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Pile Worm

Alitta succinea (Leuckart 1847)

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Breeding Season

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Costello, D.P. and C. Henley (1971). Methods for obtaining and handling marine eggs and embryos. Marine Biological Laboratory, Woods Hole, MA (Second Edition)
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Care of Adults

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Costello, D.P. and C. Henley (1971). Methods for obtaining and handling marine eggs and embryos. Marine Biological Laboratory, Woods Hole, MA (Second Edition)
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Egg Characteristics and Breeding Season for Woods Hole Species

Fertilization and Cleavage

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Costello, D.P. and C. Henley (1971). Methods for obtaining and handling marine eggs and embryos. Marine Biological Laboratory, Woods Hole, MA (Second Edition)
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C. Henley
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Egg Characteristics and Breeding Season for Woods Hole Species

Later Stages of Development and Metamorphosis

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Donald P. Costello and Catherine Henley
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Costello, D.P. and C. Henley (1971). Methods for obtaining and handling marine eggs and embryos. Marine Biological Laboratory, Woods Hole, MA (Second Edition)
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Costello, D.P.
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C. Henley
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Egg Characteristics and Breeding Season for Woods Hole Species

Living Material

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Donald P. Costello and Catherine Henley
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Costello, D.P. and C. Henley (1971). Methods for obtaining and handling marine eggs and embryos. Marine Biological Laboratory, Woods Hole, MA (Second Edition)
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Costello, D.P.
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C. Henley
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Egg Characteristics and Breeding Season for Woods Hole Species

Living Material

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Donald P. Costello and Catherine Henley
bibliographic citation
Costello, D.P. and C. Henley (1971). Methods for obtaining and handling marine eggs and embryos. Marine Biological Laboratory, Woods Hole, MA (Second Edition)
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Costello, D.P.
author
C. Henley
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Egg Characteristics and Breeding Season for Woods Hole Species

Methods of Observation

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Donald P. Costello and Catherine Henley
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Costello, D.P. and C. Henley (1971). Methods for obtaining and handling marine eggs and embryos. Marine Biological Laboratory, Woods Hole, MA (Second Edition)
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Costello, D.P.
author
C. Henley
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Egg Characteristics and Breeding Season for Woods Hole Species

Preparation of Cultures

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Donald P. Costello and Catherine Henley
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Costello, D.P. and C. Henley (1971). Methods for obtaining and handling marine eggs and embryos. Marine Biological Laboratory, Woods Hole, MA (Second Edition)
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Costello, D.P.
author
C. Henley
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Egg Characteristics and Breeding Season for Woods Hole Species

Procuring Gametes

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Donald P. Costello and Catherine Henley
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Costello, D.P. and C. Henley (1971). Methods for obtaining and handling marine eggs and embryos. Marine Biological Laboratory, Woods Hole, MA (Second Edition)
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Costello, D.P.
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C. Henley
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Egg Characteristics and Breeding Season for Woods Hole Species

Special comments

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References

  • Clark, L. B., and W. N. Hess, 1940a. Swarming of the Atlantic Palolo worm, Leodice fucata (Ehlers). Pap. Tortugas Lab., 33: 21-70. (Carnegie Inst., Wash., Publ. no. 524.).
  • Clark, L. B., and W. N. Hess, 1940b. The reactions of the Atlantic Palolo, Leodice fucafa, to light. Pap. Tortugas Lab., 33: 71-81. (Carnegie Inst., Wash., Publ. no. 524.).
  • Costello, D. P., 1939. The volumes occupied by the formed cytoplasmic components in marine eggs. Physiol. Zool., 12: 13-20.
  • Costello, D. P., 1940a. The cell origin of the prototroch of Nereis limbata. Biol. Bull., 79: 369-370.
  • Costello, D. P., 1940b. The fertilizability of . nucleated and non-nucleated fragments of centrifuged Nereis eggs. J. Morph., 66: 99-114.
  • Costello, D. P., 1945a. Experimental studies of germinal localization in Nereis. I. The development of isolated blastomeres. J. Exp. Zool., 100: 19-66.
  • Costello, D. P., 1945b. Segregation of ooplasmic constituents. J. Elisha Mitchell Sci Soc., 61: 277-289.
  • Costello, D. P., 1948. Ooplasmic segregation in relation to differentiation. Ann. N. Y. Acad. Sci., 49: 663-683.
  • Costello, D. P., 1949. The relations of the plasma membrane, vitelline membrane, and jelly in the egg of Nereis limbata. J. Gen. Physiol., 32: 351-366.
  • Costello, D. P., and R. A. Young, 1939. Mechanism of membrane elevation in egg of Nereis limbata. Coll. Net, 14: 209, 214-215.
  • Fox, H. M., 1924. Lunar periodicity in reproduction. Proc. Roy. Soc., London, ser. B, 95: 523-550.
  • Hempelmann, F., 1911. Zur Naturgeschichte von Nereis dumerilii Aud. et Edw. Zoologica, 25: Hft. 62, 1-135.
  • Hoadley, L., 1934. Pulsations in the Nereis egg. Biol. Bull., 67: 484-493.
  • Iwanoff, P. P., 1928. Die Entwicklung der Larvalsegmente bei den Anneliden. Zeitschr. Morph. u. Okol., 10: 62-161.
  • Izuka, A., 1903. Observations on the Japanese Palolo, Ceratocephale osawai, n. sp. J. Coll. sci. Imp. Univ., Tokyo, 17: no. 11, 1-37.
  • Just, E. E., 1912. The relation of the first cleavage plane to the entrance point of the sperm. Biol. Bull., 22: 239-252.
  • Just, E. E., 1915. The morphology of normal fertilization in Platynereis megalops. J. Morph. 26: 217-233.
  • Just, E. E., 1930a. Hydration and dehydration in the living cell. Iii. The fertilization capacity of Nereis eggs after exposure to hypotonic sea-water. Protoplasma, 10: 24-32.
  • Just, E. E., 1930b. Hydration and dehydration in the living cell. Iv. Fertilization and development of Nereis eggs in dilute sea-water. Protoplasma, 10: 33-40.
  • Just, E. E., 1939a. The Biology of the Cell Surface. P. Blakiston's Son & Co., Inc., Philadelphia.
  • Just, E. E., 1939b. Basic Methods for Experiments on Eggs of Marine Animals. P. Blakiston's Son & Co., Inc., Philadelphia.
  • Lillie, F. R., 1911. Studies of fertilization in Nereis. I. The cortical changes in the egg: Ii. Partial fertilization. J. Morph., 22: 361-393.
  • Lillie, F. R., 1912. Studies of fertilization in Nereis. Iii. The morphology of the normal fertilization of Nereis. Iv. The fertilizing power of portions of the spermatozoon. J. Exp. Zool., 12: 413 477.
  • Lillie, F. R., and E. E. Just, 1913. Breeding habits of the heteronereis form of Nereis limbata at Woods Hole, Mass. Biol. Bull., 24: 147-168.
  • Lovelace, R., 1949. The effects of precocious sperm entry on the egg of Nereis limbata. J. Exp. Zool., 112: 79-108.
  • Mayer, A. G., 1908. The annual breeding-swarm of the Atlantic Palolo. Pap. Tortugas Lab., 1: 107-112. (Carnegie Inst., Wash., Publ. no. 102.).
  • Morgan, T. H., and A. Tyler, 1930. The point of entrance of the spermatozoon in relation to the orientation of the embryo in eggs with spiral cleavage. Biol. Bull., 58: 59-73.
  • Novikoff, A. B., 1939. Changes at the surface of Nereis limbata eggs after insemination. J. Exp. Biol., 16: 403-408.
  • Whitaker, D. M., 1931. On the rate of oxygen consumption by fertilized and unfertilized eggs. Iii. Nereis limbata. J. Gen. Physiol., 15: 191-200.
  • Wilson, E. B., 1892. The cell-lineage of Nereis. A contribution to the cytogeny of the Annelid body. J. Morph., 6: 361-480.
  • Wilson, E. B., 1898. Considerations on cell lineage and ancestral reminiscence. Ann. N. Y. Acad. Sci., 11: 1-27.
  • Von Wistinchausen, C., 1891. Untersuchungen über die Entwicklung von Nereis dumerilfi. Ein Beitrag zur Entwicklungsgeschichte der Polychaeten. Mitt. Zool. Stat., Neapel, 10: 41-74.
  • Woltereck, R., 1904a. Wurm"kopf"", Wurmrumpf, und Trochophora. Bemerkumgen Entwicklung und Ableitung der Anneliden. Zool. Ans., 28: 273-322.
  • Woltereck, R., 1904b. Beiträge zur praktischen Analyse der Polygordius-Entwicklumg nach dem "Nordsee-" und dem "Mittelmeertypus". I. Der fur beide Typen gleichverlauiende Entwicklungsabschnitt: Vom Ei bis zum jüngsten Trochophora-Stadium. Arch. f. Endw., 18: 377-403.
  • Woltereck, R., 1905. Zur Kopffrage der Anneliden. Verh. d. Deutsch Zool. Ges., 15: 154-186.
  • Woodworth, W. Mcm., 1907. The Palolo worm, Eunice viridis (Gray). Bun. Mus. Comp. Zool., Harvard, 51: 1-21.

license
cc-by-nc-sa-3.0
copyright
Donald P. Costello and Catherine Henley
bibliographic citation
Costello, D.P. and C. Henley (1971). Methods for obtaining and handling marine eggs and embryos. Marine Biological Laboratory, Woods Hole, MA (Second Edition)
author
Costello, D.P.
author
C. Henley
original
visit source
partner site
Egg Characteristics and Breeding Season for Woods Hole Species

The Unfertilized Ovum

provided by Egg Characteristics and Breeding Season for Woods Hole Species
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copyright
Donald P. Costello and Catherine Henley
bibliographic citation
Costello, D.P. and C. Henley (1971). Methods for obtaining and handling marine eggs and embryos. Marine Biological Laboratory, Woods Hole, MA (Second Edition)
author
Costello, D.P.
author
C. Henley
original
visit source
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Egg Characteristics and Breeding Season for Woods Hole Species

Alitta succinea

provided by wikipedia EN

Alitta succinea (known as the pile worm or clam worm) is a species of marine annelid in the family Nereididae (commonly known as ragworms or sandworms).[2] It has been recorded throughout the North West Atlantic, as well as in the Gulf of Maine and South Africa.[1]

Description

Alitta succinea in motion

The clam worm can reach up to 15 centimetres (6 in) in length, but most specimens are smaller than this. It is brown colored at the rear, and reddish-brown on the rest of its body. It has an identifiable head with four eyes, two sensory feelers or palps, and many tentacles. The head consists of two segments: the anterior and posterior prostomium. The last body segment is known as the pygidium.

Life cycle

It is a freeswimming polychaete, scavenging on the bottom of shallow marine waters. It feeds on other worms and algae. To feed, it uses a proboscis, which has two hooks at the end, to grasp prey and draw it into its mouth. Clam worms are an important food source for bottom-feeding fish and crustaceans, though they can protect themselves by secreting a mucus substance that hardens to form a sheath around them.[3]

During lunar phases in the spring and early summer, the clam worm undergoes epigamy. Their parapodia enlarge so they can swim. The clam worms are then capable of releasing eggs and sperm. Soon after they have released their eggs or sperm, they die.[3]

Planktonic larvae develop, grow into adults and eventually sink to the bottom of the water.[2]

Synonyms

Synonyms of Alitta succinea include:[1]

  • Neanthes perrieri Saint-Joseph, 1898 (subjective synonym)
  • Neanthes succinea (Frey & Leuckart, 1847)
  • Nereis australis Treadwell, 1923 (subjective synonym)
  • Nereis saltoni Hartman, 1936 (subjective synonym)
  • Nereis succinea (Frey & Leuckart, 1847)
  • Nereis acutifolia Ehlers, 1901 (subjective synonym)
  • Nereis belawanensis Pflugfelder, 1933 (subjective synonym)
  • Nereis glandulosa Ehlers, 1908 (subjective synonym)
  • Nereis limbata Ehlers, 1868 (subjective synonym)
  • Nereis reibischi Heinen, 1911 (subjective synonym)
  • Nereis succinea Frey & Leuckart, 1847

Dispersal

A. succinea is dispersed outside of its native range in the course of oyster farming and fishing,[4] on the oysters themselves, in ballast water, as hull fouling, on normal ocean currents, and possibly in sport fishing bait.[5]

References

  1. ^ a b c Geoffrey Read, Kristian Fauchald & Chris Glasby (2012). Read G, Fauchald K (eds.). "Alitta succinea". World Polychaeta database. World Register of Marine Species. Retrieved June 10, 2012.
  2. ^ a b P. Gillet; V. Surugiu; R. Vasile; I. Metais; M. Mouloud; P. Simo (2011). "Preliminary data on population dynamics and genetics of Alitta succinea (Polychaeta: Nereididae) from the Romanian coast of the Black Sea". Proceedings of the 10th International Polychaete Conference (20–26 June 2010, Lecce, Italy). Italian Journal of Zoology. Vol. 78, no. Supplement 1. pp. 229–241. doi:10.1080/11250003.2011.593347.
  3. ^ a b J. Masterson (October 1, 2008). "Neanthes succinea clam worm". Smithsonian Marine Station at Fort Pierce. Retrieved June 6, 2012.
  4. ^ "Alitta succinea (pile worm)". Invasive Species Compendium (ISC). CABI (Centre for Agriculture and Bioscience International). 2019-11-20. Retrieved 2021-05-08.
  5. ^ "Alitta succinea (pile worm)". Invasive Species Compendium (ISC). CABI (Centre for Agriculture and Bioscience International). 2019-11-20. Retrieved 2021-05-08.
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wikipedia EN

Alitta succinea: Brief Summary

provided by wikipedia EN

Alitta succinea (known as the pile worm or clam worm) is a species of marine annelid in the family Nereididae (commonly known as ragworms or sandworms). It has been recorded throughout the North West Atlantic, as well as in the Gulf of Maine and South Africa.

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