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Moulting Hormones In Leander (Crustacea Decapoda)

Published online by Cambridge University Press:  11 May 2009

D. B. Carlisle
Affiliation:
The Plymouth Laboratory

Extract

Removal of the eyestalks in Leander serratus does not result in an earlier moult, a shorter intermoult period, or a higher moult rate. There is no evidence of an eyestalk moult-inhibiting hormone in this species. The evidence points to the existence of an eyestalk moult-accelerating hormone. The possible correlation of the presence of the moult-inhibiting hormone and seasonal moulting is discussed.

Type
Research Article
Copyright
Copyright © Marine Biological Association of the United Kingdom 1953

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References

REFERENCES

Abramowitz, A. A. & Abramowitz, R. K., 1938. On the specificity and related properties of the crustacean chromatophorotropic hormone. Biol. Bull., Vol. 74, pp. 278–96.CrossRefGoogle Scholar
Abramowitz, R. K. & Abramowitz, A. A., 1940. Moulting, growth and survival after eyestalk removal in Uca pugilator. Biol. Bull., Vol. 78, pp. 179–88.CrossRefGoogle Scholar
Bliss, D. E., 1951. Metabolic effects of sinus gland or eyestalk removal in the land crab, Gecarcinus lateralis. Anat. Rec., Vol. 111, p. 502.Google Scholar
Bliss, D. E. & Welsh, J. H., 1952. The neurosecretory system of brachyuran Crustacea. Biol. Bull, Vol. 103, pp. 157–69.CrossRefGoogle Scholar
Brown, F. A. & Cunningham, O., 1939. Influence of the sinus gland of crustaceans on normal viability and ecdysis. Biol. Bull., Vol. 77, pp. 104&14.CrossRefGoogle Scholar
Carlisle, D. B., 1954 a. Studies on Lysmata seticaudata Risso (Crustacea Decapoda). III. On the activity of the moult-accelerating principle when administered by the oral route. Pubbl. Staz. zool. Napoli, (in the Press).Google Scholar
Charlisle, D. B., 1954 b. Studies on Lysmata seticaudata Risso (Crustacea Decapoda). IV. On the site of origin of the moult-accelerating principle—experimental evidence. Pubbl. Staz. zool. Napoli, (in the Press).Google Scholar
Carlisle, D. B., 1954 c. Studies on Lysmata seticaudata Risso (Crustacea Decapoda). V. The ovarian inhibiting hormone and the hormonal inhibition of sex reversal. Pubbl. Staz. zool. Napoli, (in the Press).Google Scholar
Carlisle, D. B. & Dohrn, P. F. R., 1953. Studies on Lysmata seticaudata Risso (Crustacea Decapoda). II. Experimental evidence for a growth- and moult-accelerating factor obtainable from eyestalks. Pubbl. Staz. zool. Napoli, Vol. 24, pp. 6983.Google Scholar
Carlisle, D. B. & Passano, L. M., 1953. The X-organ of Crustacea. Nature, Vol. 171, pp. 1070–1.CrossRefGoogle ScholarPubMed
Fisher, R. A. & Yates, F., 1943. Statistical Tables for Biological, Agricultural and Medical Research. (2nd ed.), 98 pp., London and Edinburgh.Google Scholar
Frost, R., Saloum, R. & Kleinholz, L. H., 1951. Effect of sinus gland and of eyestalk removal on rate of oxygen consumption in Astacus. Anat. Rec., Vol. 111, p. 572.Google Scholar
Hanström, B., 1939. Hormones in Invertebrates. 198 pp. Oxford.Google Scholar
Havel, V. J. & Kleinholz, L. H., 1951. Effect of seasonal variation, sinus gland removal and eyestalk removal on concentration of blood calcium in Astacus. Anat. Rec., Vol. 111, p. 571.Google Scholar
Kleinholz, L. H. & Bourquin, E., 1941. Effects of eyestalk removal on decapod crustaceans. Proc Nat. Acad. Sci. Washington, Vol. 27, pp. 145–9.Google Scholar
Kyer, D. L., 1942. The influence of sinus glands on gastrolith formation in the crayfish. Biol. Bull., Vol. 82, pp. 6878.CrossRefGoogle Scholar
Megušar, F., 1912. Experimente über den Farbwechsel der Crustaceen. Arch. EntwMech. Org., Vol. 33, pp. 462665.Google Scholar
Passano, L. M., 1951 a. The X-organ-sinus gland neurosecretory system in crabs. Anat. Rec, Vol. 111, p. 502.Google Scholar
Passano, L. M., 1951 b. The X-organ, a neurosecretory gland controlling molting in crabs. Anat. Rec, Vol. 111, p. 559.Google Scholar
Passano, L. M., 1952 a. Phase contrast observations on living neurosecretory cells of Sesarma. Anat. Rec, Vol. 112, pp. 460–1.Google Scholar
Passano, L. M., 1952 b. The X-organ sinus gland complex of brachyuran crustaceans, a neurosecretory, molt-controlling gland. Thesis, Yale University.Google Scholar
Scudamore, H. H., 1942. Hormonal regulation of molting and some related phenomena in the crayfish, Cambarus immunis. Anat. Rec, Vol. 84, p. 515.Google Scholar
Scudamore, H. H., 1947. The influence of the sinus glands upon molting and associated changes in the crayfish. Physiol. Zool., Vol. 20, pp. 187208.CrossRefGoogle ScholarPubMed
Smith, R. I., 1940. Studies on the effect of eyestalk removal upon the young crayfish. (Cambarus clarkii Giard). Biol. Bull., Vol. 79, pp. 145–52.CrossRefGoogle Scholar
Travis, D. F., 1951. The control of the sinus glands over certain aspects of calcium metabolism in Panulirus argus Latreille. Anat. Rec, Vol. 111, p. 503.Google Scholar
Welsh, J. H., 1951. New evidence concerning the source and action of the eyestalk hormone. Anat. Rec., Vol. 111, p. 442.Google Scholar