Skip to main content
SpringerLink
Log in

Deep distributions of oceanic cirripede larvae in the Sargasso Sea and surrounding North Atlantic Ocean

  • Published:
Marine Biology Aims and scope Submit manuscript

Abstract

From deep (≤ 1000 m), multi-depth zooplankton samples taken in the Azores frontal region from November 1980 to June 1981, high numbers of the two larval forms ofLepas pectinata, the commonest lepadid cirripede in this area, were sampled. The nauplii and cyprid larvae are large and long-lived. Nauplii were sampled where they feed, in the upper 150 m, closely associated with the fluorescence maximum. The cyprids were mainly sampled between 300 and 400 m, with a sharp cut-off in numbers just below the distribution peak. This deep distribution is intriguing, as the cyprids, which were not migrating diurnally, are non-feeding. To complete their life cycle they must settle on floating debris at the surface, where very few were sampled. They are negatively buoyant and there is no apparent physical reason for this deep distribution. There was no obvious pattern of changes in individual length or length/dry weight distribution with depth, the population appeared homogeneous. There was also no accumulation of other zooplankton at the same depth, or evidence from gut contents of large carnivores that the distribution pattern was caused by selective predation. A close association exists betweenL. pectinata andSargassum spp. weed, the cyprids preferentially settling on small fragments of weathered weed, the supply of which may be enhanced after winter. During winter, the harsh environment at the surface of the northern Sargasso Sea may discourage cyprid settlement. The deep distribution may be an ontogenetic migration conferring some survival advantage and saving energy due to the lower temperature and oxygen levels at depth. If it is a behavioural mechanism, duration of the cyprid stage will be extended until a more clement time of year, allowing them to settle over a longer period. The cyprids of other species were also sampled at depth, so the phenomenon appears to be widespread. If subsequent research confirms these observations as an ontogenetic migration, our current understanding of the fouling behaviour of oceanic lepadid cirripedes would be considerably modified.

This is a preview of subscription content, log in via an institution to check access.

Access this article

Log in via an institution

Price excludes VAT (USA)
Tax calculation will be finalised during checkout.

Instant access to the full article PDF.

Institutional subscriptions

Similar content being viewed by others

Literature cited

  • Angel, M. V. (1989). Vertical profiles of pelagic communities in the vicinity of the Azores Front and their implications to deep sea ecology. Prog. Oceanogr. 22: 1–46

    Google Scholar 

  • Barnes, H. (1953). Size variations in the cyprids of some common barnacles. J. mar. biol. Ass. U.K. 32: 297–304

    Google Scholar 

  • Bassindale, R. (1964). British barnacles. Synopses of the British fauna. No. 14. Linnaean Society, London

    Google Scholar 

  • Butler, J. N., Morris B. F., Cadwallader, J. Stoner A. W. (1983). Studies ofSargassum and theSargassum community. Spec. Publs Bermuda biol. Stn Res. 22: 1–307

    Google Scholar 

  • Carpenter, E. J., Cox, J. L. (1974). Production of pelagicSargassum and a blue-green epiphyte in the western Sargasso Sea. Limnol. Oceanogr. 19: 429–436

    Google Scholar 

  • Dalley, R. (1984). The larval stages of the oceanic pedunculate barnacleConchoderma auritum (L.) (Cirripedia, Thoracica). Crustaceana 46: 39–54

    Google Scholar 

  • David, P. M. (1965). The neuston net. A device for sampling the surface fauna of the ocean. J. mar. biol. Ass. U.K. 45: 313–320

    Google Scholar 

  • Fasham, M. J. R., Platt, T., Irwin, B., Jones, K. (1985). Factors affecting the spatial pattern of the deep chlorophyll maximum in the region of the Azores Front. Prog. Oceanogr. 14: 129–165

    Google Scholar 

  • Fine, M. L. (1970). Faunal variation on pelagicSargassum. Mar. Biol. 7: 112–122

    Google Scholar 

  • Gould, W. J. (1985). Physical oceanography of the Azores Front. Prog. Oceanogr. 14: 167–190

    Google Scholar 

  • Holland, D. L., Walker, G. (1975). The biochemical composition of the cypris larvae of the barnacleBalanus balanoides (L.). J. Cons. int. Explor. Mer 36: 162–165

    Google Scholar 

  • Joyce, T. M. (1981). The influence of the mid-Atlantic ridge upon the circulation and the properties of the Mediterranean water south-west of the Azores. J. mar. Res. 39: 31–52

    Google Scholar 

  • Lang, W. H. (1979). Larval development of shallow water barnacles of the Carolinas (Cirripedia: Thoracica) with keys to naupliar stages. Circ. natn. mar. Fish. Serv. (U.S. Dep. Comm.) 421: 1–39

    Google Scholar 

  • Lucas, M. I., Walker, G., Holland, D. L., Crisp, D. J. (1979). An energy budget for the free-swimming and metamorphosing larvae ofBalanus balanoides (Crustacea: Cirripedia). Mar. Biol 55: 221–229

    Google Scholar 

  • Morris, B. F., Mogelberg, D. D. (1973). Identification manual to the pelagicSargassum fauna. Spec. Publs Bermuda biol. Stn Res. 11: 1–63

    Google Scholar 

  • Moyse, J. (1963). A comparison of the value of various flagellates and diatoms as food for barnacle larvae. J. Cons. perm. int. Explor. Mer 28: 175–187

    Google Scholar 

  • Moyse, J. (1987). Larvae of lepadomorph barnacles. In: Southward, A. J. (ed.) Crustacean issues. Vol 5. Barnacle biology. p. 329–362. Balkema, Rotterdam

    Google Scholar 

  • Niermann, U. (1986). Distribution ofSargassum natans and some of its epibionts in the Sargasso Sea. Helgoländer wiss. Meeresunters. 40: 343–353

    Google Scholar 

  • Parr, A. E. (1939). Quantitative observations on the pelagicSargassum vegetation of the western North Atlantic. Bull. Bingham oceanogr. Coll. 6: 1–94

    Google Scholar 

  • Pearre, S. (1979). Problems of detection and interpretation of vertical migration. J. Plankton Res. 1: 29–44

    Google Scholar 

  • Pilsbry, H. A. (1907). The barnacles (Cirripedia) contained in the collections of the U.S. National Museum. Bull. U.S. natn. Mus. 60: 1–122

    Google Scholar 

  • Pyefinch, K. A. (1948). Notes on the biology of cirripedes. J. mar. biol. Ass. U.K. 27: 464–503

    Google Scholar 

  • Rice, A. L., Billett, D. S. M., Fry, J., John, A. W. G., Lampitt, R. S., Mantoura, R. F. C., Morris, R. J. (1986). Seasonal deposition of phytodetritus to the deep-sea floor. Proc. R. Soc. Edinb. (Sect. B) 88: 265–279

    Google Scholar 

  • Robinson, M. K., Bauer, R. A., Schroeder, E. H. (1979). Atlas of North Atlantic-Indian Ocean monthly mean temperatures and mean salinities of the surface layer. Washington, D.C. (Naval Oceanographic Office Reference Publication No. 18) Department of the Navy

    Google Scholar 

  • Roe, H. S. J. (1988). Midwater biomass profiles over the Madeira Abyssal Plain and the contribution of copepods. Hydrobiologia 167/168: 169–181

    Google Scholar 

  • Roe, H. S. J., Baker, A., de, C., Carson, R. M., Wild, R., Shale, D. M. (1980). Behaviour of the Institute of Oceanographic Science's rectangular midwater trawls: theoretical aspects and experimental observations. Mar. Biol. 56: 247–259

    Google Scholar 

  • Roe, H. S. J., Shale, D. M. (1979). A new multiple rectangular midwater trawl (RMT 1 + 8 M) and some modifications to the Institute of Oceanographic Sciences RMT 1 + 8. Mar. Biol. 50: 283–288

    Google Scholar 

  • Roskell, J. (1975). Continuous plankton records. A plankton atlas of the North Atlantic and the North Sea. Supplement 2 — The oceanic cirripede larvae, 1955–1972. Bull. mar. Ecol. 8: 185–199

    Google Scholar 

  • Sieburth, J. McN., Conover, J. T. (1965).Sargassum tannin, an antibiotic which retards fouling. Nature, Lond. 208: 52–53

    Google Scholar 

  • Southward, A. J., Crisp, D. J. (1963). Catalogue of main marine fouling organisms. Vol. 1. Barnacles. Organisation for Economic Co-operation and Development, Paris

    Google Scholar 

  • Terazaki, M., Wada, M. (1988). Occurrence of large numbers of carcasses of the large, grazing copepodCalanus cristatus from the Japan Sea. Mar. Biol. 97: 177–183

    Google Scholar 

  • Timonin, A. G. (1976). Study of the vertical microdistribution of oceanic zooplankton. Oceanology, Wash. 16: 79–82

    Google Scholar 

  • Weikert, H. (1972). Verteilung und Tagesperiodik des Evertebratenneuston im subtropischen Nordostatlantik während der ‘Atlantischen Kuppenfahrten 1967’ von F. S. ‘Meteor’. ForschErgebn. (Reihe D) 11: 29–87

    Google Scholar 

  • Weikert, H. (1977). Copepod carcasses in the upwelling region south of Cap Blanc, N. W. Africa. Mar. Biol. 42: 351–355

    Google Scholar 

  • Wheeler, E. H. (1967). Copepod detritus in the deep sea. Limnol. Oceanogr. 12: 697–701

    Google Scholar 

  • Williams, R., Collins, N. R., Conway, D. V. P. (1983). The double LHPR system, a high speed micro- and macro-plankton sampler. Deep-Sea Res. 30: 331–342

    Google Scholar 

  • Winge, Ö. (1923). The Sargasso Sea, its boundaries and vegetation. Rep. Dan. oceanogr. Exped. Mediterr. 3: 1–34

    Google Scholar 

  • Wolfe, P. de (1973). Ecological observations on the mechanisms of dispersal of barnacle larvae during planktonic life and settling. Neth. J. Sea Res. 6: 1–129

    Google Scholar 

  • Zaitsev, Y. P. (1971). Marine neustonology. Israel Program for Scientific Translation, Jerusalem

    Google Scholar 

  • Zullo, V. A. (1979). Marine flora and fauna of the northeastern United States. (Arthropoda: Cirripedia). Circ. natn. mar. Fish. Serv. (U.S. Dep. Comm.) 425: 1–28

    Google Scholar 

Download references

Author information

Author notes

  1. I. G. Humpheryes

    Present address: Southern Water, Kent Division, Luton House, ME5 7OA, Chatham, Kent, England

Authors and Affiliations

  1. Plymouth Marine Laboratory, Natural Environment Research Council, Prospect Place, PL1 3DH, The Hoe, Plymouth, Devon, England

    D. V. P. Conway

  2. Deacon Laboratory, Natural Environment Research Council, Brook Road, GU8 5UB, Wormley, Godalming, Surrey, England

    C. J. Ellis

  3. Department of Biological Sciences, Polytechnic South West, Drake Circus, PL4 8AA, Plymouth, Devon, England

    I. G. Humpheryes

Authors
  1. D. V. P. Conway
    View author publications

    You can also search for this author in PubMed Google Scholar

  2. C. J. Ellis
    View author publications

    You can also search for this author in PubMed Google Scholar

  3. I. G. Humpheryes
    View author publications

    You can also search for this author in PubMed Google Scholar

Additional information

Communicated by J. Mauchline, Oban

Rights and permissions

Reprints and permissions

About this article

Cite this article

Conway, D.V.P., Ellis, C.J. & Humpheryes, I.G. Deep distributions of oceanic cirripede larvae in the Sargasso Sea and surrounding North Atlantic Ocean. Mar. Biol. 105, 419–428 (1990). https://doi.org/10.1007/BF01316313

Download citation

  • Accepted:

  • Issue Date:

  • DOI: https://doi.org/10.1007/BF01316313

Keywords

Search

Navigation