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RATES OF FEEDING, OVIPOSITION, DEVELOPMENT, AND SURVIVAL OF LIRIOMYZA TRIFOLII (BURGESS) (DIPTERA: AGROMYZIDAE) ON SEVERAL WEEDS1

Published online by Cambridge University Press:  31 May 2012

Robert F. Smith  and
J.M. Hardman
Robert F. Smith
Affiliation:
Agriculture Canada Research Station, Kentville, Nova Scotia, Canada B4N 1J5
J.M. Hardman
Affiliation:
Agriculture Canada Research Station, Kentville, Nova Scotia, Canada B4N 1J5
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Abstract

In free-choice trials with Liriomyza trifolii (Burgess), a serious greenhouse pest, and 16 species of weeds commonly found near greenhouses in Nova Scotia, the leafminer produced feeding punctures and mines in every weed tested. There were wide variations in mean numbers of punctures per plant and larval mines per plant and less pronounced variations in the mean ratios of punctures to mines. In single-host trials, development time and survival of larval and pupal L. trifolii were determined on 10 of these weeds and on Chrysanthemum morifolium cv. White Marble. Pupal survival with all weeds was as high or higher than with chrysanthemum and larval survival was as high or higher than with chrysanthemum in 6 of the 10 weeds. Time from oviposition to adult emergence was as short as that on chrysanthemum on two weeds and shorter on six others. Only creeping Charlie, Glechoma hederacea, was an unsuitable host with no larvae developing to the pupal stage. The ability of L. trifolii to use common weeds as alternate hosts indicates that weed control in and around greenhouses should be included in any program to protect greenhouse chrysanthemums from this leafminer.

Résumé

Lors de tests de choix multiples impliquant Liriomyza trifolii (Burgess), un nuisible important en serres, face à 16 espèces de mauvaises herbes communes autour des serres en Nouvelle-Écosse, la mineuse a produit des trous d’alimentation et des mines larvaires chez toutes les espèces. On a observé des variations importantes des nombres moyens de trous par plant et de mines par plant, et des variations plus faibles du rapport moyen trous/mines. On a déterminé le temps moyen de développement et la survie larvaire et pupale de L. trifolii par des tests à un seul hôte impliquant 10 mauvaises herbes et le Chrysanthemum morifolium cv. White Marble. La survie pupale était au moins aussi élevée sur les mauvaises herbes que sur le chrysanthème dans 6 des 10 cas. La durée de la ponte jusqu’à l’émergence de l’adulte était aussi brève que chez le chrysanthème chez deux mauvaises herbes et plus courte dans six cas. Seule la gnaphale des vases, Glechoma hederacea, s’est avérée non convenable, aucune larve n’ayant atteint le stade pupal chez cet hôte. La capacité de L. trifolii à utiliser comme hôte des mauvaises herbes communes indique que la répression de ces plantes autour et à l’intérieur des serres devrait faire partie de tout programme de protection des chrysanthèmes de serre contre la mineuse.

Type
Articles
Information
The Canadian Entomologist , Volume 118 , Issue 8 , August 1986 , pp. 753 - 759
Copyright
Copyright © Entomological Society of Canada 1986

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References

Alex, J.F., Cayouette, R., and Mulligan, G.A.. 1980. Common and botanical names of weeds in Canada. Agric. Can. Res. Branch Publ. 1397.Google Scholar
Alverson, D.R., and Gorsuch, C.S.. 1982. Evaluation of chrysanthemum cultivars and insecticides for control of damage by a leafminer, Liriomyza trifolii (Diptera: Agromyzidae). J. econ. Ent. 75: 888891.CrossRefGoogle Scholar
Anon. 1983. Society of American Florists newsletter ‘Miner Notes’. Vol. 4 No. 1. 7 pp.Google Scholar
Chandler, L.D., and Thomas, C.E.. 1983. Seasonal population trends and foliar damage of Agromyzid leaf-miners on cantaloup in Lower Rio Grande Valley. Texas. Georgia Ent. Soc. 18: 112120.Google Scholar
Fagoonee, I., and Toory, V.. 1983. Preliminary investigations of host selection mechanisms by the leafminer Liriomyza trifolii. Insect Sci. Appl. 4: 337341.Google Scholar
Genung, W.G. 1957. Some possible cases of resistance to insecticides in Florida. Fla. State Hort. Soc. Proc. 70: 148152.Google Scholar
Herbert, H.J., Smith, R.F., and McRae, K.B.. 1984. Evaluation of non-insecticidal methods to reduce damage to chrysanthemums by the leafminer Liriomyza trifolii (Diptera: Agromyzidae). Can. Ent. 116: 12591266.CrossRefGoogle Scholar
Hussey, N.W., and Gurney, B.. 1962. Host selection by the polyphagous species Phytomyza atricornis Meigen (Dipt., Agromyzidae). Ent. mon. Mag. 98: 4247.Google Scholar
McClanahan, R. 1981. Update on chrysanthemum leafminer. Ont. Min. Agric. and Food, Grower Notes 233.Google Scholar
Miller, J.R., and Strickler, K.L.. 1984. Plant–herbivore relationships: finding and accepting host plants. pp. 127157.in Bell, W.J., and Cardé, R.T. (Eds.), Chemical Ecology of Insects. Sinauer and Assoc. Inc., Massachusetts.Google Scholar
Parrella, M.P., Allen, W.W., and Morishita, P.. 1981. Leafminer species causes California mum growers new problems. Calif. Agric. 35: 2830.Google Scholar
Parrella, M.P., Keil, C.B., and Morse, J.G.. 1984. Insecticidal resistance in Liriomyza trifolii. Calif. Agric. 38: 2223.Google Scholar
Parrella, M.P., and Robb, K.L.. 1982. Technique for staining eggs of Liriomyza trifolii within chrysanthemum, celery and tomato leaves. J. econ. Ent. 75: 383384.CrossRefGoogle Scholar
Parrella, M.P., Robb, K.L., and Bethke, J.. 1983. Influence of selected host plants on the biology of Liriomyza trifolii. Ann. ent. Soc. Am. 76: 112115.CrossRefGoogle Scholar
Piedrahita, O. 1985. Two serpentine leafminers attacking vegetables and ornamentals. Ont. Min. Agric. and Food Factsheet 290/620.Google Scholar
Poe, S.L., and Montz, J.K.. 1981. Preliminary results of a leafminer species survey. Proc. IFAS Industry Conf. on the Biology and Control of Liriomyza leafminers (IFAS, Univ. of Florida, Lake Buena Vista, Fla.) 1: 2434.Google Scholar
Schuster, D.J, Zoebisch, T.G., and Gilbreath, J.P.. 1982. Oviposition preference and larval development of Liriomyza trifolii on selected weeds. Proc. 3rd Annu. Industry Conf. on the Leafminer (San Diego) 1: 137145.Google Scholar
Seghal, V.K. 1971. Biology and host-plant relationships of an oligophagous leafminer Phytomyza matricariae Hendel (Diptera: Agromyzidae). Quaest Ent. 7: 255280.Google Scholar
Snedecor, G.W., and Cochran, W.G.. 1980. Statistical methods, 7th ed. Iowa State Univ. Press, Ames, Iowa.Google Scholar
Spencer, K.A. 1969. The Agromyzidae of Canada and Alaska. Mem. ent. Soc. Can. 64: 188190.Google Scholar
Steel, R.D.G., and Torrie, J.H.. 1980. Principles and procedures of statistics, 2nd ed. McGraw Hill, New York.Google Scholar
Stegmaier, C.E. 1966. Host plants and parasites of Liriomyza trifolii in Florida (Diptera: Agromyzidae). Fla. Ent. 49: 7581.CrossRefGoogle Scholar