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The Mechanism of Marine Osmoregulation in the Lampern (Lampetra Fluviatilis L.) and the Causes of its Breakdown During the Spawning Migration
1 Department of Zoology, The University Nottingham
1. Some fresh-run lamperns can osmoregulate in 50% sea water (
= 0.970° C), where they can maintain plasma freezing-point depressions of about 057° C.
2. An analysis of the mechanism of osmoregulation in these animals shows that it is similar in many respects to that employed by marine teleosts. The lampern swallows sea water and absorbs a solution containing a high proportion of monovalent ions into its blood. It has been calculated that chloride is excreted by an extra-renal route, presumably by means of chloride excretory cells which have been discovered in the gills. The rate of extra-renal loss of water is high and the urine output is negligible.
3. Many fresh-run animals are unable to osmoregulate. In some cases the capacity to swallow sea water becomes reduced, whilst in others the number of chloride excretory cells is diminished--an indication that the extra-renal excretory mechanism is failing. Both of these mechanisms regress simultaneously in some animals.
Revised on December 19, 1957
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  H. Bartels and I. C. Potter Cellular composition and ultrastructure of the gill epithelium of larval and adult lampreys: Implications for osmoregulation in fresh and seawater J. Exp. Biol., September 15, 2004; 207(20): 3447 - 3462. [Abstract] [Full Text] [PDF]
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