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Biology of Cereal and Grass Aphids in Wisconsin (Homoptera)

Published online by Cambridge University Press:  31 May 2012

G. B. Orlob  and
J. T. Medler
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Extract

Research was conducted on the biology of cereal and grass aphids in the Madison area during 1957-59 in connection with epidemiological investigations of the barley yellow dwarf virus (BYDV). It becomes of increasing importance to know more about these aphids as potential vectors of the virus. Information was needed on the taxonomy, biology and ecology of the vector population to better understand the complex interactions between vector and virus. Two methods were used to obtain data on the occurrence and abundance of aphids. The conventional method of studying aphid populations on host plants was supplemented with intensive research on air-borne aphids, using the yellow-pan water trap developed by Moericke (1951), and the wind trap described by Shands (1942). These traps are shown in Fig. 1. The species of aphids were identified according to keys of Palmer (1952). Names of genera as used in Europe have been indicated in parentheses. In the following report the various forms in the life cycle are referred to as fundatrices (on the winter host), fundatrigenae (produced by fundatrices, the alates of this generation migrate to summer hosts), virginoparae (both apterous and alate individuals on snmmer hosts), and gynoparae (alates migrate from summer hosts to winter hosts).

Type
Articles
Information
The Canadian Entomologist , Volume 93 , Issue 8 , August 1961 , pp. 703 - 714
Copyright
Copyright © Entomological Society of Canada 1961

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References

Kennedy, J. S., and Stroyan, H. L.. 1959. Biology of aphids. Ann. Rev. Ent. 4: 139160.CrossRefGoogle Scholar
Medler, J. T., and Smith, P. W.. 1960. Greenbug dispersal and distribution of virus in Wisconsin. Jour. Econ. Ent. 53: 473474.CrossRefGoogle Scholar
Moericke, V. 1951. Eine Farbfalle zur Kontrolle des Fluges von Blattläusen, insbesondere der Pfirsichblattlaus, Myzodes persicae (Sulz.). Nachr Bl. dtsch. Pflsch. Dienst 2: 23.Google Scholar
Moericke, V. 1955. Über die Lebensgewohnheiten der geflügelten Blattläuse unter besonderer Berücksichtigung des Verhaltens beim Landen. Z. Ent. 37: 2991.CrossRefGoogle Scholar
Müller, H. J. 1957. Über die Entwickelung erhöhten Randbefalls von Acherbohnenbeständen durch Aphis fabae Scop. Z. Pflanzenkr. Pflanzensch. 64: 593594.Google Scholar
Orlob, G., and Medler, J. T.. 1960. Oviparae of Metopolophium dirhodum (Walker) on a secondary (summer) host. (Homoptera: Aphididae). Proc. Ent. Soc. Wash. 62: 56.Google Scholar
Palmer, M. A. 1952. Aphids of the Rocky Mountain Region. Thomas Say Foundation, 5, 452 pp.Google Scholar
Shands, W. A. 1942. An aphid trap. U.S.D.A., Bur. Ent. Quar., Tech. Circ. E. 196.Google Scholar
Wadley, F. M. 1931. Ecology of Toxoptera graminum, especially as to factors affecting importance in the northern United States. Ann. Ent. Soc. Amer. 24: 326395.CrossRefGoogle Scholar