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Formation of Green Pigment and Colour Changes in Orthoptera

Published online by Cambridge University Press:  10 July 2009

Salâhattin Okay
Affiliation:
Department of Zoology, University of Ankara

Extract

The colour change and formation of green pigment in Mantis, Acrida, Locusta, Schistocerca and Dixippus are studied.

There is no background reaction to green and brown or yellow colour in these species.Usually the young nymphs of Mantis are green; some ofthe old nymphs and adults have a tendency to lose the green pigment. Phytophagous nymphsbecome green only when fed on fresh or growing grass. Green individuals may be obtained in darkness on this food (Locusta). The green pigmentdisappears on a diet of dry grass.

The colour change from non-green to green, or vice versa, is dependent on the formation or disappearance of the blue component (bile pigment-protein) of green pigment. The blue pigment generally appears first in the blood and is deposited in the integument at the following moult; it does not appear to be a breakdown product of chlorophyll or haematin. It is probably synthesised from a colourless precursor in the peripheral fat body.

Observations made on the pericardial cells of Locusta suggest that the blue pigment may be converted into insectorubin.

Type
Original Articles
Copyright
Copyright © Cambridge University Press 1953

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References

Busnel, R. G. & Drilhon, A. (1942). Recherches sur la répartition de la ribo-flavine (vitamine B2) et de quelques autres substances fluorescentes chez les insectes.—Arch. Zool. exp. gén., 82, pp. 321356.Google Scholar
Buys, K. S. (1924). Adipose tissue in insects.—J. Morph., 38, pp. 485528.CrossRefGoogle Scholar
Chauvin, R. (1938). Sur le rougissement du criquet pélerin.—C.R. Acad. Sci., 207, pp. 10181020.Google Scholar
Chauvin, R. (1941). Contribution à l'étude physiologique du criquet pélerin et du déterminisme des phénomènes grégaires.—Ann. Soc. ent. Fr., 110, pp. 133272.CrossRefGoogle Scholar
Ergene, S. (1950). Untersuchungen über Farbanpassung und Farbwechsel bei Acrida turrita.—Z. vergl. Physiol., 32, pp. 530551.CrossRefGoogle ScholarPubMed
Ergene, S. (1952). Farbanpassung entsprechend der jeweiligen Substratfärbung bei Acrida turrita.—Z. vergl. Physiol., 34, pp. 6974.CrossRefGoogle Scholar
Faure, Jacobus C. (1932). The phases of locusts in South Africa.—Bull. ent. Res., 23, pp. 293405.CrossRefGoogle Scholar
Giersberg, H. (1928). Über den morphologischen und physiologischen Farbwechsel der Stabheuschrecke Dixippus (Carausius) morosus.—Z. vergl. Physiol., 7, pp. 657695.CrossRefGoogle Scholar
Goodwin, T. W. & Srisukh, S. (1949). The biochemistry of locusts. 1. The carotenoids of the integument of two locust species (Locusta migratoria migratorioides R. and F. and Schistocerca gregaria Forsk.).—Biochem. J., 45, pp. 263268.CrossRefGoogle Scholar
Goodwin, T. W. & Srisukh, S. (1950). Biochemistry of locusts. 3. Insectorubin: the redox pigment present in the integument and eyes of the Desert Locust (Schistocerca gregaria Forsk.), the African Migratory Locust (Locusta migratoria migratorioides R. & F.) and other insects.—Biochem. J., 47, pp. 549554.CrossRefGoogle Scholar
Goodwin, T. W. & Srisukh, S. (1951). Biochemistry of locusts. 5. The green pigment of the haemolymph and integument of solitary locusts (Locusta migratoria migratorioides R. and F. and Schistocerca gregaria Forsk.).—Biochem. J., 48, pp. 199203.CrossRefGoogle Scholar
Haviland, M. D. (MrsBrindley, H. H.). (1926). Forest, steppe and tundra. Cambridge.Google Scholar
Hertz, M. & Imms, A. D. (1937). On the responses of the African Migratory Locust to different types of background.—Proc. roy. Soc., (B) 122, pp. 281297.Google Scholar
Hollande, A. C. (1922). La cellule péricardiale des insectes (cytologie, histochimie, rôle physiologique).—Arch. Anat. micr., 18, pp. 85307.Google Scholar
Husain, M. A. & Ahmad, T. (1936). Studies on Schistocerca gregaria Forsk. II. The biology of the Desert Locust, with special relation to temperature.—Indian J. agric. Sci., 6, pp. 188262.Google Scholar
James, H. G. (1944). Colour changes in Mantis religiosa L.—Canad. Ent., 76, pp. 113116.CrossRefGoogle Scholar
Junge, H. (1941). Über grüne Insectenfarbstoffe.—Hoppe-Seyl. Z. physiol. Chem., 268, pp. 178186.CrossRefGoogle Scholar
MacBride, E. W. & Jackson, A. (1915). The inheritance of colour in the Stick-insect, Carausius morosus.—Proc. roy. Soc., (B) 89, pp. 109118.Google Scholar
Metcalf, R. L. (1945). A study of the metabolism of chlorophyll in the Squash Bug Anasa tristis DeGeer.—Ann. ent. Soc. Amer., 38, pp. 397402.CrossRefGoogle Scholar
Okay, S. (1945). Pigmentation of Orthoptera.—Nature, 155, p. 635.CrossRefGoogle Scholar
Okay, S. (1947). Contribution à l'étude du pigment vert chez les insectes.—Rev. Fac. Sci. Univ. Istanbul, (B) 12, pp. 89106.Google Scholar
Okay, S. (1948). Sur le pigment brun des Orthoptères.—Commun. Fac. Sci. Ankara, 1, pp. 178186.Google Scholar
Okay, S. (1951). Formation of green pigment in grasshoppers.—Nature, 168, p. 254.CrossRefGoogle ScholarPubMed
Poulton, E. B. (1892). Further experiments upon the colour relation between certain Lepidopterous larvae, pupae, cocoons, and imagines and their surroundings.—Trans. ent. Soc. Lond., 1892, pp. 293487.CrossRefGoogle Scholar
Poulton, E. B. (1894). The experimental proof that the colours of certain Lepidopterous larvae are largely due to modified plant pigments derived from food.—Proc. roy. Soc., 54, pp. 417430.Google Scholar
Pryor, M. G. M. (1940). On the hardening of the cuticle of insects.—Proc. roy. Soc., (B) 128, pp. 393407.Google Scholar
Przibram, H. (1907). Aufzucht, Farbwechsel und Regeneration unserer europäischen Gottesanbeterin (Mantis religiosa L.).—Arch. EntwMech. Org., 23, pp. 600614.Google Scholar
Roonwal, M. L. (1947). Studies in intraspecific variation. I.—Rec. Indian Mus., 44, pp. 369374.Google Scholar
Toumanoff, K. (1927). Sur le rapport entre la formation du pigment vert figuré et la nutrition chez Dixippus morosus Br. et Redt.C.R. Soc. Biol., 96, pp. 13921393.Google Scholar
Toumanoff, K. (1928). Le rapport entre la pigmentation et l'alimentation chez Dixippus morosus, Br. et Redt.—C.R. Soc. Biol., 98, pp. 198200.Google Scholar
Vosseler, J. (1902). Beiträge zur Faunistik und Biologie der Orthopteren Algeriens und Tunesiens. II. Theil.Zool. Jb. (Syst.), 17, pp. 199.Google Scholar
Wigglesworth, V. B. (1943). The fate of haemoglobin in Rhodinus prolixus (Hemiptera) and other blood-sucking arthropods.—Proc. roy. Soc., (B) 131, pp. 313339.Google Scholar