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Artemia: Basic and applied biology
Abatzopoulos, T.J.; Beardmore, J.A.; Clegg, J.S.; Sorgeloos, P. (2002). Artemia: Basic and applied biology. Biology of Aquatic Organisms, 1. Kluwer Academic: Dordrecht. ISBN 978-90-481-6073-0. XV, 286 pp. https://dx.doi.org/10.1007/978-94-017-0791-6
Part of: Martens, K. Biology of Aquatic Organisms. ISSN 1573-5656, more

Available in  Authors 
    VLIZ: Crustacea CRU.122 [101506]

Keywords
    Biology
    Fauna > Aquatic organisms > Aquatic animals > Shellfish > Marine organisms > Marine crustaceans
    Artemia Leach, 1819 [WoRMS]; Artemia salina (Linnaeus, 1758) [WoRMS]
    Marine/Coastal

Authors  Top 
  • Abatzopoulos, T.J.
  • Beardmore, J.A.
  • Clegg, J.S.
  • Sorgeloos, P., more

Content
  • Criel, G.R.J.; Macrae, T.H. (2002). Artemia morphology and structure, in: Abatzopoulos, T.J. et al. Artemia: basic and applied biology. Biology of Aquatic Organisms, 1: pp. 1-37, more
  • Criel, G.R.J.; Macrae, T.H. (2002). Reproductive biology of Artemia, in: Abatzopoulos, T.J. et al. Artemia: basic and applied biology. Biology of Aquatic Organisms, 1: pp. 39-128, more
  • Clegg, J.S.; Trotman, C.N.A. (2002). Physiological and biochemical aspects of Artemia ecology, in: Abatzopoulos, T.J. et al. Artemia: basic and applied biology. Biology of Aquatic Organisms, 1: pp. 129-170, more
  • Van Stappen, G. (2002). Zoogeography, in: Abatzopoulos, T.J. et al. Artemia: basic and applied biology. Biology of Aquatic Organisms, 1: pp. 171-224, more
  • Gajardo, G.; Abatzopoulos, T.J.; Kappas, I.; Beardmore, J.A. (2002). Evolution and speciation, in: Abatzopoulos, T.J. et al. Artemia: basic and applied biology. Biology of Aquatic Organisms, 1: pp. 225-250, more
  • Dhont, J.; Sorgeloos, P. (2002). Applications of Artemia, in: Abatzopoulos, T.J. et al. Artemia: basic and applied biology. Biology of Aquatic Organisms, 1: pp. 251-277, more

Abstract
    The objectives of this volume are to present an up-to-date (literature survey up to 2001) account of the biology of Artemia focusing particularly upon the major advances in knowledge and understanding achieved in the last fifteen or so years and emphasising the operational and functional linkage between the biological phenomena described and the ability of this unusual animal to thrive in extreme environments. Artemia is a genus of anostracan crustaceans, popularly known as brine shrimps. These animals are inhabitants of saline environments which are too extreme for the many species which readily predate them if opportunity offers. They are, thus, effectively inhabitants of extreme (hypersaline) habitats, but at the same time are able to tolerate physiologically large changes in salinity, ionic composition, temperature and oxygen tension. Brine shrimp are gener­ ally thought of as tropical and subtropical, but are also found in regions where temperatures are very low for substantial periods such as Tibet, Siberia and the Atacama desert. They have, thus, great powers of adaptation and are of interest for this capacity alone. The earliest scientific reference to brine shrimp is in 1756, when Schlosser reported their existence in the saltpans of Lymington, England. These saltpans no longer exist and brine shrimp are not found in Britain today. Later, Linnaeus named the brine shrimp Cancer salinus and later still, Leach used the name Artemia salina. The strong effect which the salinity of the medium exerts on the morphological development of Artemia is now widely recognised.

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