Temperature Response of Metabolic Activity of an Antarctic Nematode

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Abstract

Because of climate change, the McMurdo Dry Valleys of Antarctica (MCM) have experienced increased summer temperatures and surface ice and snow melting events. In response to these environmental changes, some nematode species in the MCM have experienced steady population declines over the last three decades, but Plectus murrayi, a mesophilic nematode species, has responded with a steady increase in range and abundance. To determine how P. murrayi responds to increasing temperatures we measured metabolic heat and CO 2 production rates and calculated O 2 consumption rates as a function of temperature at 5°C intervals from 5 to 50°C. Heat, CO 2 production, and O 2 consumption rates increase approximately exponentially up to 40°C, a temperature never experienced in their polar habitat. Metabolic rates decline rapidly above 40°C and are irreversibly lost at 50°C due to thermal stress and mortality. Caenorhabditis elegans, a much more widespread nematode that is found in more temperate environments reaches peak metabolic heat rate at just 27°C, above which it experiences high mortality due to thermal stress. At temperatures from 10 to 40°C, P. murrayi produces about 6 times more CO 2 than the O 2 it consumes, a respiratory quotient indicative of either acetogenesis or de novo lipogenesis. No potential acetogenic microbes were identified in the P. murrayi microbiome. We, therefore, conclude that P. murrayi is producing increased CO 2 as a byproduct of de novo lipogenesis. This phenomenon, in conjunction with increased summer temperatures in their polar habitat, will likely lead to increased CO 2 production, population abundance, and range expansion.

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last seen: 2026-05-19T01:45:01.086888+00:00