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THE DYNAMICS OF LARCH SAWFLY (HYMENOPTERA: TENTHREDINIDAE) POPULATIONS IN SOUTHEASTERN MANITOBA

Published online by Cambridge University Press:  31 May 2012

W. G. H. Ives
W. G. H. Ives
Affiliation:
Northern Forest Research Centre, Canadian Forestry Service, Edmonton, Alberta
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Abstract

Life-table study plots were established in southeastern Manitoba to study the population dynamics of the larch sawfly for the 1956 to 1972 generations and to evaluate the impact of two recently introduced parasites.

Abbreviated life tables were used to calculate k-values, expressions of mortality during the different stages due to various factors. Graphical and principal component analyses of the k-values showed that mortality during the cocoon and adult stages (k5) largely determined population trends. None of the factors affecting populations before the introduction of the parasite Olesicampe benefactor Hinz was density-dependent. However, a form of density dependence appeared to exist for O. benefactor and for its hyperparasite Mesochorus dimidiatus Holmgren. The area of discovery for both species decreased rapidly as the density of the female parasites increased.

A simple model confirmed that k5 was largely responsible for determining population trends. A second model utilizing the relationships between areas of discovery and adult female densities for O. benefactor and M. dimidiatus provided reasonable approximations to observed values for numbers of sawfly eggs, and numbers of adults, rates of attack, and attacks per female for both species of parasites.

Twenty sets of 50 pairs of randomly generated values of k5 were used as simulated input in the second model. None of the values for simulated egg populations of the larch sawfly reached outbreak proportions when O. benefactor and M. dimidiatus were present, but most exceeded these levels in their absence. Larch sawfly populations in southeastern Manitoba should be controlled by O. benefactor in the foreseeable future.

Résumé

L’auteur établit dans le sud-est du Manitoba des parcelles-échantillons de mortalité pour étudier le dynamisme des populations de la Tenthrède du Mélèze pour les générations de 1956 à 1972, et évaluer l’impact de deux parasites introduit récemment.

Les valeurs k furent calculées avec des tables de mortalité abrégées; les valeurs k représentent la mortalité des Tenthrèdes pendant différents stades, attribuée à divers facteurs. L’analyse graphique et factorielle des valeurs k démontra que c’est la mortalité pendant les étapes de pupe et adultes (k5) qui détermine largement les tendances des populations. Aucun des facteurs affectant les populations avant l’introduction du parasite Olesicampe benefactor Hinz n’a influencé la densité. Cependant il semblait que l’hyper-parasite Mesochorus dimidiatus Holmgren influençait de quelque manière la densité de O. benefactor. Le nombre de présences signalé de ces deux espèces parasitaires a décru rapidement à mesure que la densité des femelles parasitaires augmentait.

Un simple tableau-modèle de mortalité appuie l’hypothèse que la valeur de k5 était largement responsable des tendances des populations de la Tenthrède. Un deuxième tableau-modèle, basé sur les rapports entre le nombre d’aires de découvertes et les densités des femelles adultes de parasites O. benefactor et M. dimidiatus a donné des corrélations raisonablement équivalentes aux valeurs observées du nombre d’oeufs de la Tenthrède, du nombre d’adultes, des taux d’infestations et du nombre d’attaques par femelle pour chaque espèce parasitaire.

Ont été utilisées comme données d’entrées simulées du deuxième tableau-modèle, 20 séries de 50 paires de valeurs de k5 choisies au hasard. Selon le modèle aucune des valeurs simulées des populations d’oeufs de la Tenthrède du Mélèze n’ont atteint des proportions épidémiques lors de la présence de O. benefactor et M. dimidiatus, mais la plupart les ont dépassées lors de leur absence. L’auteur conclut que le parasite O. benefactor devrait dorénavant être utilisé dans la lutte contre les infestations des Tenthrèdes du Mélèze dans le sud-est du Manitoba.

Type
Articles
Information
The Canadian Entomologist , Volume 108 , Issue 7 , July 1976 , pp. 701 - 730
Copyright
Copyright © Entomological Society of Canada 1976

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References

Buckner, C. H. 1958. Mammalian predators of the sawfly. Proc. 10th int. Congr. Ent., Vol. 4, pp. 353361.Google Scholar
Buckner, C. H. 1959. The assessment of larch sawfly cocoon predation by small mammals. Can. Ent. 91: 275282.Google Scholar
Buckner, C. H. and Turnock, W. J.. 1965. Avian predation on the larch sawfly, Pristiphora erichsonii (Htg.), (Hymenoptera: Tenthredinidae). Ecology 46: 223236.CrossRefGoogle Scholar
Coppel, H. C. and Leius, K.. 1955. History of the larch sawfly, with notes on origin and biology. Can. Ent. 87: 103111.CrossRefGoogle Scholar
Embree, D. G. and Underwood, G. R.. 1972. Establishment in Maine, Nova Scotia, and New Brunswick of Olesicampe benefactor (Hymenoptera: Ichneumonidae), an introduced ichneumonid parasite of the larch sawfly, Pristiphora erichsonii (Hymenoptera: Tenthredinidae). Can. Ent. 104: 8996.Google Scholar
Fyles, T. W. 1892. Nematus erichsonii: a retrospect. 22nd A. Rep. Ont. ent. Soc. 1891: 2830.Google Scholar
Graham, A. R. 1931. The present status of the larch sawfly, (Lygaeonematus erichsonii Hartig), in Canada, with special reference to its specific parasite Mesoleius tenthredinis Morley. Can. Ent. 63: 99102.CrossRefGoogle Scholar
Graham, S. A. 1956. The larch sawfly in the Lake States. For. Sci. 2: 132160.Google Scholar
Graham, S. A. and Satterlund, D. R.. 1959. Weather, water levels, and larch sawfly cocoons. For. Sci. 5: 2836.Google Scholar
Hassell, M. P. and May, R. M.. 1973. Stability in insect-parasite models. J. Anim. Ecol. 42: 693726.CrossRefGoogle Scholar
Hassell, M. P. and Varley, G. C.. 1969. New inductive population model for insect parasites and its bearing on biological control. Nature 223: 11331137.CrossRefGoogle ScholarPubMed
Heron, R. J. 1953. Substitute shoot production by tamarack. Bi-mon. Progr. Rep. Div. For. Biol. 9(3): 3. Can. Dep. Agric., Sci. Serv.Google Scholar
Heron, R. J. 1955. Studies on the starvation of last-instar larvae of the larch sawfly, Pristiphora erichsonii (Htg.) (Hymenoptera: Tenthredinidae). Can. Ent. 87: 417427.CrossRefGoogle Scholar
Hewitt, C. G. 1912. The large larch sawfly (Nematus erichsonii) with an account of its parasites, other natural enemies and means of control. Bull. Can. Dep. Agric., Exp. Farms 10 (2nd Ser.). 42 pp.Google Scholar
Hewitt, C. G. 1917. The introduction into Canada of the ichneumon fly, Mesoleius tenthredinis, a parasite enemy of the larch sawfly, Nematus erichsonii. Agric. Gaz. Can. 4(5): 355357.Google Scholar
Ives, W. G. H. 1961. Effect of weather on survival of larch sawfly during the egg and early larval stages. Bi-mon. Prog. Rep. For Ent. Path. Br. 17(5): 3. Can. Dep. For., Ottawa.Google Scholar
Ives, W. G. H. 1963. Effects of defoliation on survival of larvae of the larch sawfly Pristiphora erichsonii (Htg.). Can. Ent. 95: 887892.CrossRefGoogle Scholar
Ives, W. G. H. 1967. Relations between invertebrate predators and prey associated with larch sawfly eggs and larvae on tamarack. Can. Ent. 99: 607622.Google Scholar
Ives, W. G. H. and Nairn, L. D.. 1966. Effects of water levels on overwintering survival and emergence of the larch sawfly in a bog habitat. Can. Ent. 98: 768777.Google Scholar
Ives, W. G. H., Turnock, W. J., Buckner, C. H., Heron, R. H., and Muldrew, J. A.. 1968. Larch sawfly population dynamics: techniques. Man. Ent. 2: 536.Google Scholar
Kulman, H. M., Thompson, L. C., and Witter, J. A.. 1974. Introduction of parasites of the larch sawfly in Minnesota. Great Lakes Ent. 7: 2325.Google Scholar
Lejeune, R. R. 1951. Forest entomology in relation to silviculture in Canada. Part IV. The larch sawfly problem. For. Chron. 27: 2237.Google Scholar
Lejeune, R. R. 1955. Population ecology of the larch sawfly. Can. Ent. 87: 111117.CrossRefGoogle Scholar
Lejeune, R. R., Fell, W. H., and Burbridge, D. P.. 1955. The effect of flooding on the development and survival of the larch sawfly Pristiphora erichsonii (Tenthredinidae). Ecology 36: 6370.CrossRefGoogle Scholar
Morris, R. F. 1959. Single-factor analysis in population dynamics. Ecology 40: 580588.Google Scholar
Morris, R. F. and Miller, C. A.. 1954. The development of life tables for the spruce budworm. Can. J. Zool. 32: 283301.Google Scholar
Muldrew, J. A. 1953. The natural immunity of the larch sawfly (Pristiphora erichsonii (Htg.)) to the introduced parasite Mesoleius tenthredinis Morley, in Manitoba and Saskatchewan. Can. J. Zool. 31: 313332.CrossRefGoogle Scholar
Nairn, L. D., Reeks, W. A., Webb, F. E., and Hildahl, V.. 1962. History of larch sawfly outbreaks in their effect on tamarack stands in Manitoba and Saskatchewan. Can. Ent. 94: 242255.CrossRefGoogle Scholar
Pschorn-Walcher, N. and Zinnert, D. K.. 1971. Investigations on the ecology and natural control of the larch sawfly (Pristiphora erichsonii Htg., Hym.: Tenthredinidae) in central Europe. Part II. Natural enemies: their biology and ecology and their role as mortality factors in P. erichsonii, pp. 150. Tech. Bull. Cmmmonw. Inst. biol. Contr., No. 14.Google Scholar
Royama, T. 1971. A comparative study of models for predation and parasitism. Researches Popul. Ecol. Kyoto Univ., Suppl. 1. 91 pp.Google Scholar
Smith, R. H. 1973. The analysis of intra-generation change in animal populations. J. Anim. Ecol. 42: 611622.Google Scholar
Swaine, J. M. 1928. Forest entomology and its development in Canada, Pamp. Can. Dep. Agric., No. 97. 20 pp.Google Scholar
Turnock, W. J. 1960. Ecological life-history of the larch sawfly, Pristiphora erichsonii (Htg.) (Hymenoptera: Tenthredinidae), in Manitoba and Saskatchewan. Can. Ent. 92: 500516.CrossRefGoogle Scholar
Turnock, W. J. 1973. Factors influencing the fall emergence of Bessa harveyi (Tachinidae: Diptera). Can. Ent. 105: 399409.CrossRefGoogle Scholar
Turnock, W. J. and Muldrew, J. A.. 1971. Pristiphora erichsonii (Hartig), larch sawfly (Hymenoptera: Tenthredinidae), pp. 175194. In Biological control programmes against insects and weeds in Canada, 1959–1968. Commonw. Inst. Biol. Contr. Tech. Commun. 4.Google Scholar
Varley, G. C. and Gradwell, G. R.. 1960. Key factors in population studies. J. Anim. Ecol. 29: 399401.CrossRefGoogle Scholar
Varley, G. C. and Gradwell, G. R.. 1962. The interpretation of insect population changes. Proc. Ceylon Ass. Advanc. Sci. 18: 142156.Google Scholar
Varley, G. C. and Gradwell, G. R.. 1968. Population models for the winter moth, pp. 132142. In Insect abundance. Southwood, T.R.E. (Ed.), Symposia for the R. Entomol. Soc. London, Nov. 1968.Google Scholar
Wong, H. R. 1974. The identification and origin of the strains of the larch sawfly, Pristiphora erichsonii (Hymenoptera: Tenthredinidae) in North America. Can. Ent. 106: 11211131.Google Scholar