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On the biology of the adult of the almond wasp, Eurytoma amygdali End. (Hym., Eurytomidae), in Israel *

Published online by Cambridge University Press:  10 July 2009

H. N. Plaut
Affiliation:
Volcani Institute of Agricultural Research, Regional Experiment Station, Newe Ya'ar, P.O. Haifa, Israel

Extract

Field and laboratory observations on the adults of Eurytoma amygdali End. at Newe Ya'ar, Israel, were made as a basis for improving control measures against this pest of almond fruits. After hatching from the pupa, the adults took 3–9 days to bore through the pericarp. Emergence usually began in March, but was delayed by cold weather in February and March. Males emerged earlier than females, and oviposition began the first or second day after emergence. Drilling and deposition of the egg into the nucellar tissue of the young fruits took 9–34 min, up to five eggs per fruit being laid under natural conditions. As oviposition sites, larger fruits were preferred to small, and uninfested fruits to infested. At 23 °C indoors fecundity and life span were 128·9 and 7–18 days, respectively, but outdoors under unsettled weather conditions were 23·0 and 4–25 days, respectively. When fed on honey dew or water instead of 10% honey, fewer eggs were laid. The lack of an oviposition site reduced the life span of the female.

Type
Research Paper
Copyright
Copyright © Cambridge University Press 1971

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References

Aharoni, J. (1916). Eurytoma sp., ein neuer Mandelschädling.—Tropenpflanzer 19, 317322.Google Scholar
Atanasov, P. (1962). Some insect pests of agricultural crops in the region of Gevgelija, Macedonia.—Godišen 26. zemjod.—.šum. Fak. Univ. Skopje. 15, 319337.Google Scholar
Bevan, W. (1918). Annual Report, Director of Agriculture, Cyprus, for the year 1917–18.— 21 pp. NicosiaGoogle Scholar
Bodenheimer, F. S. (1930). Die Schädlingsfauna Palästinas. Unter besonderer Berück sichtigung Groβschädlinge des Mittelmeergebietes.—438 pp. Berlin, Paul Parey. [Monogrn angew. Ent. no. 10].Google Scholar
Delanoue, P. & Aramboijrg, Y. (1969). Contribution à l'étude en laboratoire d'Eurytoma martelli (Hym. Chalcidoidea Eurytomidae).—Annls. Soc. ent. Fr. (N.S.) 5, 811824.CrossRefGoogle Scholar
Doinikov, A. (1965). The almond seed Chalcid.—Zashch. Rast. vredit. Bolez. 1965 pt. 8, p. 40. [In Russian].Google Scholar
Ekici, V. & Günaydin, T. (1969). Investigation on Eurytoma amygdali End, in East and Southeast Anatolia.—Bitki Koruma Bült. suppl. 1, 28 pp. [In Turkish, with English summary].Google Scholar
Enderlein, G. (1907). Eurytoma amygdali, emin neuer Chalcidier aus Mandelkernen (Hym.).—Z. Hymenopt. Dipt 7, 303305.Google Scholar
Ivanov, S. (1960). Eurytoma amygdali End, in Bulgaria and its control.—Rastit. Zasht. 8 (5), 4161. [In Bulgarian, with English summary].Google Scholar
Klapperich, J. (1964). Die Mandelsamenwespe (Eurytoma amygdali End. Chalcididae Hymenoptera), ein Schäadling in den Mandelkulturen Jordaniens.—Gesunde Pfl. 16, 7378.Google Scholar
Mentjelos, J. & Atjemis, A. (1970). Studies on the biology and control of Euryloina amygdali in Greece.—J. econ. ent. 63, 19341936.CrossRefGoogle Scholar
Putman, W. L. (1963). Nectar of peach leaf glands as insect food.—Can. Ent. 95, 108109.CrossRefGoogle Scholar
Talhouk, A. S. (1966). Beobachtungen über Schadlinge an Mandelbäumen in Libanon und in Syrien.—Anz. Schädlingsk. 39 (8), 113117.Google Scholar