T. latifolia grows along most of the shoreline of Par Pond, a cooling reservoir for the reactors at the Savannah River Plant in Aiken, South Carolina. A thermal gradient exists because of the movement of hot water from one end of the pond to the other. This study was undertaken to determine the biochemical and morphological effects of temperature on Typha latifolia clones originating from different ends of this thermal gradient. The data indicated that both “hot” and “cold” end plants react similarly to temperature. Forty‐eight rhizome plants from both ends of Par Pond were transplanted into tanks at 20 C and 30 C. Total levels of malic dehydrogenase activity, proportions of mitochondrially bound MDH and growth rates were significantly different in plants grown in the two tanks, but no significant differences were observed within each tank between individuals from the “hot” and “cold” end. The relation of these results to hypotheses concerning quantitative strategies of enzyme adaptation are discussed in the paper.
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