Growth, production and biomass of the antarctic gastropod Laevilacunaria Antarctica Martens 1885

Twenty-one monthly collections of the Antarctic prosobranch gastropod Laevilacunaria antarctica Martens 1885 were obtained by divers at Signy Island, South Orkney Islands. Animals were contagiously distributed in the depth range 2–12 m below mean low water, with a mean monthly density of 199.0 ± 207.3 (S.D.) m−2. Size frequency distribution was analysed, and at least three year classes identified. There was a prolonged annual recruitment from mid winter to mid summer, and juveniles dominated the population numerically for ten months of the year. Growth was seasonal, with a high rate during the Austral spring and summer, and a reduced rate during winter. A mean biomass of 356.3 mg dry tissue wt · m−2 and a total annual production of 812.2 mg · m−2 were estimated for the second year of study, and a production to biomass ratio of 2.28 obtained

Reproductive adaptations of Antarctic benthic invertebrates

The majority of Antarctic benthic invertebrates so far studied do not produce pelagic larvae, but develop non-pelagically by means of egg capsules, brooding or viviparity. The predominance of protected development in the Antarctic benthos is primarily due to the short period of summer phytoplankton abundance and the low sea temperature. Such conditions make it difficult for a larva to complete pelagic development before food becomes scarce in the surface waters. Prosobranch gastropods illustrate some important aspects of Antarctic benthic invertebrate reproduction. Species which develop non-pelagically have an aseasonal or prolonged spawning period. They produce a small number of large yolky eggs which remain in the benthos and develop slowly, giving rise to large, fully competent juveniles. Conversely, one species with free development has a short, synchronous spawning period during early summer, producing larvae which can benefit from the phytoplankton bloom. Protected development by means of brooding will limit dispersion, but transport on floating algae and by anchor ice may partially compensate for this in the Antarctic

The distribution, growth, and reproduction of the Antarctic limpet Nacella (Patinigera) concinna (Strebel, 1908)

Twenty-one monthly collections of the Antarctic limpet Nacella (Patinigera) concinna (Strebel, 1908) were obtained by divers at Signy Island, South Orkney Islands. A mean monthly population density of 123.7 ± 21.2 · m−2, mean biomass of 13.7 ± 2.7 g dry tissue wt · m−2, and annual production of 2.9 g · m−2 were recorded in the depth range 2–12 m below mean low water. Shell growth was slow with a maximum growth rate, in the first 3–5 yr of life, of 3 4 mm per year. Maturity was attained at 7–8 yr (21 mm length), and maximum size (41 mm length) at about 21 yr. Unique spawning behaviour was observed in two Austral springs, and data relating spawning to the spring increase in sea temperature were obtained