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The development of Moniezia expansa in the intermediate host

Published online by Cambridge University Press:  06 April 2009

Horace W. Stunkard
Affiliation:
Department of Biology, New York University

Extract

When eggs of Monieza expansa are fed to galumnid mites, the onchospheres emerge in the intestine and migrate to the body cavity. Here they undergo metamorphosis and develop into cysticercoids. The dissection of mites, at various intervals after exposure, has yielded a successive series of developmental stages. Protocols of the experiments and photographs of living larvae are presented. These results demonstrate that mites serve as intermediate hosts of Moniezia, and probably also of other anoplocephaline cestodes.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1938

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References

REFERENCES

Ewing, H. E. (1935). Acarina. In A Manual of the Common Invertebrate Animals, by Pratt, H. S.. Philadelphia: P. Blakiston's Son and Co.Google Scholar
Hall, M. C. (1934). The discharge of eggs from the segments of Thysanosoma actinioides. Proc. Helminth. Soc., Wash., 1, 67.Google Scholar
Honess, Ralph F. (1935). Studies on the tapeworms of the Black Hills cottontail rabbit, Sylvilagus nuttalli grangeri (Allen) with special reference to the life history of Cittotaenia variabilis Stiles. Univ. Wyo. Publ. Sci. 2, 110.Google Scholar
Jacot, Arthur Paul (1932). Moss mites. Bull. Boston Soc. nat. Hist. no. 63, 1722, 4 figs.Google Scholar
Jacot, Arthur Paul (1935). The species of Zetes (Oribatoidea-Acarina) of the north-eastern United States. J.N.Y. ent. Soc. 43, 5195, pls. VII–X.Google Scholar
Jones, Myrna F. & Horsfall, Margery W. (1935). Ants as intermediate hosts for two species of Raillietina parasitic in chickens. J. Parasit. 21, 442–3.Google Scholar
Joyeux, Ch. (1920). Cycle évolutif de quelques cestodes. Suppl. 2, Bull. Biol. 219 pp., pl. I–VII.Google Scholar
Joyeux, Ch. (1924). Recherches sur le cycle évolutif des Cylindrotaenia. Ann. Parasit. 2, 7481.CrossRefGoogle Scholar
Miller, H. M. Jr. (1932). Superinfection of cats with Taenia taeniaformis. J. prev. Med., Lond., 6, 1729.Google Scholar
Seddon, H. R. (1931). The development in sheep of immunity to Moniezia expansa. Ann. trop. Med. Parasit. 25, 431–5.CrossRefGoogle Scholar
Stoll, Norman R. (1935 a). Tapeworm studies. I. Restricted pasture sources of Moniezia infection in sheep. Amer. J. Hyg. 21, 628–46.Google Scholar
Stoll, Norman R. (1935 b). Tapeworm studies. II. Persistence of the pasture stage of Moniezia expansa. Amer. J. Hyg. 22, 683703.Google Scholar
Stoll, Norman R. (1936). Tapeworm studies. III. Sheep parasitized with one Moniezia expansa each. J. Parasit. 22, 161–79.Google Scholar
Stoll, Norman R. (1937 a). Tapeworm studies. IV. Moniezia expansa of sheep strain contracted by calf. Proc. Helminth. Soc., Wash., 4, 32.Google Scholar
Stoll, Norman R. (1937 b). Tapeworm studies. V. Absence of M. expansa from the sheep intestine early after inféction. Amer. J. Hyg. 26, 148–61.Google Scholar
Stunkard, Horace W. (1932). The resistance of European hares and rabbits to super-infection by different species of the genus Cittotaenia. J. Parasit. 19, 156.Google Scholar
Stunkard, Horace W. (1934). Studies on the life history of anoplocephaline cestodes. Z. Parasitenk. 6, 481507.Google Scholar
Stunkard, Horace W. (1937 a). The life cycle of Moniezia expansa. Science, 86, 312.Google Scholar
Stunkard, Horace W. (1937 b). The life cycle of anoplocephaline cestodes. J. Parasit. 23, 569.Google Scholar
Venard, Carl E. (1938). Morphology, bionomics, and taxonomy of the cestode Dipylidium caninum. Ann. N.Y. Acad. Sci. 37, 273328, 57 figs.CrossRefGoogle Scholar
Vogel, H. (1929). Studien zur Entwicklung von Diphyllobothrium. I. Tell: Die Wimperlarve von Diphyllobothrium latum. Z. Parasitenk. 2, 213–22, 6 figs.Google Scholar
Vogel, H. (1930). Studien über die Entwicklung von Diphyllobothrium. II. Teil: Die Entwicklung des Procercoids von Diphyllobothrium latum. Z. Parasitenk. 2, 629–44, 8 figs.CrossRefGoogle Scholar