Summary
Population dynamics of the epizoic bivalve Lissarca notorcadensis living on spines of cidaroid sea urchins in the Weddell Sea were investigated. Total production (somatic & gonad) of the suspension feeding bivalve ranged between 16.5 and 487.4 mg AFDM y−1 per sea urchin. Annual sedimentation rates are not sufficient to maintain the production of the Lissarca sub-populations carried by the sea urchins, and resuspension of organic matter is most likely to be an important food source. The ratio of the number of freshly settled juveniles to the number of embryos brooded is between 0.054 and 0.207 and seems negatively related to the biomass already present, indicating intraspecific competition for space. Interspecific competition for space is caused by the strong preference of L. notorcadensis as well as other epizoa (colonial anthozoans and bryozoans) for the spines located on the aboral hemispere of the sea urchins.
Article PDF
Similar content being viewed by others
Avoid common mistakes on your manuscript.
References
Arntz WE, Brey T, Gerdes D, Gorny M, Gutt J, Hain S, Klages M (in press) Patterns of life history and population dynamics of benthic invertebrates under high Antarctic conditions of the Weddell Sea. Proceedings of the 25th European Marine Biology Symposium (E.M.B.S.) held at Ferrara, Italy, September 10–15, 1990
Bathmaun U, Fischer G, Müller PJ, Gerdes D (1991) Short-term variations in particulate matter sedimentation off Kapp Norvegia, Weddell Sea, Antarctica: Relation to water mass advection, ice cover, plankton biomass and feeding activity. Polar Biol 11:185–195
Bodungen Bv, Smetacek V, Tilzer MM, Zeitschel B (1986) Primary production and sedimentation during spring in the Antarctic peninsula region. Deep-Sea Res 33:177–194
Bodungen Bv, Nöthig E-M, Sui Q (1988) New production of phytoplankton and sedimentation during summer 1985 in the south-eastern Weddell Sea. Comp Biochem Physiol 90B:475–487
Brey T, Hain S (1992) Growth, reproduction and production of Lissarca notorcadensis (Bivalvia: Philobryidae) on the Weddell Sea shelf, Antarctica, Mar Ecol Prog Ser 82:219–226
Browne RA, Russell-Hunter WD (1978) Reproductive effort in molluscs. Oecologia 37:23–27
Christiansen FB, Fenchel TM (1979) Evolution of marine invertebrate reproductive patterns. Theor Pop Biol 16:267–282
Clarke A (1988) Seasonality in the Antarctic marine environment. Comp Biochem Physiol 90B:461–473
Crisp DJ (1984) Energy flow measurements. In: Holme, N.A. McIntyre, AD (eds.) Methods for the study of marine benthos. Blackwell, London 284–372
Dell, RK (1990) Antarctic Mollusca. With special reference to the fauna of the Ross Sea. Royal Society of New Zealand Bulletin 27:1–311
Hughes RN (1970) An energy budget for a tidal-flat population of the bivalve Scrobicularia plana (Da Costa). J Anim Ecol 39:357–381
Hummel H (1985) An energy budget for a Macoma balthica (Mollusca) population living on a tidal flat in the Dutch Wadden Sea. Neth J Sea Res 19:84–92
Janssen HJ (1990) Öko-histologische Untersuchungen an Lissarca notorcadensis (Philobryidae: Bivalvia). Verh Dtsch Zool Ges 83:602
Jumars PA, Gallagher ED (1982) Deep-Sea community structure: three plays on the benthic proscenium. In: Ernst WG, Morin JG (eds) The environment of the Deep Sea. Prentice Hall, Englewood Cliffs, USA
Manahan DT (1990) Adaptations by invertebrate larvae for nutrient aquisition from seawater. Am Zool 30:147–160
Manahan DT, Wright SH, Stephens GC (1983) Simultaneous determination of net uptake of 16 amino acids by a marine bivalve. Am J Physiol 244:R832-R838
Martel A, Chia F-S (1991) Drifting and dispersal of small bivalves and gastropods with direct development. J Exp Mar Biol Ecol 150:131–147
Mortensen T (1909) Die Echinoiden der deutschen Südpolar-Expedition 1901–1903. In: Drygalki Ev (ed) Deutsche Südpolar Expedition 1901–1903. Bd XI, Zool III, Heft 1. Reimer, Berlin
Mortensen T (1920) The Echinoidea of the Swedish South Polar Expedition. In: Nordensköld O (ed) Wiss Ergebnisse der Schwedischen Südpolar-Expedition 1901–1903. Bd VI, Zool II, Lief 4. Asher & Co, Berlin; Haar & Steiner, Eichler, Paris; Dulau & Co, London
Mortensen T (1943) A monograph of the Echinoidea, vol III. Reitzel, Copenhagen
Prezant RS (1989) Distribution of the bivalve Lissarca notorcadensis on echinoid spines (Abstract). Am Zool 29:9A
Rodhouse PG, Ottway B, Burnell GM (1981) Bivalve production and food chain efficiency in an experimental nursery system. J Mar Biol. Ass UK 61:243–256
Streit B (1976) Energy flow in four different populations of Ancylus fluviatilis (Gastropoda-Basommatophora). Oecologia 22:261–273
Tyler PA, Young CM, Billett DSM, Giles LA (1992) Pairing behaviour, reproduction and diet in the deep sea holothurian genus Paroriza (Holothuroidea: Synallactidae). J Mar Biol Ass UK 72:447–462
Young CM, Tyler PA, Cameron JL, Rumrill SS (1992) Seasonal breeding aggregations in low-density populations of the bathyal (cidaroid) echinoid Stylocidaris lineata. Mar Biol 113:603–612
Author information
Authors and Affiliations
Additional information
AWI Publication No. 572
Rights and permissions
About this article
Cite this article
Brey, T., Starmans, A., Magiera, U. et al. Lissarca notorcadensis (Bivalvia: Philobryidae) living on Notocidaris sp. (Echinoidea: Cidaridae): Population dynamics in limited space. Polar Biol 13, 89–95 (1993). https://doi.org/10.1007/BF00238540
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00238540