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The Accidental Carriage of Insects on Board Aircraft*

Published online by Cambridge University Press:  28 July 2016

Marshall Laird
Marshall Laird*
Affiliation:
Medical Branch, Royal New Zealand Air Force
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Summary

Accidental dispersals of medically and agriculturally undesirable insects by sea and air transport are discussed, with attention to the relative importance of the roles of ships and aircraft. World-wide records of insects found on board aircraft and discovered to have been introduced at airfields are briefly reviewed, and consideration is given to ways of meeting the problem by insecticidal treatment and airport insect control. It is felt that the insecticidal treatment of aircraft, even when provided for by comprehensive international regulations and conscientiously undertaken, does not alone provide sufficient protection against insect introductions, and that greater attention should be paid to the preventive aspects of the problem, with particular regard to the control of insects of both medical and economic significance at international airports.

Type
Research Article
Information
The Aeronautical Journal , Volume 55 , Issue 491 , November 1951 , pp. 735 - 743
Copyright
Copyright © Royal Aeronautical Society 1951

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Footnotes

*

A talk based on this paper was given earlier this year to the Wellington Branch of the New Zealand Division of the Society. Issued separately as Royal New Zealand Air Force Entomological Bulletin No. 7. Authorised bv the Chief of the Air Staff.

References

1. Bryan, E. H. (1934). A Review of the Hawaiian Diptera, with Descriptions of New Species. Proc. Hawaiian Ent. Soc, 8 (3), 399468.Google Scholar
2. Graham, D. H. (1939). Mosquito Life in the Auckland District. Trans. Roy. Soc. N.Z., 69 (2), 210224.Google Scholar
3. Robertson, P. L. (1939). Diamond-back Moth Investigation in New Zealand. N.Z. Jour. Sci. Tech., 20 (5A), (6A), 330A364A.Google Scholar
4. West, E. S. (1930). Occurrence of Pieris (Ganoris) rapae L. in New Zealand. Ent. Mo. Mag., 66, 224225.Google Scholar
5. Muggeridge, J. (1942). The White Butterfly (Pieris rapae L.). I. N.Z. Jour. Sci. Tech, 24 (3A), 107A129A.Google Scholar
6. Hoops, A. L. (1935). The History of Malaria. League of Nations Eastern Bureau, Singapore, 129.Google Scholar
7. Galvāo, A. L. A. (1948). Active and Passive Dispersion of Anopheline Species. Proc. 4th Int. Congr. Trop. Med. Malar., Wash., I, 656671.Google Scholar
8. Rockefeller Foundation. International Health Division Annual Report, (1945).Google Scholar
9. Soper, F. L. and Wilson, D. B. (1943). Anopheles gambiae in Brazil. Rockefeller Foundation, N.Y., xviii, 1262.Google Scholar
10. Griffitts, T. D. H. and Griffitts, J. J. (1931). Mosquitoes Transported by Airplanes. U.S. Public Health Reports, 46, 47, 27752782.Google Scholar
11. Hicks, E. P. and Chand, Diwan (1936). Transport and Control of Aëdes aegypti in Aeroplanes. Rec. Malar. Surv. India, 6, 7390.Google Scholar
12. Laird, M. (1948). Reactions of Mosquitoes to the Aircraft Environment. Trans. Roy. Soc. N.Z., 77 (1), 93114.Google Scholar
13. Sicé, A., Sautet, J. and Ethes, Y. (1939). L'un des Plus Redoubtables Vecteurs du Paludisme en Afrique, I'Anopheles gambiae Giles, 1902, est-il Susceptible d'être Transporté en France par les Avions? Rev. Méd. et Hyg. Trop., 31 (4), 137139.Google Scholar
14. Montgomery, J. H. (1928). Changed Conditions in Reference to Plant Quarantines. Mon. Bull. St. Plant Bd. Florida, 12 (10), 196204.Google Scholar
15. Kisliuk, M. (1929). Air Routes, German Dirigible “Graf Zeppelin” and Plant Quarantines. Ent. News, 40 (6), 196197.Google Scholar
16. Whitfield, F. G. S. (1939). Air Transport, Insects and Disease. Bull. Ent. Res., 30 (3), 365442.Google Scholar
17. Pemberton, C. E. (1944). Insects Carried in Transpacific Airplanes. Hawaii. Plant. Rec, 48 (3), 183186.Google Scholar
18. Dethier, V. G. (1945). The Transport of Insects in Aircraft. J. econ. Ent., 38 (5), 528531.Google Scholar
19. Mendonqa, F. C. de and Cerqueira, N. (1947). Insects and Other Arthropods Captured by the Brazilian Sanitary Service on Land Planes or Seaplanes Arriving in Brazil Between” January 1942 and December 1945. Bol. Ofic. Sanitaria Panamer., 26 (1), 2230 (In Abstract).Google Scholar
20. Laird, M. (1951). Insects Collected from Aircraft Arriving in New Zealand from Abroad. Zool. Pubs. Viet. Univ. Coll., Wellington, No. 11, 1-30, 3rd September 1951.Google Scholar
21. Mulrennan, J. A., Goodwin, M. and Shannon, R. C. (1945). The Importation of Exotic Anophelines into the United States. J. nat. Malar. Soc. 4 (1), 5658.Google Scholar
22. Unpublished Report, Fijian Medical Department, 20th August (1948).Google Scholar
23. Kevan, D. K. MCE. (1946). The Eucalyptus Weevil in East Africa. E. Afr. agric. J., 12 (1), 4044.Google Scholar
24. Pemberton, C. E. (1946). A New Fruit Fly in Hawaii. Hawaii. Plant. Rec, 50 (2), 5355.Google Scholar
25. van Zwaluwenburg, R. H. (1947). War Aftermath. Plant. Hlth., Honolulu, 11 (3), 26.Google Scholar
26. Baker, M. R. (1944). Review of the Japanese Beetle Situation in Canada. 74th Rep. Ent. Soc. Ont., 1943, 7-8.Google Scholar
27. Gardiner, J. G. (1945). Report of the Minister of Agriculture for the Dominion of Canada for the Year ended 31st March 1945. 212 pp. (In Abstract).Google Scholar
28. Duguet, J. (1949). Disinsectization of Aircraft. Study made in Connexion with the Revision of International Conventions. Bull. World Hlth. Org., 2, 155191.Google Scholar
29. David, W. A. L. and TEW, R. P. (1949). Disinsectisation of Aircraft. Month. Bull. Min. Hlth. Pub. Hlth. Lab. Ser., 8, 166172.Google Scholar
30. Whittingham, Air Marshal Sir Harold, and Galley, R. A. E. (1949). The Disinsectisation of Aircraft: Recent Progress of Work in the United Kingdom and Colonies, ibid 8, 186187.Google Scholar
31. David, W. A. L. and Bracey, P. (1944). Activation of Pyrethrins in Fly Sprays. Nature, 153 (3889), 594595.CrossRefGoogle Scholar
32. David, W. A. L. (1945). Insecticidal Sprays and Flying Insects. Nature, 155 (3929), 204.Google Scholar
33. Mcmullen, J. (1933). Observations et Experiences Nouvelles sur le Transport des Moustiques par les Aeroplanes. Bull. Off. int. Hyg. publ., 25 (6), 10241027.Google Scholar
34. Magath, T. B. (1945). Quarantine Procedures with Special Reference to Air Travel. J. Aviation Med., 16 (3), 165174.Google Scholar
35. Cameron, T. W. M. (1943). The Possible Transfer of Tropical Disease Due to War Conditions. Canad. Med. Assn. J., 49, 273279.Google ScholarPubMed
36. Senior White, R. A. and Kirkpatrick, T. W. (1949). Transport of Insects on the Exterior of an Aircraft. Nature, 164 (4158), 60.Google Scholar
37. Dumbleton, L. J. (1950). Transport of Insects on the Exterior of Aircraft. Nature, 165 (4194), 452.Google Scholar
38. Laird, M. (1950). Additional Records of Lepidopterous Eggs and Larvae from the Exterior of Aircraft Fuselages. Nature, 166 (4234), 1081.Google Scholar