Life in the Open Ocean. Joseph J. Torres
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Название: Life in the Open Ocean

Автор: Joseph J. Torres

Издательство: John Wiley & Sons Limited

Жанр: Биология

Серия:

isbn: 9781119840312

isbn:

СКАЧАТЬ varied responses to lowered and raised temperature, and the reader is encouraged to examine Prosser’s curves.

      Climatic Adaptation in Ectotherms

      The rates in this classical figure are similar in the different zoogeographic locations. MCA is very important zoogeographically; it implies an advantage to elevated metabolic rates in cold‐adapted species and marked similarity of metabolic rates over the zoogeographic range of fishes (and other taxa). A great deal of thought and experimentation has gone into understanding MCA because it is of paramount importance to ectotherms.

Schematic illustration of the relation between temperature and standard metabolic rates (log scale) of fish from different climatic zones.

      Source: Brett and Groves (1979), figure 1 (p. 292) with the permission of Academic Press.

      Clearly, temperature not only sets boundaries for survival but also governs rate processes within those boundaries. The rate processes are, in turn, governed by enzyme systems: the biological catalysts that make life possible. Alterations in the quality or quantity of enzymes underlie much of the process of temperature adaptation. Thus, it is important to examine temperature adaptation in more depth.

Schematic illustration of lactate dehydrogenase (LDH) activities (international units gWM-1) in brains of fishes from Antarctic and tropical/subtropical climatic zones in relation to environmental temperature.

      Source: Kawall et al. (2002), figure 1 (p. 283). Reproduced with the permission of Springer‐Verlag.

Schematic illustration of citrate synthase (CS) activities (international units g WM-1) in brains of fishes from Antarctic and tropical/subtropical climatic zones in relation to environmental temperature. Curves generated as in Figure 2.8.

      Source: Kawall et al. (2002), figure 2 (p. 283). Reproduced with the permission of Springer‐Verlag.

      Temperature Compensation via Changes in Enzyme Concentration: The Quantitative Strategy for Short‐term Change

      The easiest way to effect a change in rate, as measured by the accumulation of a reaction product, is to alter the concentration of reactants. In the case of an enzymatic reaction, if we assume a constant concentration of substrate and increase the amount of enzyme, the product of the reaction will accumulate more rapidly: an increase in activity. Surprisingly, few studies quantitatively address this issue. Most studies simply assume that short‐term changes in enzyme activities are due to enzyme concentration changes. The one study, consistently cited, that does address changes in enzyme activity as a function of enzyme concentration is Sidell et al. СКАЧАТЬ