Hostname: page-component-cc8bf7c57-j4qg9 Total loading time: 0 Render date: 2024-12-12T02:44:55.791Z Has data issue: false hasContentIssue false
  • English
  • Français

Ovicidal Properties of certain Insecticides of Plant Origin. (Nicotine, Pyrethrins, Deeris Products)

Published online by Cambridge University Press:  10 July 2009

C. Potter  and
F. Tattersfield
C. Potter
Affiliation:
Department of Insecticides and Fungicides, Rothamsted Experimental Station, Harpenden, Herts.
F. Tattersfield
Affiliation:
Department of Insecticides and Fungicides, Rothamsted Experimental Station, Harpenden, Herts.
Get access Rights & Permissions [Opens in a new window]

Extract

The pyrethrins, nicotine, rotenone and a derris resin have been tested in the laboratory under standard conditions for their ovicidal effect. The test-subjects were : Pieris brassicae, Plutella maculipennis, Aphis rhamni, Ephestia kühniella and Sitotroga cerealella. Notes on the technique of egg production are given for these species. In the majority of the tests made a water medium containing acetone together with sulphonated lorol as a wetting agent was used.

It has been shown that all these products are toxic to the species on which they were tested. Lauryl thiocyanate, β-butoxyβ'thiocyanodiethyl ether and 3 : 5 dinitro-o-cresol were included as substances of recognised ovicidal value for purposes of comparison.

All the above insecticides derived from plants compared favourably in their toxic action with the synthetics. In two instances during tests on eggs of Ephestia kiihniella, data were obtained enabling a satisfactory statistical comparisdn of relative potency to be made. In the first of these, the pyrethrins were found to be 8·45±1·47 times as toxic as 3 : 5 dinitro-o-cresol, while in the second the pyrethrins were found to be 2·66±0·26 times as toxic as a Derris elliptica resin (rotenone content 37–40 per cent.). It therefore appears that both the pyrethrins and the derris resin were more toxic, weight for weight, than 3 : 5 dinitro-o-cresol which is recognised as one of the most potent ovicides.

The above vegetable poisons were found to be toxic not only to eggs developing in a few days without a diapause, but also to those of Aphis rhamni, a species of overwintering egg. The tests on A. rhamni were made at the time the eggs were just starting to hatch. The same result might not have been obtained with eggs at an earlier stage of development.

Observations were made on the effect of the different insecticides on the development of the egg. This effect appeared to differ with each substance, either qualitatively or quantitatively, but within the limits of the experiment it seemed to be independent of the species of the egg.

Type
Original Articles
Information
Bulletin of Entomological Research , Volume 34 , Issue 3 , September 1943 , pp. 225 - 244
Copyright
Copyright © Cambridge University Press 1943

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Berakey, E. P. & Miller, A. C. (1935). Halowax as an ovicide.—J. econ. Ent., 28, pp. 358365.CrossRefGoogle Scholar
Feytaud, J. (1917). Recherches sur l'Eudémis et la Cochylis dans le Bordelais en 1914.—Ann. Serv. Épiphyt., 4, pp. 218265.Google Scholar
Haug, G. W. & Peterson, A. (1938). The effect of insecticides on a beneficial Coccinellid, Hippodamia convergens Guer.J. econ. Ent., 31, pp. 8792.CrossRefGoogle Scholar
Jancke, O. & Maercks, H. (1938). Versuche zur Bekämpfung der Pflaumen–sägewespen.—Parkt. Bl. Pflanzenb., 14, pp. 189198.Google Scholar
McIndoo, N. E., Roark, R. C. & Busbey, R. L. (1936). A bibliography of nicotine.—E–392, U.S. Dep. Agric., Bur. Ent. Plant Quar., Washington, D.C.Google Scholar
Maercks, H. (1935). Ueber die Wikung von Nikotin und Pyrethrum auf die Eier des Apfelwicklers (Carpocapsa pomonella L.) und des bekreutzen Traubenwicklers Polychrosis botrana Schiff.—Anz. Schädlingsk., 11, pp. 1319.CrossRefGoogle Scholar
Mori, H. (1940). Lethal effect of contact insecticides upon insect eggs. I. Pyrethrin.—Oyo Dobuts. Zasshi, 12, pp. 208214. (Rev. appl. Ent., (A) 30, (1942), p. 17.)Google Scholar
NaudÉ, T. J. (1940). Work on the control of insect pests. Annulal Report of the Division of Entomology.—Fmg. in S. Afr., 15, no. 177, p. 514.Google Scholar
Nel, R. G. & Mathew, G. E. A. (1940). The toxic effect of pyrethrum and aliphatic thiocyanate upon the eggs and larvae of Ephestia elutella Hbn., and the adults of Sitophilus oryzae, L., and Bruchus chinensis T.Ent. Mem. Dep. Agric. For. S. Afr., 2, pt. 4, pp. 4151.Google Scholar
Okazaki, K. (1940). On the bionomics of Agromyza oryzella Matsumura, and laboratory tests on some insecticides against it.—Ōyō Kontyū, 2, no. 4, pp. 148161. (Rev. appl. Ent., (A) 29, (1941), pp. 9899.)Google Scholar
Onoe, T. & Fukuda, J. (1939). Effectivencess of pyrethrum against the eggs of Chilo simplex Butl.—Oya Dobuts. Zasshi, 11, nos. 3–4, pp. 146147. Tokyo. (Rev. appl. Ent., (A) 27, (1939), p. 620.)Google Scholar
Potter, C. (1941). A laboratory spraying apparatus and technique for investigating the action of contact insecticides. With some notes on suitable test insects.—Ann. appl. Biol., 28, pp. 142169.CrossRefGoogle Scholar
Shaw, H. & Steer, W. (1939). Studies on the toxicity of certain nitrophenols, thiocyanates, naphthalence derivatives and organic bases to the eggs of some common orchard pests.—J. Pomol., 16, pp364388.Google Scholar
Smith, C. F. (1940). Toixcity of some nitrogenous bases to eggs of Lygaeus kalmii.—J. econ. Ent., 33, pp. 724727.CrossRefGoogle Scholar
Turner, N. (1932). Notes on rotenone as an insecticide.—J. econ. Ent., 25, pp. 12281237.CrossRefGoogle Scholar