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Summary of Technical Literature Examining the Physiological Effects of Temperature |
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AUTHORS: |
Dale A. McCullough | Shelley Spalding | Debra Sturdevant | Mark Hicks |
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PUBLICATION DATE: |
May 2001 |
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REPORT #: |
EPA-910-D-01-005 |
ABSTRACT:
The chief objective of this paper is
to provide a literature review of the role temperature exerts
on the physiology of various salmonids. The fish are affected
as species and within the stages of their life history. The thermal
environment, perhaps more than any other aquatic habitat feature,
influences the distribution, health and survival of our native
salmonids. Temperature tolerances for salmonid species typically
refer to effects of temperature on an individual. Because we are
interested in sustainable populations of salmonids, this paper
also reviews information on the optimal or preferred ranges of
temperatures that will be needed to promote long-term survival,
growth, and reproductive success. Thermal stress occurs when a
temperature or a change in temperature produces a significant
change to biological functions leading to decreased likelihood
of survival. Thermal stress can lead to lethal effects either
immediately, in a period of days, or even weeks or months from
the onset of the elevated temperature. Thermal stress can also
result in "sublethal" or indirect effects resulting
in death or reduced fitness that impairs processes such as growth,
spawning, smoltification, or swimming speed. Metabolic processes
are directly related to temperature, and the metabolic rate increases
as a function of temperature. Fish are metabolically efficient
and most likely to thrive within the preferred range of temperatures.
Different species of salmonids have evolved to utilize different
thermal regimes, although there is much overlap in their utilization
of these regimes. Anadromous salmonids and coastal cutthroat and
rainbow trout tend to have similar temperature requirements; however,
where multiple species and life stages are present, temperature
criteria need to protect the most sensitive species and life history
stage. For this guild, maximum growth and swimming speed occur
at 55.4-68°F (13-20°C) under satiation feeding; reduced
ATPase levels are experienced at temperatures as low as 51.8-55.4°F
(11-13°C), potentially resulting in delayed or ineffective
smoltification; adult migration may be blocked at 69.8-73.4°F
(21-23°C); and temperatures of 42.8-50°F (6-10°C)
or lower during incubation result in maximum survival and size
at emergence. Bull trout have lower temperature requirements than
other salmonids with optimal incubation occurring at 35.6-42.8°F
(2-6°C), spawning being initiated as temperatures drop below
48.2°F (9°C), and the maximum growth rate at satiation
feeding occurring at 60.8°F (16°C). For other salmonids
such as redband trout, westslope cutthroat trout, and mountain
whitefish, little information is available on the effects of temperature
on their physiology.
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Temperature." EPA's Water Quality Temperature Criteria Guidance Project |
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