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The physiological ecology of Mytilus californianus Conrad (1976)

Bayne, B. L. ; Bayne, C. J. ; Carefoot, T. C. ; [et al.]

Springer

Oecologia 22 (1976), S. 211-228

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ISSN: 1432-1939

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The rates of oxygen consumption, filtration and ammonia excretion by Mytilus californianus have been related to body size and to ration. The rate of oxygen consumption (VO2) by individuals while immersed, measured on the shore, resembled rates recorded for mussels starved in the laboratory. VO2 by M. californianus was relatively independent of change in temperature, with a Q 10 (13–22° C) of 1.20. In contrast, the frequency of heart beat was more completely temperature dependent [Q 10 (13–22° C)=2.10]. Filtration rate showed intermediate dependence on temperature change [Q 10 (13–22° C)=1.49] up to 22° C, but declined at 26° C. Both VO2 and filtration rate declined during starvation. The utilisation efficiency for oxygen was low (approx. 4%) between 13 and 22° C, but increased to 10% at 26° C. Three components of the “routine” rate of oxygen consumption are recognised and estimated; viz. a basal rate (0.136 ml O2 h-1 for a mussel of 1 g dry flesh weight), a “physiological cost” of feeding (which represented about 6% of the calories in the ingested ration), and a “mechanical cost” of feeding which was three times higher than the physiological cost. The ratio oxygen consumed to ammonia-nitrogen excreted was low, and it declined during starvation. These data are compared with previously published measurements on Mytilus edulis, and the two species of mussel are shown to be similar in some of their physiological characteristics, though possibly differing in their capacities to compensate for change in temperature. For M. californianus, the scope for growth was highest at 17–22° C and declined at 26° C; it is suggested that exposure to temperatures in excess of 22° C, as for example during low tides in the summer, might result in a cumulative stress on these populations of mussels by imposing a metabolic deficit which must be recovered at each subsequent high tide. The high “mechanical cost” of feeding imposes a more general constraint on the scope for activity of the species.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00344793

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The physiological ecology of Mytilus californianus Conrad (1976)

Bayne, B. L. ; Bayne, C. J. ; Carefoot, T. C. ; [et al.]

Springer

Oecologia 22 (1976), S. 229-250

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ISSN: 1432-1939

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Mytilus californianus regulated its rate of oxygen consumption (VO2) during decline in oxygen tension, but did not acclimate VO2 when held at 58 mm Hg PO2. In spite of a capacity to consume oxygen while exposed to air (the average VO2 in air being equivalent to 0.74xthe standard rate of oxygen consumption in water), these mussels acquired an “oxygen debt” during aerial exposure which was discharged on subsequent reimmersion. During exposure to air the oxygen tension of the fluid in the mantle cavity was rapdly reduced to approximately 40 mm Hg, in animals both in the laboratory and on the shore. Heart rate was also reduced during air exposure, though not to the point of cardiac arrest. The concentration of ammonia in the fluid of the mantle cavity increased during aerial exposure, but the rate of excretion of ammonia was much lower than during immersion. Observations of mussels on the shore at low tide indicated that dehydration of the tissues was not a serious threat, possibly due to the large volume of fluid retained in the mantle cavity. During aerial exposure some end-products of anaerobic metabolism (alanine and malate) accumulated in the posterior adductor muscle. Malate accumulation was rapid during the first hour of exposure; alanine accumulated more gradually. It is concluded that during aerial exposure M. californianus resorts to anaerobiosis in spite of a capacity to extract some oxygen from the atmosphere. This results in a metabolic deficit during each period of low tide which, coupled with the reduced time available for feeding, imposes a physiological stress on mussels distributed on the shore.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00344794

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Haemolymph volume, changes in the biochemical composition of the blood, and cytological responses of the digestive cells inMytilus californianus Conrad, induced by nutritional, thermal and exposure stress (1978)

Thompson, R. J. ; Bayne, C. J. ; Moore, M. N. ; [et al.]

Springer

Journal of comparative physiology 127 (1978), S. 287-298

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ISSN: 1432-136X

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary 1. The volume of the extracellular space inMytilus californianus is 46% of the wet weight of the tissues (excluding the shell). 2. Fluid lost through bleeding is replaced within four hours, and both the dissolved and the cellular components (haemocytes) of the haemolymph are quickly restored. 3. The level of ammonia in the plasma increases when starved mussels begin to feed. This is a result of the specific dynamic action (SDA) which is associated with protein metabolism during feeding. 4. Ammonia accumulates in the plasma when mussels are exposed to air, which indicates that catabolism of nitrogenous substrates continues when the animal is exposed at low tide. 5. There are few changes in plasma carbohydrate, lipid and protein levels which are attributable to exposure, ration or increased temperature, suggesting good short-term regulation. 6. Lysosomal intracellular digestion continues in the digestive cells of mussels exposed to air. During exposure, there is also an increase in the numbers of circulating haemocytes, which may be associated with the continuation of the digestion process. 7. At high ration and elevated temperature, the digestive epithelium thickens, and there is some evidence that the rate of lysosomal intracellular digestion increases. During periods of starvation the epithelium becomes thinner and there is a loss of cytoplasm, probably by autophagy.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00738412

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