REFERENCES
- Bang, Y. H., Sudomo, M., Shaw, R. F., Pradhan, G. D., Supratman & Fleming, G. A. (1981). Selective application of fenitrothion for control of the malaria vector Anopheles aconitus in central Java, Indonesia. Unpublished WHO document, WHO/VBC/81.822.
- Birley, M. H. (1984). Estimation, tactics and disease transmission. In Pest and Pathogen Control: Strategy, Tactics and Policy Models, ed. Conway, G. R. Chichester: Wiley Interscience.
- Birley, M. H. & Boorman, J. P. T. (1982). Estimating the survival and biting rates of haematophagous insects, with particular reference to the Culicoides obsoletus group (Diptera, Ceratopogonidae) in Southern England. Journal of Animal Ecology, 51, 135–148.
- Birley, M. H. & Rajagopalan, P. K. (1981). Estimation of the survival and biting rates of Culex quinquefasciatus (Diptera: Culicidae). Journal of Medical Entomology, 18, 181–186.
- De Meillon, B., Sebastion, A. & Khan, Z. H. (1967). Time of arrival of gravid Culex pipiens fatigans at an oviposition site, the oviposition cycle and the relationship between the time of feeding and time of oviposition. Bulletin of the World Health Organization, 36, 39–46.
- Detinova, T. S. (1962). Age grouping methods in Diptera of medical importance, with special reference to some vectors of malaria. Monograph Series, World Health Organization, 47, 1–216.
- Draper, N. R. & Smith, H. (1981). Applied Regression Analysis, 2nd Edition. Wiley: New York.
- Fleming, G. A., Barodji, Shaw, R. F., Pradhan, G. D. & Bang, Y. H. (1983). A village-scale trial of Bendiocarb (OMS-1394) for control of the malaria vector Anopheles aconitus in central Java, Indonesia. Unpublished WHO document, WHO/VBC/83.875.
- Fleming, G. A., Supalin, Shaw, R. F., Pradhan, G. D., Supratman & Bang, Y. H. (1982). Village-scale field trials of malathion (OMS-1) for control of the malaria vector Anopheles aconitus in central Java, Indonesia. Unpublished WHO document, WHO/VBC/82.839.
- Garrett-Jones, C. & Grab, B. (1964). The assessment of insecticidal impact on the malaria mosquito's vectorial capacity, from data on the proportion of parous females. Bulletin of the World Health Organization, 31, 71–86.
- Kaul, H. N. & Wattal, B. L. (1978). Field observations on the swarming and mating behaviour of Culex pipiens fatigans in Delhi. Journal of Communicable Diseases, 10, 99–106.
- Lindquist, A. W., Ikeshoji, T., Grab, B., De Meillon, B. & Khan, Z. H. (1967). Dispersion studies of Culex pipiens fatigans tagged with32P in the Kemmendine area of Rangoon, Burma. Bulletin of the World Health Organization, 36, 21–37.
- Macdonald, G. (1952). The objectives of residual insecticide campaigns. Transactions of the Royal Society of Tropical Medicine and Hygiene, 46, 227–235.
- Mathis, H. L. (1983). Planning action against Culex quinquefasciatus in Burma. In Integrated Mosquito Control Methodologies, Vol. 1—Experience and Components from Conventional Chemical Control, ed. Laird, M. London: Academic Press.
- Molineaux, L., Shidrawi, G. R., Clarke, J. L., Boulzaguet, J. R. & Ashkar, T. S. (1979). Assessment of the malaria mosquito's vectorial capacity, from data on the man-biting rate and age-composition. Bulletin of the World Health Organization, 57, 265–274.
- Samarawickrema, W. A. (1967). A study of the age-composition of natural populations of Culex pipiens fatigans Wiedemann in relation to the transmission of filariasis due to Wuchereria bancrofti (Cobbold) in Ceylon. Bulletin of the World Health Organization, 37, 117–137.
- Southgate, B. A. (1983). Intensity of transmission and development of disease: their relationship in lymphatic filariasis. Unpublished WHO document, FIL/EC/WP/83.29.
- Wijers, D.J. B. (1977). Bancroftian filariasis in Kenya IV. Disease distribution and transmission dynamics. Annals of Tropical Medicine and Parasitology, 71, 451–463.
- Yasuno, M. & Harinasuta, C. (1967). The studies of the behaviour of Culex pipiens fatigans with special reference to dispersal, mating and feeding. Japanese Journal of Experimental Medicine, 37, 525–534.