G. R. (1982). The distribution and movement of engorged females of Anopheles gambiae Giles (Diptera: Culicidae) in a Gambian village. Bull, ent. Res., 72, 489–95.
Bowden, J., Brown, G. & Stride, T. (1979). The application of X-ray spectrometry to analysis of elemental composition (chemoprinting) in the study of migration of Noctua pronuba L. Ecol Ent., 4, 199–204.
Bowden, J., Digby, P. G. N. & Sherlock, P. L. (1984). Studies of elemental composition as a biological marker in insects. I. The influence of soil type and host-plant on elemental composition of Noctua pronuba (L.) (Lepidoptera: Noctuidae). Bull. ent. Res., 74, 207–25.
Brenner, R. J., Wargo, M. J., Stains, G. S. & Mulla, M. S. (1984). The dispersal of Culicoides mohave (Diptera: Ceratopogonidae) in the desert of southern California. Mosquito News, 44, 343–50.
Brooks, G. D. & Singh, K. R. P. (1975). Quick release device for use in distribution of mosquitoes during genetic control operations. J. Commun. Dis., 7, 280–7.
Bruce-Chwatt, L. J. & Hayward, J. (1956). Uptake of radioactive phosphorus by larvae and adults of mosquitoes. Nature, Lond., 177, 661–2.
Brust, R. A. (1980). Dispersal behaviour of adult Aedes sticticus and Aedes vexans (Diptera: Culicidae) in Manitoba. Can. Ent., 112, 31–42.
Bryan, J. H., Foley, D. H., Geary, M. & Carven, C. T. J. (1991). Anopheles annulipes Walker (Diptera: Culicidae) at Griffith, New South Wales. 3. Dispersal of sibling species. J. Aust. ent. Soc., 30, 119–21.
Bugher, J. C. & Taylor, M. (1949). Radiophosphorous and radiostrontium in mosquitoes. Preliminary report. Science, N.Y., 110, 146–7.
Burton, G. J. (1964). Attack on the vector of filariasis in British Guiana. U.S. publ. Hlth Rep., 79, 137–43.
Calaprice, J. R. (1971). X-ray spectrometric and multivariate analysis of sockeye salmon (Oncorhynchus nerka) from different geographic regions. J. Fish. res. Bd. Can., 28, 369–77.
Campbell, M. M. & Kettle, D. S. (1976). Marking of adult Culicoides brevitarsis Kieffer (Diptera: Ceratopogonidae). J. Aust. ent. Soc., 14, 383–6.
Carle, F. L. & Strub, M. R. (1978). A new method for estimating population size from removal data. Biometrics, 34, 621–30.
Carothers, A. D. (1973). Capture-recapture methods applied to a population with known parameters. J. Anim. Ecol., 42, 125–46.
Carothers, A. D. (19736). The effects of unequal catchability on Jolly-Seber estimates. Biometrics, 29, 79–100.
Carothers, A. D. (1979). Quantifying unequal catchability and its effect on survival estimates in an actual population. J. Anim. Ecol., 48, 863–9.
Causey, O. R. & Kumm, H. W. (1948). Dispersion of forest mosquitoes in Brazil; preliminary studies. Am. J. trop. Med., 28, 469–80.
Causey, O. R., Kumm, H, W. & Laemmert, H. W. (1950). Dispersion of forest mosquitoes in Brazil: further studies. Am. J. trop. Med., 30, 301–12.
Chang, H. T. (1946). Studies on the use of fluorescent dyes for marking Anopheles quadrimaculatus. Mosquito News, 6, 122–5.
Chant, G. D. & Baldwin, W. F. (1972). Dispersal and longevity of mosquitoes tagged with 32P. Can. Ent., 104, 941.
Chapman, D. G. (1955). Population estimation based on changes of composition caused by a selective removal. Biometrika, 42, 279–90.
Chapman, D. G. & Junge, C. O. (1956). The estimation of the size of a stratified animal population. Ann. math. Statist., 27, 375–89.
Charlwood, J. D. & Alecrim, W. A. (1989). Capture-recapture studies with the South American malaria vector Anopheles darlingi, Root. Ann. trop. Med. Parasit., 83, 569–76.
Charlwood, J. D. & Bryan, J. H. (1987). A mark-recapture experiment with the filariasis vector Anopheles punctulatus in Papua New Guinea. Ann. trop. Med. Parasit., 81, 429–36.
Charlwood, J. D., Dagoro, H. & Paru, R. (1985). Blood-feeding and resting behaviour in the Anopheles punctulatus Donitz complex (Diptera: Culicidae) from coastal Papua New Guinea. Bull. ent. Res., 75, 463–75.
Charlwood, J. D., Graves, P. M. & Birley, M. H. (1986). Capture-recapture studies with mosquitoes of the group of Anopheles punctulatus Donitz (Diptera: Culicidae) from Papua New Guinea. Bull. ent. Res., 76, 211–27.
Charlwood, J. D., Graves, P. M. & Marshall, T. F. de C. (1988). Evidence for a ‘memorized’ home range in Anopheles farauti females from Papau New Guinea. Med. vet. Ent., 2, 101–8.
Chiang, G. L., Loong, K. P., Mahadevan, S. & Eng, K. L. (1988). A study of dispersal, survival and gonotrophic cycle estimates of Mansonia uniformis in an open swamp ecotype. Southeast Asian J. trop. Med. publ. Hlth, 19, 271–82.
Clark, D. P. (1962). An analysis of dispersal and movement in Phaulacridium vittatum (Siost.) (Acrididae). Aust. J. Zool., 10, 382–99.
Conrad, L. B., Joslyn, D. J. & Stewart, B. R. (1983). Laboratory testing of the Giemsa self-marker in four species of mosquitoes. Proc. Ann. Mtg New Jers. Mosq. Contr. Ass., 70, 84–9.
Conway, G. R., Trpis, M. & McClelland, G. A. H. (1974). Population parameters of the mosquito Aedes aegypti (L.) estimated by mark-release-recapture in a suburban habitat in Tanzania. J. Anim. Ecol., 53, 289–304.
Cook, L. M., Brower, L. P. & Croze, H. J. (1967). The accuracy of a population estimate from multiple recapture data. J. Anim. Ecol., 36, 57–60.
Coppedge, J. R., Spencer, J. P., Brown, H. E., Whitten, C. J., Snow, J. W. & Wright, J. E. (1979). A new dye marking technique for the screwworm. J. econ. Ent., 72, 40–2.
Cormack, R. M. (1968). The statistics of capture-recapture estimates. Oceanogr. Mar. Biol. Ann. Rev., 6, 455–506.
Cormack, R. M. (1972). The logic of capture-recapture estimates. Biometrics, 28, 337–43.
Cormack, R. M. (1973). ‘Commonsense estimates from capture-recapture studies.’ pp. 225–234. In The Mathematical Theory of the Dynamics of Biological Populations (edit. M. S. Bartlett & R. W. Hiorns). Academic Press, London, xii + 347 pp.
Craig, G. B. & Hickey, W. A. (1967). ‘Genetics of Aedes aegypt’. pp. 67–131. In Insect Vectors of Disease (edit. J. W. Wright & R. Pal). Elsevier, Amsterdam, xix + 794 pp.
Cunningham, M. P., Harley, J. M. B. & Grainge, E. B. (1963). ‘The Labelling of Animals with Specific Agglutinins and the Detection of these Agglutinins in the Blood Meals of Glossina.’ pp. 23–4. E. Afr. tryp. Res. Org. Rep., 1961. 55 pp.
Curry, D. P. (1939). A documented record of a long flight of Aedes sollicitans. Proc. New Jers. Mosq. Ex term. Ass., 26, 36–9.
Curtis, C. F. & Rawlings, P. (1980). A preliminary study of dispersal and survival of Anopheles culicifacies in relation to the possibility of inhibiting the spread of insecticide resistance. Ecol. Ent., 5, 11–17.
Dalmat, H. T. (1950). Studies on the flight range of certain Simuliidae, with the use of aniline dye marker. Ann. ent. Soc. Am., 43, 537–45.
Darling, S. T. (1925). Entomological research in malaria. Sth. med. J., Nashville, 18, 446–9.
Darroch, J. N. (1959). The multiple-capture census. II. Estimation when there is immigration or death. Biometrika, 46, 336–51.
Darroch, J. N. (1961). The two-sample capture-recapture census when tagging and sampling are stratified. Biometrika, 48, 241–60.
d’Auria, J. M. & Bennett, R. (1975). X-rays and trace elements. Chemistry, 48, 17–19.
Davies, R. G. (1971). Computer Programming in Quantitative Biology. Academic Press, London, xi + 492 pp.
Dempster, J. P. (1971). The population ecology of the Cinnabar moth, Tyria jacobaeae L. (Lepidoptera, Arctiidae). Oceologia, 7, 26–67.
Dempster, J. P., Lakhani, K. H. & Coward, P. A. (1986). The use of chemical composition as a population marker in insects: a study of the Brimstone butterfly. Ecol. Ent., 11, 51–65.
Dobzhansky, T. & Wright, S. (1943). Genetics of natural populations. X. Dispersion rates in Drosophila pseudoobscura. Genetics, 28, 304–40.
Dobzhansky, T. & Wright, S. (1947). Genetics of natural populations. XV. Rate of diffusion of a mutant gene through a population of Drosophila pseudoobscura. Genetics, 32, 303–40.
Dow, R. P. (1971). The dispersal of Culex nigripalpus marked with high concentrations of radiosphosphorus. J. med. Entomol., 8, 353–63.
Dow, R. P., Reeves, W. C. & Bellamy, R. E. (1965). Dispersal of female Culex tarsalis into a larvicided area. Am. J. trop. Med. Hyg., 14, 656–70.
Dowdeswell, W. H. (1967). Practical Animal Ecology. Methuen, London, 320 pp.
Dowdeswell, W. H., Fisher, R. A. & Ford, E. B. (1940). The quantitative study of populations in the Lepidoptera. 1. Polyommatus icarus Rott. Ann. Eugen. Lond., 10, 123–36.
Duncombe, W. G. (1959). An autoradiographic method for distinguishing samples labelled with phosphorous-32 and sulphur-35. Nature, Lond., 183, 319.
Dunn, P. H. & Mechalas, B. J. (1963). An easily constructed vacuum duster. J. econ. Ent., 56, 899.
Eberhardt, L. L. (1990). Using radio-telemetry for mark-recapture studies with edge effects. J. appl. Ecol., 27, 259–71.
Eddy, G. W., Roth, A. R. & Plapp, F. W. (1962). Studies on the flight habits of some marked insects. J. econ. Ent., 55, 603–7.
Edman, J. D. & Lea, A. O. (1972). Sexual behaviour of mosquitoes. 2. Large-scale rearing and marking of Culex for field experiments. Ann. ent. Soc. Am., 65, 267–9.
Eyles, D. E. (1943). A method for catching, marking, and re-examining large numbers of Anopheles quadrimaculatus. J. natn. Malar. Soc., 2, 85–91.
Eyles, D. E. (1944). ‘A Critical Review of the Literature Relating to the Flight and Dispersion Habits of Anopheline Mosquitoes.’ U.S. Publ. Hlth Bull., No. 287, 39 pp.
Eyles, D. E. & Bishop, L. K. (1943). An experiment on the range of dispersion of Anopheles quadrimaculatus. Am. J. Hyg., 37, 239–45.
Eyles, D. E. & Cox, W. W. (1943). The measurements of a population of Anopheles quadrimaculatus Say. J. natn. Malar. Soc., 2, 71–83.
Fales, J. H., Bodenstein, O. F., Mills, G. D. & Wessel, L. H. (1964). Preliminary studies on face fly dispersion. Ann. ent. Soc. Am., 57, 135–7.
Fay, R. W. & Craig, G. B. (1969). Genetically marked Aedes aegypti in studies of field populations. Mosquito News, 29, 121–7.
Fay, R. W., Baker, J. T. & Jensen, J. A. (1959). Radioactive tagging of Culex quinquefasciatus (Say) with 32P. Mosquito News, 19, 139–43.
Fisher, R. A. & Ford, E. B. (1947). The spread of a gene in natural conditions in a colony of the moth Panaxia dominula L. Heredity, Lond., 1, 143–74.
Fleischer, S. J., Gaylor, M. J., Hue, N. V. & Graham, L. C. (1986). Uptake and elimination of rubidium, a physiological marker, in adult Lygus lineolaris (Hemiptera: Miridae). Ann. ent. Soc. Am., 79, 19–25.
Fletcher, B. S. (1974). The ecology of a natural population of the Queensland fruit fly, Dacus tryoni. V. The dispersal of adults. Aust. J. Zool., 22, 189–202.
Fletcher, B. S., Kapatos, E. & Southwood, T. R. E. (1981). A modification of the Lincoln index for estimating the population densities of mobile insects. Ecol. Ent., 6, 397–400.
Ford, E. B. (1953). ‘The Experimental Study of Evolution.’ Rep. Brisbane Mtg Australian and N.Z. Ass. Adv. Sci. (1951), 28, 143–54.
Frank, J. H. & Curtis, G. A. (1977). On the bionomics of bromeliad-inhabiting mosquitoes. V. A mark-release-recapture technique for estimation of population size of Wyeomyia vanduzeei. Mosquito News, 37, 444–52.
Frank, P. W. (1964). On home range of limpets. Am. Nat., 98, 99–104.
Freeman, P. R. (1973a). Sequential recapture. Biometrika, 60, 141–53.
Freeman, P. R. (19736). A numerical comparison between sequential tagging and sequential recapture. Biometrika, 60, 499–508.
Fruton, J. S. & Simmonds, S. (1958). General Biochemistry, 2nd edn. John Wiley & Sons, New York, xii + 1077 pp.
Fryer, J. C. & Meek, C. L. (1989). Further studies on marking an adult mosquito, Psorophora columbiae, in situ using fluorescent pigments. SWest. Ent., 14, 409–18.
Fussell, E. M. (1964). Dispersal studies on radioactive-tagged Culex quinquefasciatus Say. Mosquito News, 24, 422–6.
Gangwere, S. K., Chavin, W. & Evans, F. C. (1964). Methods of marking insects with special reference to Orthoptera (Sens. lat.). Ann. ent. Soc. Am., 57, 662–9.
Garby, L., Yasuno, M. & Phurivethaya, Y. (1966). Labelling mosquitoes with radioactive iodine, 131I. Trans. R. Soc. trop. Med. Hyg., 60, 136.
Gardiner, J. E. (1963). A radioactive marking ink. Nature, Lond., 197, 414.
Garrett-Jones, C. (1962). The possibility of active long-distance migrations by Anopheles pharoensis Theobald. Bull. Wld Hlth Org., 21, 299–302.
Gaskell, T. J. & George, B. J. (1972). A Bayesian modification of the Lincoln index. J. appl. Ecol, 9, 377–84.
Gaydecki, P. A. (1984). ‘A quantification of the behavioural dynamics of certain Lepi-doptera in response to light’. Unpublished Ph.D. thesis, Cranfield Institute of Technology, Bedford, England. 157 pp.
Gazey, W. J. &. Staley, M. J. (1986). Population estimation from mark-recapture experiments using a sequential Bayes algorithm. Ecology, 67, 941–51.
Geiger, J. C., Purdy, W. C. & Tarbett, R. E. (1919). Effective malaria control in a ricefield district with observations on experimental mosquito flights. J. Am. med. Ass., 72, 844–7.
Germain, F., Hervé, J. P. & Geoffroy, B. (1977). Variations du taux de survie des femelles d’ Aedes africanus (Theobald) dans une galerie forestière de sud de l‘Empire Centrafricain. Cah. ORSTOM, sér. Entomol. méd. Parasit., 15, 291–9.
Germain, M., Eouzan, J. P. & Ferrara, L. (1972). Données sur les facultés de dispersion de deux diptères d’intérrêt médical: Aedes africanus (Theobald) et Simulium damnosum Theobald dans la domaine montagnard du nord du Cameroun occidental. Cah. ORSTOM, sér. Entomol. méd. Parasit., 10, 291–300.
Gibson, C. C. G. (1923). Malaria and mosquitoes in Belize, British Honduras. Jl R. Army med. Cps, 40, 38–3.
Gillies, M. T. (1958a). A modified technique for the age-grading of populations of Anopheles gambiae. Ann. trop. Med. Parasit., 52, 261–73.
Gillies, M. T. (19586). A simple autoradiographic method for distinguishing insects labelled with phosphorus-32 and sulphur-35. Nature, Lond., 182, 1684.
Gillies, M. T. (1961). Studies on the dispersion and survival of Anopheles gambiae Giles in East Africa, by means of marking and release experiments. Bull. ent. Res., 52, 99–127.
Gilmour, D., Waterhouse, D. F. & Mclntyre, G. A. (1946). An account of experiments undertaken to determine the natural population density of the sheep blowfly, Lucilia cuprina. Wied. Bull. Coun. scient, ind. Res., Aust., 195, 1–39.
Ginsberg, H. S. (1986). Dispersal patterns of Aedes sollicitons (Diptera: Culicidae) at the east end of the fire island national seashore, New York, USA. J. med. Entomol., 23, 146–55.
Graham, H. M. & Magnum, C. L. (1971). Larval diets containing dyes for tagging pink bollworm moths internally J. econ. Ent., 64, 376–9.
Greenslade, P. J. M. (1964). The distribution, dispersal and size of a population of Nebria brevicollis (F.), with comparative studies on three other Carabidae. J. Anim. Ecol., 33, 311–33.
Guthrie, J. E. & Brust, R. A. (1971). Sterilization of Aedes aegypti (L.) as a result of chronic exposure to low doses of beta radiation. Nature, Lond., 232, 345–6.
Guthrie, J. E. & Burzynski, A. Z. (1972). Accumulation of 137Cs by Aedes aegypti larvae and the effect of potassium concentration. Can. Ent., 104, 411–16.
Haddow, A. J. (1942). The mosquito fauna and climate of native huts at Kisumu, Kenya. Bull. ent. Res., 33, 91–142.
Haeger, J. S. (1960). Behavior preceding migration in the salt-marsh mosquito, Aedes taeniorhynchus. Mosquito News., 20, 136–47.
Hamada, R. (1976). Density estimation by the modified Jackson’s method. Appl. Entomol. Zool, 11, 194–201.
Hamlyn-Harris, R. (1933). Some ecological factors involved in the dispersal of mosquitoes in Queensland. Bull. ent. Res., 24, 229–32.
Haramis, L. D. & Foster, W. A. (1983). Survival and population density of Aedes triseriatus (Diptera: Culicidae) in a woodlot in central Ohio, USA. J. med. Entomol., 20, 391–8.
Harden, F. W. & Chubb, H. S. (1960). Observations of Aedes taeniorhynchus dispersal in extreme south Florida and the Everglades National Park. Mosquito News, 20, 249–55.
Hassett, C. C. & Jenkins, D. W. (1951). The uptake and effect of radio-phosphorus in mosquitoes. Physiol. Zool., 24, 257–66.
Haüsermann, W., Fay, R. W. & Hacker, C. S. (1971). Dispersal of genetically marked female Aedes aegypti in Mississippi. Mosquito News, 31, 37–51.
Hayes, D. K. & Schechter, M. S. (1970). Survival of codling moth larvae treated with methylene blue under short-and long-day photoperiod. J. econ. Ent., 63, 997.
Hayes, J. L. & Reed, K. G. (1989). Using rubidium-treated artificial nectar to label adults and eggs of Heliothis virescens (Lepidoptera: Noctuidae). Env. Ent., 18, 807–10.
Hendricks, D. E. (1971). Oil-soluble blue dye in larval diet marks adults, eggs, and firststage F1 larvae of the pink bollworm. J. econ. Ent., 64, 1404–6.
Hendricks, D. E. (1980). Low-frequency sonar device that counts flying insects attracted to sex pheromone dispensers. Env. Ent., 9, 452–7.
Hendricks, D. E. & Graham, H. M. (1970). Oil-soluble dye in larval diet for tagging moths, eggs, and spermatophores of tobacco budworms. J. econ. Ent., 63, 1019–20.
Hendricks, D. E., Leal, M. P., Robinson, S. H. & Hernandez, N. S. (1971). Oil-soluble black dye in larval diet marks, adults and eggs of the tobacco budworm and pink bollworm. J. econ Ent., 64, 1399–01.
Heron, R. J. (1968). Vital dyes as markers for behavioral and population studies of the Larch sawfly, Pristiphora erichsonii (Hymenoptera: Tenthredinidae). Can. Ent., 100, 470–5.
Hervy, J. P. (1977a). Expérience de marquage-lâcher-recapture portant sur Aedes aegypti Linné, en zone de savane soudanienne ouest-africaine. I. Le cycle trophogonique. Cah. ORSTOM, sér. Entomol. méd. Parasit., 15, 353–64.
Hervy, J. P. (19776). Expérience de marquage-lâcher-recapture, portant sur Aedes aegypti Linné, en zone de savane soudanienne ouest africaine. II. Relations entre habitat, morphologie et comportement. Cah. ORSTOM, sér. Entomol. méd. Parasit., 15, 365–72.
Hii, J. L. K. & Vun, Y. S. (1985). A study of dispersal, survival and adult population estimates of the malaria vector, Anopheles balabacensis Baisas (Diptera: Culicidae) in Sabah, Malaysia. Trop. Biomed., 2, 121–31.
Hocking, B. (1953). The intrinsic range and speed of flight of insects. Trans. R. ent. Soc. Lond., 104, 223–345.
Holbrook, F. R., Belden, R. P. & Bobian, R. J. (1991). Rubidium for marking adults of Culicoides variipennis (Diptera: Ceratopogonidae). J. med. Entomol., 28, 246–9.
Howard, J. J., White, D. J. & Muller, S. L. (1989). Mark-recapture studies on the Culiseta (Diptera: Culicidae) vectors of eastern equine encephalitis virus. J. med. Entomol., 26, 190–9.
Hudson, J. E. & Edman, J. D. (1978). Dispersal of blood-fed Culiseta inornata and Culiseta alaskaensis at Edmonton, Alberta. Mosquito News, 38, 87–9.
Ikeshoji, T. & Yap, H. H. (1990). Impact of the insecticide-treated sound traps on an Aedes albopictus population. Jap. J. sanit. Zool., 41, 213–17.
Itô, Y. (1973). A method to estimate a minimum population density with a single recapture census. Res. Popul. Ecol., 14, 159–69.
Ivanova, V. L. & Ipatov, V. P. (1987). Migration routes of Aedes communis De Geer, Ae. punctor Kirby and Ae. pionips Dyar mosquito females. Communication I. The method of fluorescent dust labelling applied to follow up the mosquito flying into the settlement in the Middle taiga zone. Med. Parasit. Parasitic Dis., 56, 55–9 (In Russian, English summary).
Iwao, S. (1963). On a method for estimating the rate of population interchange between two areas. Res. Popul. Ecol., 5, 44–50.
Jackson, C. H. N. (1933). On a method of marking tsetse flies. J. Anim. Ecol., 2, 289–90.
Jackson, C. H. N. (1939). The analysis of an animal population. J. Anim. Ecol., 8, 238–46.
Jenkins, D. W. (1949). A field method for marking arctic mosquitoes with radiophosphorus. J. econ. Ent., 40, 988–9.
Jenkins, D. W. (1963). ‘Use of radionuclides in ecological studies in insects.’ pp. 431–40. In Radioecology (edit V. Schultz and A. W. Klement). National Symposium on Radioecology, 1961. Reinhold, New York, xvii + 746 pp.
Jenkins, D. W. & Hassett, C. C. (1950). Radioisotopes in entomology. Nucleonics, 6, 5–14.
Jenkins, D. W. & Hassett, C. C. (1951). Dispersal and flight range of subarctic mosquitoes marked with radiophosphorus. Can. J. Zool., 29, 178–87.
Jensen, T. & Washino, R. K. (1991). An assessment of the biological capacity of a Sacramento valley population of Aedes melanimon to vector arboviruses. Am. J. trop. Med. Hyg., 44, 355–63.
Johnson, C. G. (1969). Migration and Dispersal of Insects by Flight. Methuen & Co. Ltd., London, xxii + 763 pp.
Jolly, G. M. (1965). Explicit estimates from capture-recapture data with both birth and immigration-stochastic model. Biometrika, 52, 225–47.
Jones, R. L., Harrell, E. A. & Snow, J. W. (1972). Three dyes as markers for Corn Earworm moths. J. econ. Ent., 65, 123–6.
Joslyn, D. J. & Fish, D. (1986). Adult dispersal of Aedes communis using Giemsa selfmarking. J. Am. Mosq. Contr. Ass., 2, 89–90.
Joslyn, D. J., Conrad, L. B. & Slavin, P. T. (1985). Development and preliminary field testing of the Giemsa self-marker for the salt marsh mosquito Aedes sollicitans (Walker) (Diptera: Culicidae). Ann. ent. Soc. Am., 78, 20–3.
Kay, B. H. & Mottram, P. (1986). In-vivo staining of Aedes vigilax, Aedes aegypti and Culex annulirostris larvae with Giemsa and other vital dyes. J. Am. Mosq. Contr. Ass., 2, 141–5.
Kelker, G. H. (1940). Estimating deer populations by a differential hunting loss in the sexes. Proc. Utah Acad. Sci., 17, 65–9.
Kettle, D. S. (1951). The spatial distribution of Culicoides impunctatus Goet. under woodland and moorland conditions and its flight range through woodland. Bull. ent. Res., 42, 239–91.
Khudadov, G. D. (1959). The method of marking insects by introducing radioactive isotopes incorporated into foodstuffs. Byull. mosk. Obshch. Ispyt. Prir. (N.S.) Otd. Biol., 64, 35–45 (In Russian, English summary).
Kimsey, R. B. & Kimsey, P. B. (1984). Identification of arthropod blood meals using rubidium as a marker; a preliminary report. J. med. Entomol., 21, 714–19.
Kirkpatrick, T. W. (1925). The Mosquitoes of Egypt. Cairo Govt. Press, Cairo, xi + 224 pp.
Kline, D. L. & Wood, J. R. (1989). ‘Practical assessment and enhancement of some currently used adult surveillance techniques for Florida mosquitoes. Phase IF. Final Report to Florida Dept. Hlth & Rehabil., 29 pp. (unpublished report).
Knight, R. H. & Southon, H. A. W. (1963). A simple method for marking haema-tophagous insects during the act of feeding. Bull. ent. Res., 54, 379–82.
Krebs, C. J. & Boonstra, R. (1984). Trappability estimates for mark-recapture data. Can. J. Zool., 62, 2440–4.
Kuper, S. W. A. & Pelc, C. R. (1953). Radioactive labelling experiments with Plasmodium. Parasitology, 42, 269–71.
Kurihara, T. (1963). Radioactive tagging of Culex pipiens with P32. Jap. J. sanit. Zool., 14, 16–19 (In Japanese, English summary).
LaSalle, M. W. & Dakin, M. E. (1982). Dispersal of Culex salinarius in southwestern Louisiana. Mosquito News, 42, 543–50.
Legg, D. E. & Chiang, H. C. (1984). Rubidium marking technique for the European Corn Borer (Lepidoptera: Pyralidae) in corn. Em. Ent., 13, 578–83.
Le Prince, J. A. A. & Griffitts, T. H. D. (1917a). Flight of Mosquitoes. Studies on the Distance of Flight of Anopheles quadrimaculatus. U.S. Publ. Hlth Rep., 32, 656–9.
Le Prince, J. A. & Griffitts, T. H. D. (1917b). Notes from a malaria survey: impounded waters, biting of A. punctipennis on porches, distance of flight of A. quadrimaculatus. Sth. med. J., Nashville, 10, 642–4.
Leslie, P. H. (1952). The estimation of population parameters from data obtained by means of the capture-recapture method. II. The estimation of total numbers. Biometrika, 39, 363–88.
Leslie, P. H. & Chitty, D. (1951). The estimation of population parameters from data obtained by means of the capture-recapture method. I. The maximum likelihood equations for estimating the death-rate. Biometrika, 38, 269–92.
Lewis, C. T. & Waloff, N. (1964). The use of radioactive tracers in the study of dispersion of Orthotylus virescens (Douglas & Scott) (Miridae, Heteroptera). Entomologia exp. appl., 7, 15–24.
Lillie, T. H., Marquardt, W. C. & Jones, R. H. (1981). The flight range of Culicoides variipennis (Diptera: Ceratopogonidae). Can. Ent., 113, 419–26.
Lillie, T. H., Kline, D. L. & Hall, D. W. (1985). The dispersal of Culicoides mississippiensis (Diptera: Ceratopogonidae) in a salt marsh near Yankeetown, Florida. J. Am. Mosq. Contr. Ass., 1, 463–7.
Lincoln, R. J., Boxshall, G. A. & Clark, P. F. (1982). A Dictionary of Ecology, Evolution and Systematics. Cambridge University Press, Cambridge, 298 pp.
Lindig, O. H., Wiygul, G., Wright, J. E., Dawson, J. R. & Roberson, J. (1980). Rapid method for mass-marking boll weevils. J. econ. Ent., 73, 385–6.
Lindquist, A. W., Ikeshoji, T., Grab, B., De Meillon, B. & Khan, Z. H (1967). Dispersion studies of Culex pipiens fatigans tagged with 32P in the Kemmendine area of Rangoon, Burma. Bull. Wld Hlth Org., 36, 21–37.
Lines, J. D., Lyimo, E. O. & Curtis, C. F. (1986). Mixing of indoor-and outdoor-resting adults of Anopheles gambiae Giles s.l. and A. funestus Giles (Diptera: Culicidae) in coastal Tanzania. Bull. ent. Res., 76, 171–8.
Linthicum, K. J., Bailey, C. L., Davies, F. G. & Kairo, A. (1985). Observations on the dispersal and survival of a population of Aedes lineatopennis (Ludlow) (Diptera: Culicidae) in Kenya. Bull. ent. Res., 75, 661–70.
Loong, K. P., Chiang, G. L., Eng, K. L., Chan, S. T. & Yap, H. H. (1990). Survival and feeding behaviour of Malaysian strains of Anopheles maculatus Theobald (Diptera: Culicidae) and their role in malaria transmission. Trop. Biomed., 7, 71–6.
Low, N. (1925). Anti-malarial work in Ismailia. Jl R. Army med. Cps, 45, 52–4.
Lowe, R. E., Bailey, D. L., Dame, D. A., Savage, K. E. & Kaiser, P. E. (1980). Efficiency of techniques for the mass release of sterile male Anopheles albimanus Wiedemann in El Salvador. Am. J. trop. Med. Hyg., 29, 695–703.
MacCreary, D. & Stearns, L. A. (1937). Mosquito migration across Delaware Bay. Proc. New Jers. Mosq. Exterm. Ass., 24, 188–97.
Macdonald, W. W., Sebastian, A. & Tun, M. M. (1968). A mark-release-recapture experiment with Culex pipiens fatigans in the village of Okpo, Burma. Ann. trop. Med. Parasit., 62, 200–9.
MacLeod, J. (1958). The estimation of numbers of mobile insects from low-incidence recapture data. Trans. R. ent. Soc. Lond., 110, 363–92.
MacLeod, J. & Donnelly, J. (1957). Individual and group marking methods for fly-popu-lation studies. Bull. ent. Res., 48, 585–92.
Majid, S. A. (1937). An improved technique for marking and catching mosquitoes. Rec. Malar. Surv. India, 7, 105–7.
Manly, B. F. J. (1969). On a method of population estimation using capture-recapture data. Entomologist, 102, 117–20.
Manly, B. F. J. (19696). Some properties of a method of estimating the size of mobile animal populations. Biometrika, 56, 407–10.
Manly, B. F. J. (1970). A simulation study of animal population estimation using the capture-recapture method. J. appl. Ecol., 7, 13–39.
Manly, B. F. J. (1971). A simulation study of Jolly’s method for analysing capture-recapture data. Biometrics, 27, 415–24.
Manly, B. F. J. (1985). A test of Jackson’s method for separating death and emigration with mark-recapture data. Res. Popul. Ecol., 27, 99–109.
Manly, B. F. J. & Parr, M. J. (1968). A new method of estimating population size, survivorship, and birth rate from capture-recapture data. Trans. Soc. Br. Ent., 18, 81–9.
Marten, G. G. (1969). A regression method for mark-recapture estimation of population size with unequal catchability. Ecology, 51, 291–5.
McCarty, J. C., Jenkins, J. N., Parrott, W. L. & Davich, T. B. (1972). Effect of dyes on body fat and eye color of Ebony Pearl boll weevils. J. econ. Ent., 65, 370–2.
McClelland, G. A. H. & Conway, G. R. (1971). Frequency of blood feeding in the mosquito Aedes aegypti. Nature, Lond., 232, 485–6.
McClelland, G. A. H., McKenna, R. J. & Cahill, T. A. (1973a). ‘New Approaches for Mark-Release-Recapture Studies on Biting Insects.’ Proc. Symposium on Biting Fly Control and Environmental Quality. Alberta, Canada (1972), DR 217, pp. 49–52.
McClelland, G. A. H., McKenna, R. J., Jolly, D. J. & Cahill, T. A. (1973b). Results of preliminary mark-release-recapture trials with Aedes nigromaculis. Proc. Calif. Mosq. Contr. Ass., 41, 107–8.
McDonald, P. T. (1977a). Population characteristics of domestic Aedes aegypti (Diptera: Culicidae) in villages on the Kenya coast. I. Adult survivorship and population size. J. med. Entomol., 14, 42–8.
McDonald, P. T. (1977b). Population characteristics of domestic Aedes aegypti (Diptera: Culicidae) in villages on the Kenya coast. II. Dispersal within and between villages. J. med. Entomol., 14, 49–53.
McLean, J. A. & Bennett, R. B. (1978). Characterization of two Gnathotrichus sulcatus populations by X-ray energy spectrometry. Env. Ent., 7, 93–6.
McLean, J. A., Stump, I. G., d’Auria, J. M. & Holman, J. (1979). Monitoring trace elements in diets and life stages of the onion maggot, Hylemya antiqua (Diptera: An thorny iidae), with X-ray energy spectrometry. Can. Ent., 111, 1293–8.
Meek, C. L., Broussard, B. B. & Andis, M. D. (1987). Marking adult mosquitoes using aerially applied fluorescent pigment. J. Am. Mosq. Contr. Ass., 3, 400–2.
Meek, C. L., Fryer, J. C. & Niebylski, M. L. (1988). Marking adult mosquitoes using fluorescent pigments in dispersal studies. Bull. Soc. vect. Ecol., 13, 319–22.
Milby, M. M. (1979). The mark-release-recapture study as a research technique. Proc. Calif Mosq. & Vect. Contr. Ass., 47, 83–5.
Milby, M. M., Reisen, W. K. & Reeves, W. C. (1983). Intercanyon movement of marked Culex tarsalis (Diptera: Culicidae). J. med. Entomol., 20, 193–8.
Miller, S. D., Becker, E. F. & Ballard, W. H. (1987). Black and brown bear density estimates using modified capture-recapture techniques. Int. Conf Bear Res. Mgmt, 7, 23–5.
Mitchell, C. J. (1979). Winter survival of Culex tarsalis (Diptera: Culicidae) hibernating in mine tunnels in boulder county, Colorado, USA. J. med. Entomol., 16, 482–7.
Moflitt, H. R. & Albano, D. J. (1972). Vacuum application of fluorescent powders as markers for adult Codling moths. J. econ. Ent., 65, 882–4.
Mori, A. (1979). Effects of larval density and nutrition on some attributes of immature and adult Aedes albopictus. Trop. Med., 21, 85–103.
Mori, A. & Wada, Y. (1977). The gonotrophic cycle of Aedes albopictus in the field. Trop. Med., 19, 141–6.
Morlan, H. B. & Hayes, R. O. (1958). Urban dispersal and activity of Aedes aegypti. Mosquito News, 18, 137–44.
Morton, A. C. (1982). The effects of marking and capture on recapture frequencies of butterflies. Oecologia (Berl.), 53, 105–10.
Mosby, H. S. (1969). The influence of hunting on the population dynamics of a woodlot grey squirrel population J. Wldl. Mgmt, 33, 59–73.
Moss, J. I. & van Steenwyk, R. A. (1982). Marking pink bollworm (Lepidoptera: Gelechiidae) with cesium. Env. Ent., 11, 1264–8.
Nayar, J. K. (1982). Wyeomyia mitchellii: Observations on dispersal, survival, nutrition, insemination and ovarian development in a Florida population. Mosquito News, 42, 416–27.
Nayar, J. K. (1985). Bionomics and physiology of Aedes taeniorhynchus and Aedes sollicitans, the salt marsh mosquitoes of Florida. Agr. exp. Stn, Inst. Food Agr. Sci., University Florida, Bulletin no. 852, Gainesville. 148 pp.
Nayar, J. K. & Sauerman, D. M. (1969). Flight behavior and phase polymorphism in the mosquito Aedes taeniorhynchus. Entomologia exp. appl., 12, 365–75.
Nayar, J. K. & Sauerman, D. M. (1970). A comparative study of growth and development in Florida mosquitoes. Part 3. Effects of temporary crowding on larval aggregation formation, pupal ecdysis and adult characteristics at emergence. J. med. Entomol., 7, 521–8.
Nayar, J. K. & Sauerman, D. M. (1973). A comparative study of growth and development in Florida mosquitoes. Part 4. Effects of temporary crowding during larval stages on female flight activity patterns. J. med. Entomol., 10, 37–42.
Nayar, J. K., Provost, M. W., Sauerman, D. M. & Crossman, R. A. (1979). Quantitative bionomics of Culex nigripalpus (Diptera: Culicidae) populations in Florida. 1. Phos-phorus-32 marking techniques. J. med. Entomol., 15, 239–45.
Nayar, J. K., Provost, M. W. & Hansen, C. W. (1980). Quantitative bionomics of Culex nigripalpus (Diptera: Culicidae) populations in Florida. 2. Distribution, dispersal and survival patterns. J. med. Entomol., 17, 40–50.
Neame, K. D. & Homewood, C. A. (1974). Introduction to Liquid Scintillation Counting. Butterworths, London, vii + 180 pp.
Nelson, R. L. & Milby, M. M. (1978). Distribution of Culex tarsalis in an isolated field area in California. Proc. Calif. Mosq. & Vect. Contr. Ass., 46, 50–3.
Nelson, R. L. & Milby, M. M. (1980a). Dispersal and survival of field and laboratory strains of Culex tarsalis (Diptera: Culicidae). J. med. Entomol., 17, 146–50.
Nelson, R. L. & Milby, M. M. (19806). Effects of fluorescent marker dusts on Culex tarsalis, a factor in mark-release-recapture studies. Proc. Calif. Mosq. & Vect. Contr. Ass., 48, 66–8.
Nelson, R. L., Milby, M. M., Reeves, W. C. & Fine, P. E. M. (1978). Estimates of survival, population size, and emergence of Culex tarsalis at an isolated site. Ann. ent. Soc. Am., 71, 801–8.
Newhouse, B. A. (1953). A progress report of the Aedes flight range studies in Kern county. Proc. Calif Mosq. Contr. Ass., 22, 80–1.
Niebylski, M. L. & Meek, C. L. (1989). A self-marker device for emergent adult mosquitoes. J. Am. Mosq. Contr. Ass., 5, 86–90.
Nielsen, E. T. (1958). The initial stage of migration in salt-marsh mosquitoes. Bull. ent. Res., 49, 305–15
Nielsen, E. T. (1961). On the habits of the migratory butterfly Ascia monuste. L. biol. Medd. kgl. Dan. Vidensk, Selsk., 23, 1–81.
Nielsen, E. T. & Haeger, J. S. (1960). Swarming and mating in mosquitoes. Misc. Pubis ent. Soc. Am., 1, 71–95.
Nielsen, E. T. & Nielsen, A. T. (1953). Field observations on the habits of Aedes taeniorhynchus. Ecology, 34, 141–56.
Nutsathapana, S., Sawasdiwongphorn, P., Chitprarop, U., Cullen, J. R., Gass, R. F. & Green, C. A. (1986). A mark-release-recapture demonstration of host preference heterogeneity in Anopheles minimus Theobald (Diptera: Culicidae) in a Thai village. Bull. ent. Res., 76, 313–20.
Otis, D. L., Burnham, K. P., White, G. C. & Anderson, D. R. (1978). Statistical inferences from capture data on closed animal populations. Wldl. Monogr., 62, 1–135.
Padgham, D. E., Cook, A. G. & Hutchinson, D. (1984). Rubidium marking of the rice pest Nilaparva lugens (Stål) and Sogatella furcifera (Horváth) (Hemiptera: Dephacidae) for field dispersal studies. Bull. ent. Res., 74, 379–85.
Paing, M. & Naing, T. T. (1988). Marking mosquito larvae for mark-release-recapture studies on adults. J. Commun. Dis., 20, 276–9.
Pal, R. (1947). Marking mosquitoes with fluorescent compounds and watching them by ultra-violet light. Nature, Lond., 160, 298–9.
Paris, O. H. (1965). The vagility of P32-labelled isopods in grassland. Ecology, 46, 635–48.
Parr, M. J. (1965). A population study of a colony of imaginal Ischnura elegans (Van der Linden) (Odonata: Coenagriidae) at Dale, Pembrokeshire. Fid Stud., 2, 237–82.
Parr, M. J., Gaskell, T. J. & George, B. J. (1968). Capture-recapture methods of estimating animal numbers. J. biol. Educ., 2, 95–117.
Patterson, R. S., Weidhaas, D. E., Ford, H. R. & Lofgren, C. S. (1970). Suppression and elimination of an island population of Culex pipiens quinquefasciatus with sterile males. Science, N.Y., 168, 1368–70.
Pearson, A. C., Ballmer, G. R., Sevacherian, V. & Vail, P. V. (1989). Interpretation of rubidium marking levels in beet armyworm eggs (Lepidoptera: Noctuidae). Env. Ent., 18, 844–8.
Pedgley, D. (1982). Windborne Pests and Diseases. Meteorology of Airborne Organisms. Ellis Horwood Ltd., Chichester, 250 pp.
Peer, D. F. (1957). Further studies on the mating range of the honey bee, Apis mellifera L. Can. Ent., 89, 108–10.
Peffly, R. L. & LaBrecque, G. C. (1956). Marking and trapping studies on dispersal and abundance of Egyptian house flies. J. econ. Ent., 49, 214–17.
Pielou, E. C. (1977). Mathematical Ecology. John Wiley, New York, x + 385 pp.
Porter, S. D. & Jorgensen, C. D. (1980). Recapture studies of the harvester ant Pogonomytmex owyheei Cole, using a fluorescent marking technique. Ecol. Ent., 5, 263–9.
Provost, M. W. (1952). The dispersal of Aedes taeniorhynchus. I. Preliminary studies. Mosquito News, 12, 174–90.
Provost, M. W. (1953). Motives behind mosquito flights. Mosquito News, 13, 106–9.
Provost, M. W. (1957). The dispersal of Aedes taeniorhynchus. II. The second experiment. Mosquito News, 17, 233–7.
Provost, M. W. (1960). The dispersal of Aedes taeniorhynchus. III. Study methods for migratory exodus. Mosquito News, 20, 148–61.
Pumpuni, C. B. & Walker, E. D. (1989). Population size and survivorship of adult Aedes triseriatus in a scrap tireyard in northern Indiana. J. Am. Mosq. Contr. Ass., 5, 166–72.
Quan, S. F., Hartwell, W. V., Scott, K. G. & Peng, C. T. (1957). Cerium 144 as a tag for arthropods of medical importance. Trans. R. Soc. trop. Med. Hyg., 51, 87–8.
Quarter-man, K. D., Mathis, W. & Kilpatrick, T. W. (1954). Urban fly dispersal in the area of Savannah, Georgia. J. econ Ent., 47, 405–12.
Quarterman, K. D., Jensen, J. A., Mathis, W. & Smith, W. W. (1955). Flight dispersal of rice field mosquitoes in Arkansas. J. econ. Ent., 48, 30–2.
Quraishi, M. S. (1968). Uptake of P32 by yellow-fever mosquito larvae of equal age, and those pupating synchronously: Its loss and transfer during development, mating and oviposition. J. econ. Ent., 61, 530–3.
Quraishi, M. S., Faghih, M. A. & Esghi, W. (1966). Flight range, lengths of gonotrophic cycles and longevity of P32-labeled Anopheles stephensi mysorensis. J. econ. Ent., 59, 50–5.
Rajagopalan, P. K., Menon, P. K. B., Mani, T. R. & Brooks, G. D. (1975). Measurement of density of immatures of Culex pipiens fatigans in effluent drains. J. Commun. Dis., 7, 327–37.
Rajagopalan, P. K., Yasuno, M. & LaBrecque, G. C. (1973). Dispersal and survival in the field of chemosterilized, irradiated, and cytoplasmically incompatible male Culex pipiens fatigans. Bull. Wld Hith Org., 48, 631–5.
Rawlings, P., Curtis, C. F., Wickramasinghe, M. B. & Lines, J. (1981). The influence of age and season on dispersal and recapture of Anopheles culicifacies in Sri Lanka. Ecol. Ent., 6, 307–19.
Reeves, W. C., Brookman, B. & Hammon, W. M. (1948). Studies on the flight range of certain Culex mosquitoes, using a fluorescent-dye marker, with notes on Culiseta and Anopheles. Mosquito News, 8, 61–9.
Reisen, W. K. & Aslamkhan, M. (1979). A release-recapture experiment with the malaria vector, Anopheles stephensi Liston, with observations on dispersal, survivorship, population size, gonotrophic rhythm and mating behaviour. Ann. trop. Med. Parasit., 73, 251–69.
Reisen, W. K. & Mahmood, F. (1981). Relative abundance, removal sampling, and markrecapture estimates of population size of Anopheles culicifacies and An. stephensi at diurnal resting sites in rural Punjab province, Pakistan. Mosquito News, 41, 22–30.
Reisen, W. K. & Reeves, W. C. (1990). ‘Bionomics and ecology of Culex tarsalis and other potential mosquito vector species’, pp. 254–329. In Epidemiology and Control of Mosquito-borne Arboviruses in California, 1943–1987 (edit. W. C. Reeves). Calif. Mosq. Vector Contr. Ass., Sacramento, 508 pp.
Reisen, W. K., Baker, R. H., Sakai, R. K., Aziz-Javed, A., Aslam, Y. & Siddiqui, T. F. (1977). Observations on the mating behavior and survivorship of Culex tritaenio-rhynchus Giles (Diptera: Culicidae) during late autumn. Southeast Asian J. trop. Med. publ. Hlth, 8, 537–45.
Reisen, W. K., Aslam, Y., Siddiqui, T. F. & Khan, A. Q. (1978). A mark-release-recapture experiment with Culex tritaeniorhynchus Giles. Trans. R. Soc. trop. Med. Hyg., 72, 167–77.
Reisen, W. K., Mahmood, F. & Parveen, T. (1979). Anopheles subpictus Grassi: observations on survivorship and population size using mark-release-recapture and dissection methods. Res. Popul. Ecol., 21, 12–29.
Reisen, W. K., Mahmood, F. & Parveen, T. (1980). Anopheles culicifacies Giles: a mark-release-recapture experiment with cohorts of known age with implications for malaria epidemiology and genetical control in Pakistan. Trans. R. Soc. trop. Med. Hyg., 74, 307–17.
Reisen, W. K., Mahmood, F. & Azra, K. (1981). Anopheles culicifacies Giles: adult ecological parameters measured in rural Punjab province, Pakistan using capture-release-recapture and dissection methods, with comparative observations on An. stephensi Liston and An. subpictus Grassi. Res. Popul. Ecol., 23, 39–60.
Reisen, W. K., Mahmood, F. & Parveen, T. (1982a). Seasonal trends in population size and survivorshp of Anopheles culicifacies, An. stephensi and An. subpictus (Diptera: Culicidae) in rural Punjab province, Pakistan. J. med. Entomol., 19, 86–97.
Reisen, W. K., Milby, M. M., Asman, S. M., Bock, M. E., Meyer, R. P., McDonald, P. T. & Reeves, W. C. (1982b). Attempted suppression of a semi-isolated Culex tarsalis population by the release of irradiated males: a second experiment using males from a recently colonized strain. Mosquito News, 41, 736–44.
Reisen, W. K., Sakai, R. K., Baker, R. H., Azra, K. & Niaz, S. (1982c). Anopheles culicifacies: observations on population ecology and reproductive behavior. Mosquito News, 42, 93–101.
Reisen, W. K., Milby, M. M., Meyer, R. P. & Reeves, W. C. (1983). Population ecology of Culex tarsalis (Diptera: Culicidae) in a foothill environment in Kern county, California: Temporal changes in male relative abundance and swarming behavior. Ann. ent. Soc. Am., 76, 809–15.
Reisen, W. K., Milby, M. M., Meyer, R. P., Pfuntner, A. R., Spoehel, J., Hazelrigg, J. E. & Webb, J. P. (1991). Mark-release-recapture studies with Culex mosquitoes (Diptera: Culicidae) in southern California. J. med. Entomol., 28, 357–71.
Renshaw, M. (1991). ‘Population dynamics and ecology of Aedes cantans (Diptera: Culicidae) in England’. Ph.D. thesis, University of Liverpool, 186 pp.
Reuben, R., Yasuno, M. & Panicker, K. N. (1972). ‘Studies on the Dispersal of Aedes aegypti at Two Localities in Delhi.‘ WHO/VBC 72.388. 9 pp (mimeographed).
Reuben, R., Yasuno, M., Panicker, K. N. & LaBrecque, G. C. (1973). The estimation of adult populations of Aedes aegypti at two localities in Delhi, India. J. Comm.Dis., 5, 154–62.
Reuben, R., Rahman, S. J., Panicker, K. N., Das, P. K. & Brooks, G. D. (1975a). The development of a strategy for large-scale releases of sterile males of Aedes aegypti (L.). J. Commun. Dis., 7, 313–26.
Reuben, R., Panicker, K. N., Brooks, G. D. & Ansari, M. A. (19756). Studies on dispersal and loss rate of male Aedes aegypti (L.) in different seasons at Sonepat, India. J. Commun. Dis., 7, 301–12.
Richards, O. W. & Waloff, N. (1954). Studies on the biology and population dynamics of British grasshoppers. Anti-Locust Bull., 17, 182 pp.
Riordan, D. F. (1965). Emergence and fertility of Aedes aegypti (L.) reared in various concentrations of P32. Can. J. Zool, 43, 497–501.
Robinson, J. & Luff, M. L. (1979). Population estimates and dispersal of Hydrotaea irritans Fallen. Ecol. Ent., 4, 289–96.
Roff, D. A. (1973). On the accuracy of some mark-recapture estimators, Oecologia (Berl.), 12, 15–34.
Rooum, D. (1988). Identifying individual insects by means of spot codes. Antenna, 12, 155–7.
Rudd, W. G. & Gandour, R. W. (1985). Diffusion model for insect dispersal. J. econ. Ent., 78, 295–301.
Russell, P. F. & Santiago, D. (1934). Flight range of Anopheles in the Philippines. Second experiment with stained mosquitoes. Am. J. trop. Med., 14, 407–24.
Russell, P. F., Knipe, F. W., Rao, T. R. & Putnam, P. (1944). Some experiments on flight range of Anopheles culicifacies. J. exp. Zool., 97, 135–63.
Russell, R. C. (1987). Survival of insects in the wheel bays of Boeing 747B aircraft on flights between tropical and temperate airports. Bull Wld Hlth Org., 65, 659–62.
Schaefer, G. W. (1976). ‘Radar observations of insect flight’, pp. 157–96. In Insect Flight (edit. R. C. Rainey). Symp. R. ent. Soc. Lond., 7, Blackwell Scientific Publications, Oxford, xi + 287 pp.
Schaefer, G. W. & Bent, G. A. (1984). An infra-red remote sensing system for the active detection and automatic determination of insect flight trajectories (IRADIT). Bull ent. Res., 74, 261–78.
Schlein, Y. (1987). Marking Phlebotomus papatasi (Diptera: Psychodidae) by feeding on sprayed, coloured sugar bait: a possible means for behavioural and control studies. Trans. R. Soc. trop. Med. Hyg., 81, 599.
Schnabel, Z. E. (1938). The estimation of the total fish population of a lake. Am. math. Mon., 45, 348–50.
Schoof, H. F. & Siverly, R. E. (1954). Multiple release studies on the dispersion of Musca domestica at Phoenix, Arizona. J. econ. Ent., 47, 830–8.
Schoof, H. F., Siverly, R. E. & Jensen, J. A. (1952). House fly dispersion studies in metropolitan areas. J. econ. Ent., 45, 675–83.
Schreiber, E. T., Mulla, M. S., Chaney, J. D. & Dhillon, M. S. (1988). Dispersal of Culex quinquefasciatus from a dairy in southern California. J. Am. Mosq. Contr. Ass., 4, 300–4.
Scott, A. G. (1972). ‘Radiation Dose to Mosquito Larvae Reared in Radioactive Media.’ Whitesell Nuclear Research Establishment, Pinawa, Manitoba, Canada, AECL-3789, 18 pp. (mimeographed).
Seber, G. A. F. (1965). A note on the multiple-recapture census. Biometrika, 49, 249.
Seber, G. A. F. (1973). The Estimation of Animal Abundance and Related Parameters. Griffin, London, xii + 506 pp.
Seber, G. A. F. (1982). The Estimation of Animal Abundance and Related Parameters (2nd edit.). Macmillan, New York, xvii + 654 pp.
Seber, G. A. F. (1986). A review of estimating animal abundance. Biometrics, 42, 267–92.
Self, L. S., Tun, M. M., Mathis, H. L., Abdulcader, M. H. M. & Sebastian, A. (1971). Studies on infiltration of marked Culex pipiens fatigans into sprayed areas of Rangoon, Burma. Bull Wld Hlth Org., 45, 379–83.
Sempala, S. D. K. (1981). The ecology of Aedes (Stegomyia) africanus Theobald in a tropical forest in Uganda: Mark-release-recapture studies on a female adult population. Insect Sci. Appl., 1, 211–24.
Service, M. W. (1971). Studies on sampling larval populations of the Anopheles gambiae complex. Bull Wld Hlth Org., 45, 169–80.
Service, M. W. (1980). Effects of wind on the behaviour and distribution of mosquitoes and blackflies. Int. J. Biometeorol., 24, 347–53.
Shapiro, J. M., Saliternik, Z. & Belferman, S. (1944). Malaria survey of the Dead Sea area during 1942, including the description of a mosquito flight test and its results. Trans. R. Soc. trop. Med. Hyg., 38, 95–116.
Sharma, V. P. (1977). Insemination rate in Culex pipiens fatigans Wied. moving from wells to the village. J. Commun. Dis., 9, 128–31.
Shemanchuk, J. A., Fredeen, F. J. H. & Kristjanson, A. M. (1955). Studies on flight range and dispersal habits of Aedes flavescens (Müller) (Diptera: Culicidae) tagged with radio-phosphorus. Can. Ent., 87, 376–9.
Shepard, M. & Waddill, V. H. (1976). Rubidium as a marker for Mexican bean beetles, Epilachna varivestis (Coleoptera: Coccinellidae). Can. Ent., 108, 337–9.
Sheppard, P. M., Macdonald, W. W., Tonn, R. J. & Grab, B. (1969). The dynamics of an adult population of Aedes aegpyti in relation to dengue haemorrhagic fever in Bangkok. J. Anim. Ecol., 38, 661–702.
Singh, K. R. P. & Brooks, G. D. (1975). Semi-automatic release system for distribution of mosquitoes during genetic control operations. J. Commun. Dis., 7, 288–93.
Singh, K. R. P., Razdan, R. K., Vaidyanathan, V. & Malhotra, P. R. (1975a). Caging, marking and transportation of Culex pipiens fatigans Wied, for large scale genetic control operations. J. Commun. Dis., 7, 269–79.
Singh, K. R. P., Brooks, G. D., Ansari, M. A., Razdan, R. K. & Khan, Q. U. (19756). Development of equipment for packaging, marking and transportation of Aedes aegypti for large scale genetic control operations. J. Commun. Dis., 7, 294–300.
Singh, N. & Yasuno, M. (1972). A device for self-marking of mosquitoes. Bull. Wld Hlth Org., 47, 677–9.
Sinsko, M. J. & Craig, G. B. (1979). Dynamics of an isolated population of Aedes triseriatus (Diptera: Culicidae). I. Population size. J. med. Entomol., 15, 89–98.
Skalski, J. R. & Robson, D. S. (1979). ‘Tests of homogeneity and goodness-of-flt to a truncated geometric model for removal sampling’, pp. 283–313. In Sampling Biological Populations (edit. R. M. Cormack, G. P. Patil & D. S. Robson). Co-operative Publishing House, Fairland, Maryland, USA.
Skalski, J. R. & Robson, D. S. (1982). A mark and removal method field procedure for estimating population abundance. J. Wildl. Mgmt, 46, 741–51.
Skalski, J. R., Robson, D. S. & Simmons, M. A. (1983). Comparative census procedures using single mark-recapture methods. Ecology, 64, 752–60.
Skalski, J. R., Simmons, M. A. & Robson, D. S. (1984). The use of removal sampling in comparative censuses. Ecology, 65, 1006–15.
Slooff, R. & Herath, P. R. J. (1980). Ovarian development and biting frequency in Anopheles culicifacies Giles in Sri Lanka. Trop. geogr. Med., 32, 306–11.
Smith, A. & Carter, I. D. (1984). ‘International transportation of mosquitoes of public health importance’, pp 1–17. In Commerce and the Spread of Pests and Disease Vectors (edit. M. Laird). Praegar Scientific, New York, xiv + 354 pp.
Smith, G. E., Watson, R. B. & Crowell, R. L. (1941). Observations on the flight range of Anopheles quadrimaculatus, Say. Am. J. Hyg., 34, 102–13.
Smith, G. F., Geib, A. F. & Isaak, L. W. (1956). Investigations of a recurrent flight pattern of flood water Aedes mosquitoes in Kern county, California. Mosquito News, 16, 251–6.
Smittle, B. J. & Focks, D. A. (1986). Laboratory and field studies with 32P labeled Toxorhynchites rutilus rutilus. J. Am. Mosq. Contr. Ass., 2, 474–7.
Smittle, B. J. & LaBrecque, G. C. (1969). Comparison of photographic films for insect autoradiography. J. econ. Ent., 62, 1242–4.
Smittle, B. J. & Patterson, R. S. (1970). Transfer of radioactivity to eggs and larvae by female Culex pipiens quinquefasciatus Say. Mosquito News, 30, 93–4.
Smittle, B. J. & Seawright, J. A. (1983). Transfer of radioactivity to individual eggs by female Aedes aegypti treated as larvae with 32P. Mosquito News, 43, 329–31.
Smittle, B. J., Patterson, R. S. & Lofgren, C. S. (1969). P32-labeling of common malaria mosquitoes: assimilation by larvae and retention and transfer during mating. J. econ. Ent., 62, 851–3.
Smittle, B. J., Lowe, R. E., Ford, H. R. & Weidhaas, D. E. (1973). Techniques for 32P labeling and assay of egg rafts from field-collected Culex pipiens quinquefasciatus Say. Mosquito News, 33, 215–20.
Smittle, B. J., Lowe, R. E., Patterson, R. S. & Cameron, A. L. (1975). Winter survival and oviposition patterns of 14C-labeled Culex pipiens quinquefasciatus Say in northern Florida. Mosquito News, 35, 54–6.
Southwood, T. R. E. (1978). Ecological Methods with Particular Reference to the Study of Insect Populations. Chapman & Hall, London, xxiv + 524 pp.
Sparks, A. N., Jackson, R. D., Carpenter, J. E. & Muller, R. A. (1986). Insects captured in light traps in the Gulf of Mexico. Ann. ent. Soc. Am., 79, 132–9.
Staniland, L. N. (1959). Fluorescent tracer techniques for the study of spray and dust deposits. J. agric. Engng Res., 4, 110–25.
Subra, R. (1972). Études ecologiques sur Culex pipiens fatigans Wiedemann, 1828 (Diptera: Culicidae) dans une zone urbaine de savane soudanienne ouest-africaine, Longévité et déplacements d’adultes marqués avec des poudres flourescentes. Cah. ORSTOM, sér. Entomol. méd. Parasit., 10, 3–36.
Suzuki, T. (1978). Preliminary studies on blood meal interval of Aedes polynesiensis in the field. Jap. J. sanit. Zool., 29, 169–74.
Taylor, L. R., French, R. A. & Macaulay, E. D. M. (1973). Low-altitude migration and diurnal flight periodicity; the importance of Plusia gamma L. (Lepidoptera: Plusiidae). J. Anim. Ecol., 42, 751–60.
Taylor, R. A. J. (1978). The relationship between density and distance of dispersing insects. Ecol. Ent., 3, 63–70.
Thurman, D. C. & Husbands, R. C. (1951). ‘Preliminary Report on Mosquito Flight Dispersal Studies with Radioisotopes in California, 1950.’ Comm. Dis. Center Bull. (U.S. Publ Hlth Serv.), No. 10, 9 pp.
Traniello, J. F. A., Rosengaus, R. B. & Levy, C. K. (1985). Single and double isotope labeling of social insect colonies. Gamma-emitting radionuclides as individually identifiable markers. Entomologia exp. appl., 38, 87–92.
Trpis, M. (1971). ‘Seasonal Variation in the Adult Populations of Aedes aegypti in the Dar es Salaam Area, Tanzania.’ WHO/VBC 71.291, 29 pp. (mimeographed.)
Trpis, M. (1973). Adult population estimate of Toxorhynchites brevipalpis. Bull. Wld Hlth Org., 48, 756–7.
Trpis, M. & Hatisermann, W. (1975). Demonstration of differential domesticity of Aedes aegypti (L.) in Africa by mark-release-recapture. Bull. ent. Res., 65, 199–208.
Trpis, M. & Hatisermann, W. (1978). Genetics of house-entering behaviour in East African population of Aedes aegpyti (L.) (Diptera: Culicidae) and its relevance to speciation. Bull. ent. Res., 68, 521–32.
Trpis, M. & Hatisermann, W. (1986). Dispersal and other population parameters of Aedes aegypti in an African village and their possible significance in epidemiology of vector-borne diseases. Am. J. trop. Med. Hyg., 35, 1263–79.
Turncock, W. J., Gerber, G. H. & Bicks, M. (1979). The applicability of X-ray energy-dispersive spectroscopy to the identification of populations of red turnip beetle, Entomoscelis americana (Coleoptera: Chrysomelidae). Can. Ent., Ill, 113–25.
Umbarger, C. J. & Malanify, J. J. (1972). Insect tagging—natural versus laboratory-grown screwworm flies. Int. J. appl. Radiat. Isotopes, 23, 381–2.
Vail, P. V., Howland, A. F. & Henneberry, T. J. (1966). Fluorescent dyes for mating and recovery studies with cabbage looper moths. J. econ. Ent., 59, 1093–7.
van Steenwyk, R. A., Ballmer, T. J., Page, A. L. & Reynolds, H. T. (1978). Marking pink bollworm with rubidium. Ann. ent. Soc. Am., 71, 81—4.
Vargas, A. & Friere, F. (1940). Novos processos para avaliar a area de vôos dos anofeles. Anais paul. Med. Cirurg., 39, 3–7 (In Portuguese).
Viswanathan, D. K., Ramachandra Rao, T. & Rama Rao, T. S. (1945). The behaviour of Anopheles fluviatilis. Part IV. Experiments on the behaviour of gravid females. J. Malar. Inst. India, 6, 243–5.
von Frisch, K. (1923). Uber die “Sprache” der Bienen. Eine tierpsychologische Untersuchang. Zool. Jb., Abt. allg. Zool. Physiol., 40, 1–186.
Wada, Y., Kawai, S., Oda, T., Miyagi, I., Suenaga, O., Nishigaki, J., Omori, N., Takahashi, K., Matsuo, R., Itoh, T. & Takatsuki. Y. (1969). Dispersal experiments of Culex tritaeniorhynchus in Nagasaki area (Preliminary Report). Trop. Med., 11, 37–44.
Wada, Y., Suenaga, O. & Miyagi, I. (1975a). Dispersal experiment of Aedes togoi. Trop. Med., 16, 137–46.
Wada, Y., Oda, T., Mogi, M., Mori, A., Omori, N. Fukumi, H., Hayashi, K., Mifune, K., Shichijo, A. & Matsuo, S. (19756). Ecology of Japanese encephalitis virus in Japan. II. The population of vector mosquitoes and the epidemic of Japanese encephalitis. Trop. Med., 17, 111–27.
Wadley, F. M. & Wolfenbarger, D. O. (1944). Regression of insect density on distance from center of dispersion as shown by a study of the smaller European elm bark beetle. J. agric. Res., 69, 299–308.
Walker, E. D., Copeland, R. S., Paulson, S. L. & Munstermann, L. E. (1987). Adult survivorship, population density, and body size in sympatric populations of Aedes triseriatus and Aedes hendersoni (Diptera: Culicidae). J. med. Entomol., 24, 485–93.
Wallace, B. (1970). ‘Observations on the microdispersion of Drosophila melanogaster’, pp. 381–99. In Essays in Evolution and Genetics Presented in Honour of Theodorius Dobzhansky (edit. M. K. Hecht & W. C. Steere). North-Holland Publ. Co., Amsterdam, xv + 594 pp.
Walsh, J. F. (1977). ‘Problem of migration of vectors of onchocerciasis in control programmes. Proc. 3rd scient. Mtg. ICIPE, Lagos, 23–26 November 1976, 70–84.
Wang, C. H. & Willis, D. L. (1965). Radiotracer Methodology in Biological Science. Prentice-Hall, New Jersey, xvii + 382 pp.
Weathersbee, A. A. & Hasell, P. G. (1938). On the recovery of stain in adults developing from anopheline larvae stained in vitro. Am. J. trop. Med., 18, 531–43.
Weathersbee, A. A. & Meisch, M. V. (1990). Dispersal of Anopheles quadrimaculatus (Diptera: Culicidae) in Arkansas ricefields. Env. Ent., 19, 961–5.
Weidhaas, D. E., Smittle, B. J., Patterson, R. S., Ford, H. R. & Lofgren, C. S. (1973). Survival, reproductive capacity, and migration of adult Culex pipiens quinquefasciatus Say. Mosquito News, 33, 83–7.
Wharton, R. H., Eyles, D. E. & Warren, McW. (1963). The development of methods for trapping the vectors of monkey malaria. Ann. trop. Med. Parasit., 57, 32–46.
White, D. J. & Morris, C. D. (1985). Bionomics of anthropophilic Simuliidae (Diptera) from the Adirondack mountains of New York State, USA. 1. Adult dispersal and longevity. J. med. Entomol., 22, 190–9.
White, E. G. (1970). A self-checking coding technique for mark-recapture studies. Bull, ent. Res., 60, 303–7.
White, E. G. (1971a). A versatile FORTRAN computer program for the capture-recapture stochastic model of G. M. Jolly. J. Fish. Res. Bd Can., 28, 443–6.
White, E. G. (19716). ‘A Computer Program for Capture-Recapture Studies of Animal Populations. A FORTRAN Listing for the Stochastic Model of G. M. Jolly.’ Tussock Grasslands and Mountain Lands Institute, Lincoln College, Christchurch, N.Z. Special Publication, No. 8, 33 pp.
White, G. C., Anderson, D. R., Burnham, K. P. & Otis, D. L. (1982). ‘Capture-recapture and removal methods for sampling closed populations’. LA-8781—NERP, Los Alamos National Laboratory. Los Alamos, New Mexico, USA.
Williams, C. B. (1961). Studies on the effect of weather conditions on the activity and abundance of insect populations. Phil. Trans. R. Soc. Lond., B, 244, 331–78.
Williams, D. F., Patterson, R. S. & LaBrecque, G. C. (1979). Marking large numbers of stable flies Stomoxys calcitrans (L.) for a sterile release program. Mosquito News, 39, 146–8.
Woldseth, R. (1973). ‘All You Ever Wanted to Know About X-ray Energy Spectrometry’. Kevex Corporation, Burlingame, California, various pages.
Wolfinsohn, M. & Galun, R. (1953). A method for determining the flight range of Aedes aegypti (Linn). Bull. Res. Coun. Israel, 2, 433–6.
Wright, R. E. (1918). The distance mosquitoes can fly. J. Bombay nat. Hist. Soc., 25, 511–12.
Yasuno, M. (1979). An improved device for the self-marking of mosquitoes. Jap. J. sanit. Zool., 30, 292.
Yasuno, M. & Rajagopalan, P. K. (1977). Population estimation of Culex fatigans in Delhi villages. J. Commun. Dis., 9, 172–83.
Yasuno, M. & Tonn, R. J. (1970). A study of biting habits of Aedes aegypti in Bangkok, Thailand. Bull. Wld Hlth Org., 43, 319–25.
Yasuno, M., Rajagopalan, P. K. & LaBrecque, G. C. (1972a). ‘Migration of Culex fatigans from Surrounding Fields to Villages in the Delhi Area.’ WHO/VBC 72.364 6 pp. (mimeographed).
Yasuno, M., Rajagopalan, P. K., Rüssel, S. & LaBrecque, G. C. (19726). ‘Dispersal of Culex fatigans in Delhi Villages.’ WHO/VBC 72.352, 13 pp. (mimeographed).
Yasuno, M., Rajagopalan, P. K., Rüssel, S. & LaBrecque, G. C. (1973a). Influence of seasonal changes in climate on dispersal of released Culex pipiens fatigans. A study in villages in Delhi Union Territory, India. Bull. Wld Hlth Org., 48, 317–21.
Yasuno, M., Rüssel, S. & Rajagopalan, P. K. (19736). An application of the removal method to the population estimation of Culex fatigans resting indoors. WHO/VBC/ 73–458, 9 pp. (Unpublished mimeographed document).
Yates, W. W, Gjullin, C. M., Lindquist, A. W. & Butts, J. S. (1951). Treatment of mosquito larvae and adults with radioactive phosphorous. J. econ. Ent., 44, 34–7.
Yoho, T. P., Butler, L. & Weaver, J. E. (1971). Photodynamic effect of light on dye-fed house flies: preliminary observations of mortality. J. econ. Ent., 64, 972–3.
Zacharuk, R. Y. (1963). Vital dyes for marking living elaterid larvae. Can. J. Zool., 41, 991–6.
Zetek, J. (1913). Determining the flight of mosquitoes. Ann. ent. Soc. Am., 6, 5–21.
Zippin, C. (1956). An evaluation of the removal method of estimating animal populations. Biometrics, 12, 163–89.
Zippin, C. (1958). The removal method of population estimation. J. Wldl. Mgmt, 22, 82–90.
Zukel, J. W. (1945). Marking Anopheles mosquitoes with fluorescent compounds. Science, N.Y., 102, 157.
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Service, M.W. (1993). Mark-Recapture Techniques and Adult Dispersal. In: Mosquito Ecology. Springer, Dordrecht. https://doi.org/10.1007/978-94-011-1868-2_9
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