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Distribution and extent of damage by Scolytus Spp. To stone and pome fruit orchards in Israel

Published online by Cambridge University Press:  19 September 2011

Zvi Mendel
Affiliation:
Department of Entomology, Agricultural Research Organisation, Ministry of Agriculture, Israel
Shaul Ben-Yehuda
Affiliation:
Agricultural Extension Service, Ministry of Agriculture, Israel
Ruth Marcus
Affiliation:
Department of Statistics, Agricultural Research Organisation, Ministry of Agriculture, Israel
David Nestel
Affiliation:
Department of Entomology, Agricultural Research Organisation, Ministry of Agriculture, Israel
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Abstract

During the last decade damage to stone-and pome-fruit orchards in Israel caused by bark beetles has increased. We present data on injury by Scolytus amygdali Geur. and S. rugulosus Muller to nine rosaceous fruit trees of Prunus spp., Malus silvestris, Pyrus malus, Cydonia oblonga and Eriobotrya japonica in 6 major regions in Israel. Approximately 64 and 18% of the sampled areas planted with stone- and pome-fruits, respectively, were damaged by bark beetles. The heaviest damage occurred on apricot, almond, peach, plum and cherry. Most of the area planted with stone fruits, and large areas planted with apple and pear, were damaged by bark beetles. The most widespread beetle damage occurred in the central mountain range and the southern coastal region, with approximately 96 and 92% of the sampled area damaged, respectively and the least occurred in the northern mountain range. Stone fruits are more susceptible to damage by bark beetles than apple and pear, while quince and loquat are virtually resistant. The level of damage appears to be influenced by grove management, host plant resistance to Capnodis spp. (Coleoptera: Buprestidae), climatic conditions and conditions in plots neighbouring the orchard.

Résumé

Durant la derniàre décennie les dégâts causés par les scolytes aux vergers de drupes et de pommes ont augmenté en Israël. Nous présentons les résultats des dégâts par Scolytus amygdali Geur et S. rugolosus Muller à neuf arbres fruitiers rosacés, Prunus spp., Malus silvestris, Pylus malus, Cydonia oblonga et Eriobotrya japonica dans six régions importantes d'Israël. Approximativement 64 et 18% des régions échantillonnées plantées respectivement d'arbre à drupes et de pomier étaient endommagés par les scolytes. Les dégâts les plus lourds étaient sur les arbres à abricots, amandes, pêches, prunes et cerises. La majeur partie de la région plantée d'arbre à drupes, et de larges étendues plantées de pommier et de poirier étaient endommagés par les scolytes. Le dégâts par coléoptàres les plus répandus avaient lieu sur l'étendue montagneuse et la région de la côte sud, avec des dégâts sur approximativement 96 et 92% respectivement de l'aire échantillonnée tandis que la région montagneuse du nord était moins affectée. Les drupes sont plus susceptibles aux dégâts par scolytes que les pommes et les poires alors que les coings et les nàfles sont en fait résistants. Le niveau des dégâts semble être influencé par la gestion de la plantation, la résistance de la plante hôte à Capnodis spp. (Coleoptera: Buprestidae), les conditions climatiques et les conditions dans les parcelles entourant le verger.

Type
Research Articles
Copyright
Copyright © ICIPE 1997

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References

REFERENCES

Avidov, Z. and Harpaz, I. (1969) Plant Pests of Israel. Israel University Press, Jerusalem, Israel. 549 pp.Google Scholar
Balachowski, A. (1949) Faune de France: Coleopteres Scolytidae. Lecheyalier, Paris. 320 pp.Google Scholar
Basset, Y., Favaro, A., Springate, N. D. and Battisti, A. (1992) Observations on the relative effectiveness of Scolytus multistriatus (Marsham) and Scolytus pygmaeus (Fabricius) (Coleoptera: Scolytidae) as vectors of the Dutch elm disease. Mitt. Schweiz. Entomol. Ges. 65, 6167.Google Scholar
Beaver, R. A. (1989) Insect-fungus relationship in the bark and ambrosia beetles, pp. 121143. In Insect-Fungus Interactions (Edited by Wilding, N., Collins, N. M., Hammond, P. M. and Webber, J. F.). Academic Press, London.CrossRefGoogle Scholar
Beers, E. H., Brunner, J. F., Willett, M. J. and Warner, G. M. (1993) Orchard Pest Management. A Resource Book for the Pacific Northwest. Good Fruit Grower, Yakima, WA, USA. 276 pp.Google Scholar
Ben-Yehuda, S. and Mendel, Z. (1995) [Outbreak of the buprestids (Cepnodsis spp.) in stone-fruitplantations in Israel and Spain]. Alon HaNotea 49, 546552 (in Hebrew).Google Scholar
Gurevitz, E. (1973) Contribution à l'étude du scolyte méditerranàen Scolytus (Ruguloscolytus) mediterraneus Eggers (Col.:Scolytidae) nuisible aux arbres fruitiers en Israel. These présentàe à la Faculté des Sciences de l'Université de Toulouse, France.Google Scholar
Gurevitz, E. (1976) Contribution to the study of the Scolytidae. II. Population dynamics of Scolytus (Ruguloscolytus) mediterraneus Eggers in Israel. Ann. Zool. Ecol. Anim. 8, 5368.Google Scholar
Gurevitz, E. and Ascher, K. R. S. (1973) The influence of the host plant on which the larvae are reared, on the subsequent response of Scolytus (Ruguloscolytus) mediterraneus Eggers female adults to extracts of various plants. Z. PflazenKr. PflanzenSchutz. 80, 261264.Google Scholar
Gurevitz, E. and Ishaaya, I. (1972) Behavioral response of the fruit tree bark beetle, Scolytus mediterraneus, to host and non-host plants. Entomol. Exp. Appl. 15, 175182.Google Scholar
Gurevitz, E. and Ledoux, A. (1981) Attraction exercée par les plantes hôtes sur le scolyte màditerranéen, Scolytus (Ruguloscolytus), mediterraneus Eggers. Agronomie 1, 249254.Google Scholar
Halperin, J. and Holtzschuh, C. (1984) Contribution to the knowledge of bark beetles (Coleoptera: Scolytidae) and associated organisms in Israel. Israel J. Entomol. 18, 2137.Google Scholar
Hochberg, Y. (1988) A sharper Bonferroni procedure for multiple tests of significance. Biometrika 75, 800802.CrossRefGoogle Scholar
Joseph, J. H. and Ganor, E. (1986) Variability of climatic boundaries in Israel. Use of modified Budyko-Lettau aridity index. J. Climatol. 6, 6982.CrossRefGoogle Scholar
Kinawy, M. M., Tadors, A. W. and Abd-Allah, F. F. (1991) On the biology of the shot-hole bark beetle Scolytus amygdali Guer. (Coleoptera: Scolytidae) on pear trees in Egypt. Bull. Fac. Agric. Univ. Cairo 42, 119128.Google Scholar
Lichtenstein, E. P. (1940) The biology and ecology of the almond bark beetle Scolytus (Eccoptogaster) amygdali Guer. M.Sc. thesis, The Hebrew University of Jerusalem, Israel (in Hebrew).Google Scholar
Mahhou, A. and Dennis, F. G. (1992) The almond in Morocco. HortTechnology 2, 488492.Google Scholar
Popushoi, I. S. and Kylik, M. F. (1977) Reasons of apricot drying off in Moldavia pests Scolytus rugulosus and fungus Verticillium dahliae. International Symposium on Apricot Culture and Decline (Yerevan, USSR) (a reprint).Google Scholar
Rivnay, E. (1945) Physiological and ecological studies of the species of Capnodis in Palestine (Col. Buprestidae). Bull. Entomol. Res. 36, 103119.CrossRefGoogle Scholar
Schvester, C. (1957) Contribution à l'étude écologique des Coléoptàres Scolytides. Essai d'analyse des facteurs de fluctuation des population chez Ruguloscolytus rugulosus Muller, 1818. Annales Epiphyt. 8, 162.Google Scholar