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Insect pollinators and sustainable agriculture

Published online by Cambridge University Press:  30 October 2009

Peter G. Kevan ,
E. Ann Clark  and
Vernon G. Thomas
Peter G. Kevan
Affiliation:
Associate Professor of Environmental Biology, University of Guelph, Guelpn, Ontario N1G 2W1, Canada.
E. Ann Clark
Affiliation:
Assistant Professor of Crop Science, University of Guelph, Guelpn, Ontario N1G 2W1, Canada.
Vernon G. Thomas
Affiliation:
Professor of Zoology, University of Guelph, Guelpn, Ontario N1G 2W1, Canada.
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Abstract

Underestimation of the pivotal role played by managed and native insect pollinators is a key constraint to the sustainability of contemporary agricultural practices. The economic value of such insects to pollination, seed set, and fruit formation greatly outweighs that suggested by more conventional indices, such as the value of honey and wax produced by honeybees. Although the European honeybee has been widely regarded as the single most important pollinating species, the increasing spread of trachael and Varroa mites and Africanized bees threatens the distribution and magnitude of traditional honeybeekeeping enterprises in North America. A number of other bee and insect pollinators, such as orchard bees, bumblebees, and squash bees, which are not affected by either the mites or the Africanized bees, are considered as likely candidates for management and use in commercial agriculture. An additional role can be played by native or wild pollinators, provided that attention is given to curtailing of population losses caused by both inadvertent insecticide poisoning and habitat destruction. To ensure a reliable source of pollinators, both managed and native, a more comprehensive strategy for management of crop pollination is needed. Elements of this strategy include an increased understanding of the biology and ecology of pollinating insects, as well as providing appropriate nesting habitat, and ensuring the availability of alternative sources of “forage” to sustain populations when the target crops are not in bloom. Examples are discussed to illustrate how private initiatives and changes to public policy can enhance pollinator habitat, and ultimately, agricultural productivity.

Keywords

orchard beesbumblebeessquash beesecologyhabitat conservationprivate initiativespublic policyalternative pollinators
Type
Articles
Information
American Journal of Alternative Agriculture , Volume 5 , Issue 1 , March 1990 , pp. 13 - 22
Copyright
Copyright © Cambridge University Press 1990

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References

1.Altieri, M. A. 1987. Agroecology: Scientific Basis of Alternative Agriculture. Westview Press, Boulder, CO.227 pp.Google Scholar
2.Altieri, M. A., and Letourneau, D. K.. 1982. Vegetation management and biological control in agroecosystems. Crop Protection 1:405430.CrossRefGoogle Scholar
3.Altieri, M. A., and Schmidt, L. L.. 1985. Cover crop manipulation in northern California orchards and vineyards: Effect on arthropod communities. Biological Agriculture and Horticulture 3:124.CrossRefGoogle Scholar
4.Altieri, M. A., and Schmidt, L. L.. 1986. The dynamics of colonizing arthropod communities at the interface of abandoned organic and commercial apple orchards and adjacent woodlots. Agriculture, Ecosystems, and Environment 16:2943.CrossRefGoogle Scholar
5.Altieri, M. A., and Whitcomb, W. H.. 1979. The potential use of weeds in the manipulation of beneficial insects. HortScience 14:1218.CrossRefGoogle Scholar
6.Andow, D. 1988. Management of bees for insect manipulation in agroecosystems. In Altieri, M. A. and Liebman, M. Z. (eds.). Weed Management in Agroecosystems: Ecological Approaches. CRC Press, Inc., Boca Raton, Florida, pp. 265301.Google Scholar
7.Arretz, P. V., and Macfarlene, R. P.. 1986. The introduction of Bombus ruderatus to Chile for red clover pollination. Bee World 67:1522.CrossRefGoogle Scholar
8.Baker, H. G., and Baker, I.. 1983. Floral nectar sugar constituents in relation to pollinator type. In Jones, C. E. and Little, R. J.. Handbook of Experimental Pollination Biology. Scientific and Academic Editions, Van Nostrand Reinhold Company, Inc., New York, New York. pp. 117141.Google Scholar
9.Barclay, J. S., and Moffett, J. O.. 1984. The pollination value of honey bees to wildlife. American Bee Journal 124:497498, 551.Google Scholar
10.Batra, S. W. T. 1982. Biological control in ecosystems. Science 215:134138.Google Scholar
11.Benedek, P. 1972. Possible indirect effect of weed control on population changes of wild bees pollinating lucerne. Acta Phytopathologica Academiae Scientiarum Hungaricae 7:267278.Google Scholar
12.Bohart, G. E. 1962. Introduction of foreign pollinators, prospects and problems. Proceedings of the First International Symposium on Pollination. Kobenhavn, Danmark, August, 1960. pp. 181188.Google Scholar
13.Boyle-Makowski, R. M. D. 1987. The importance of native pollinators in cultivated orchards: Their abundance and activities in relation to weather conditions. Proceedings of the Entomological Society of Ontario 118:125141.Google Scholar
14.Clark, E. Ann, and Christie, B. R.. 1988. A forage-based vision of Ontario agriculture. Journal of Agricultural Ethics 1:109121.Google Scholar
15.Commoner, B. 1972. On the meaning of ecological failures in international development. In Farvar, M. T. and Milton, J. P. (eds.). The Careless Technology: Ecology and International Development. National Historic Press, New York, New York.Google Scholar
16.Crane, E. 1981. When important honey plants are invasive weeds. Bee World 62:2830.CrossRefGoogle Scholar
17.Crane, E., and Walker, P.. 1983. The impact of pest management on bees and pollination. International Bee Research Association and Tropical Development and Research Institute, London. 127 pp. and annexes.Google Scholar
18.Crepet, W. L. 1983. The role of insect pollination in the evolution of the angiosperms. In Real, L. (ed.). Pollination Biology. Academic Press, Orlando, Florida. Chapter 3, pp. 2950.CrossRefGoogle Scholar
19.Danka, R. G., and Rinderer, T. E.. 1986. Africanized bees and pollination. American Bee Journal 126:680682.Google Scholar
20.Dunning, J. W. 1886. The importation of bumble bees into New Zealand. Trans. Royal Entomological Society of London 6:3234.Google Scholar
21.Eckert, J. E., and Shaw, F. R.. 1960. Beekeeping. Macmillan Publishers, New York, New York.Google Scholar
22.Erickson, E. H., Berger, G. A., Shannon, J. G., and Robbins, J. M.. 1978. Honey bee pollination increases soybean yields in the Mississippi Delta region of Arkansas and Missouri. Journal of Economic Entomology 71:601603.CrossRefGoogle Scholar
23.FAO. 1984. Proc. Expert Consultation on Beekeeping with Apis mellifera in Tropical and Sub-Tropical Asia. FAO, Rome, Italy.Google Scholar
24.Finnamore, B., and Neary, M. A.. 1978. Blueberry pollinators of Nova Scotia, with a check list of the blueberry pollinators of eastern Canada and northeastern United States. Annales de la Societe Entomologique de Quebec 23:168181.Google Scholar
25.Free, J. B. 1970. Insect Pollination of Crops. Academic Press, London. 544 pp.Google Scholar
26.Free, J. B. 1982. Bees and Mankind. George Allen and Unwin, London. 155 pp.Google Scholar
27.Freund, D. E., and Furgala, B.. 1982. Effect of pollination by insects on the seed set and yield often oilseed sunflower cultivars. American Bee Journal 122:648652.Google Scholar
28.Ismail, A., and Ibrahim, A. G.. 1986. The potential of ceratopogonid midges as insect pollinators of cocoa in Malaysia. In Hussein, M. Y. and Ibrahim, A. G. (eds.). Biological Control in the Tropics. Universiti Pertanian Malaysia, Serdang, Selangor, Malaysia, pp. 471484.Google Scholar
29.Jay, S. C. 1986. Spatial management of honeybees on crops. Annual Review of Entomology 31:4966.CrossRefGoogle Scholar
30.Johansen, C. A. 1977. Pesticides and pollination. Annual Review of Entomology 22:177192.CrossRefGoogle Scholar
31.Kevan, P. G. 1975. Pollination and environmental conservation. Environmental Conservation 2:222227.CrossRefGoogle Scholar
32.Kevan, P. G. 1984. Insect pollination of economically important plants of tropical and sub-tropical Asia. Proc. Expert Consultation on Beekeeping with Apis mellifera in Tropical and Sub-Tropical Asia. FAO, Rome, Italy, pp. 7785.Google Scholar
33.Kevan, P. G. 1986. Pollination and flower visiting insects and the management of beneficial and harmful insects and plants. In Hussein, M. Y. and Ibrahim, A. G. (eds.). Biological Control in the Tropics. Universiti Pertanian Malaysia, Serdang, Selangor, Malaysia, pp. 439452.Google Scholar
34.Kevan, P. G. (Ed.). 1987. Alternative pollinators for Ontario's crops. Proceedings of the Entomological Society of Ontario 118:109170.Google Scholar
35.Kevan, P. G. 1989. Beekeeping and pollination at the cross roads II. Pollination and pollinator requirements for Canadian crop plants (current status of understanding). Canadian Beekeeping 15:1216.Google Scholar
36.Kevan, P. G., and Baker, H. G.. 1983. Insects as flower visitors and pollinators. Annual Review of Entomology 28:407453.CrossRefGoogle Scholar
37.Kevan, P. G., and Baker, H. G.. 1984. Insects on flowers: pollination and floral visitations. In Huffaker, C. B. and Rabb, R. C. (eds.). Insect Ecology. J. Wiley, New York, New York. Chapter 21, pp. 607631.Google Scholar
38.Kevan, P. G., and Eisikowitch, D.. 1990. Self-and cross-pollination in canola (Brassica napus L. var. O.A.C. Triton) and its implications on seed germination. Euphytica 45:3941.CrossRefGoogle Scholar
39.Kevan, P. G., and LaBerge, W. E.. 1979. Demise and recovery of native pollinator populations through pesticide use and some economic implications. In D. M. Caron (ed.). Proc. IV International Symposium on Pollination. Maryland Agricultural Experimental Station Special Miscellaneous Publication 1. pp. 489508.Google Scholar
40.Kevan, P. G., and Plowright, R. C.. 1989. Fenitrothion and insect pollinators. In W. R. Ernst, P. A. Pearce, and T. C. Polluck (eds.). Environmental Effects of Fenitrothion Use in Forestry. Environment Canada, Dartmouth, N.S. pp. 1342.Google Scholar
41.Kevan, P. G., Gadawski, R. M., Kevan, S. D., and Gadawski, S. E.. 1983. Pollination of cranberries, Vaccinium macrocarpon, on cultivated marshes in Ontario. Proceedings of the Entomological Society of Ontario 114:4553.Google Scholar
42.Kevan, P. G., Hussein, M. Y., Hussey, N., and Wahid, M. B.. 1986. Modelling the use of Elaeidobius kamerunicus for pollination of oil palm. Planter (Malaysia) 62:8999.Google Scholar
43.Kevan, P. G., Mohr, N. A., Offer, M. D., and Kemp, J. R.. 1988. The squash and gourd bee, Peponapis pruinosa (Hymenoptera: Anthophoridae) in Ontario, Canada. Proceedings of the Entomological Society of Ontario 119: 915.Google Scholar
44.Levin, M. D. 1983. Value of bee pollination to U.S. Agriculture. Bulletin of the Entomological Society of America 29:5051.Google Scholar
45.Levin, M. D. 1984. Value of bee pollination to United States agriculture. American Bee Journal 124:184186.Google Scholar
46.Levin, M. D. 1986. Honey bees do pay their way. American Bee Journal 126:366369.Google Scholar
47.McGregor, S. E. 1976. Insect pollination of cultivated crop plants. USDA Agriculture Handbook No. 496. 411 pp.Google Scholar
48.Morrison, J. 1989. Year of the Africanized bee? Agricultural Research 37(1):47, 11.Google Scholar
49.Morse, R. A. 1988. Research review. Gleanings in Bee Culture 116:611.Google Scholar
50.Needham, G. R., Page, R. E., DelfinadoBaker, M., and Bowman, C. E. (Eds.). 1987. Africanized honeybees and bee mites. Ellis Harwood, Ltd., Chichester, England. 572 pp.Google Scholar
51.NRCC. 1981. Pesticide-pollinator interactions. National Research Council of Canada Publication No. NRCC 18471, Ottawa, Canada. 190 pp.Google Scholar
52.O'Grady, J. H. 1987. Market failure in the provision of honeybee pollination: a heuristic investigation. M.Sc. Thesis, Univ. of Vermont (cited in Robinson et al., 1989).Google Scholar
53.Pankiw, P. 1987. Introduction of Megachile rotondata into the Peace River region. In D. T. Fairey (ed.). Alfalfa Seed Production in the Peace River Region: Uptake 1987. Joint Publication of the Peace River Branch, Alberta Alfalfa Seed Producers' Association and Department Continuing Education, Fairview College, Fairview, Alberta. No. 87–2, pp. 11–13.Google Scholar
54.Parker, F. D., and Frohlich, D. R.. 1985. Studies on management of the sunflower leafcutter bee Eumegachile pugnata (Say) (Hymenoptera: Megachilidae). Journal of Apicultural Research 24:125131.CrossRefGoogle Scholar
55.Pellett, F. C. 1976. American honey plants together with those which are of special value to the beekeeper as sources of pollen. 5th Edition. Dadant and Sons, Hamilton, Illinois. 467 pp.Google Scholar
56.Pesson, P., and Louveaux, J. (eds.). 1984. Pollination et Productions Vegetales. INRA, Paris.Google Scholar
57.Peters, G. 1972. Causes for the decline of the rare bumble bee species (Hym., Bombus and Psithyrus). Entomological Ber. 1972:8590.Google Scholar
58.Plowright, R. C., and Laverty, T. M.. 1987. Bumble bees and crop pollination in Ontario. Proceedings of the Entomological Society of Ontario 118:155160.Google Scholar
59.Pomeroy, N. 1988. Comment. In J. L. Craig and A. M. Stewart. A Review of Kiwifruit Pollination: Where to Next. New Zealand Journal of Experimental Agriculture 16:385399.Google Scholar
60.PORIM. 1985. Proceedings of the symposium on impact of the pollinating weevil on the Malaysian oil palm industry. 21–22 February 1984. Palm Oil Research Institute of Malaysia, Kuala Lumpur, Malaysia. 376 pp.Google Scholar
61.Pouvreau, A. 1984a. Pollinisation du cacotier, du papayer, et tu cafeier. In Pesson, P. and Louveaux, J. (eds.). Pollination et Productions Vegetales. INRA, Paris, pp. 195208.Google Scholar
62.Pouvreau, A. 1984b. Biologie et ecologie des bourdons, in Pesson, P. and Louveaux, J. (eds.). Pollination et Productions Vegetales. INRA, Paris, pp. 595630.Google Scholar
63.Ramsay, J. 1987. Plants for beekeeping in Canada and the northern U.S.A. A directory of nectar and pollen sources found in Canada and the northern U.S.A. International Bee Research Association, London. 198 pp.Google Scholar
64.Richards, K. W. 1984. Alfalfa leafcutter bee management in Western Canada. Agriculture Canada Publ. No. 1495/E. 51 pp.Google Scholar
65.Robinson, W. S., Nowogrodzki, R., and Morse, R. A.. 1989. Value of honey bees as pollinators of U.S. crops. American Bee Journal 129:411423; 477487.Google Scholar
66.Sanchez, D. 1989. Ground-nesting bee best for blueberries. Agricultural Research 37(6):1617.Google Scholar
67.Stanley, R. G., and Linskens, H. F.. 1974. Pollen: Biology, Biochemistry, Management. Springer-Verlag, New York, New York.CrossRefGoogle Scholar
68.Stephen, W. P. 1955. Alfalfa pollination in Manitoba. Journal Economic Entomology 48:543548.CrossRefGoogle Scholar
69.Stephen, W. P. 1960. Artificial bee beds for the propagation of the alkali bee, Nomia melanderi. Journal of Economic Entomology 53:10251030.CrossRefGoogle Scholar
70.Syed, R. A. 1979. Studies on oil palm pollination by insects. Bulletin of Entomological Research 69:213224.CrossRefGoogle Scholar
71.Torchio, P. F. 1987. Use of non-honey bee species as pollinators of crops. Proceedings of the Entomological Society of Ontario 118:111124.Google Scholar
72.Torchio, P. F. 1990. Osmia ribifloris, a native bee species developed as a commercially managed pollinator of highbush blueberry. Journal of the Kansas Entomological Society. In press.Google Scholar
73.Torchio, P. F. 1990. Diversification of pollination strategies for U.S. crops. Environmental Entomology. In press.Google Scholar
74.Van Emden, H. F., and Williams, G. F.. 1974. Insect stability and diversity in agro-ecosystems. Annual Review of Entomology 19:455475.CrossRefGoogle Scholar
75.Williams, P. H. 1986. Environmental change and the distributions of British bumble bees (Bombus Latr.). Bee World 67:5061.CrossRefGoogle Scholar
76.Winder, J. A. 1977. Some organic substrates which serve as insect breeding sites in Bahian cocoa plantations. Review of Brazilian Biology 37:351356.Google Scholar
77.Winston, M. L., and Scott, C. D.. 1984. The value of bee pollination to Canadian apiculture. Canadian Beekeeping 11:134.Google Scholar