Activity and dormancy in relation to body water and cold tolerance in a winter-active springtail (Collembola)
Block, William; Zettel, Juerg. 2003 Activity and dormancy in relation to body water and cold tolerance in a winter-active springtail (Collembola). European Journal of Entomology, 100 (3). 305-312.
Full text not available from this repository. (Request a copy)Abstract/Summary
Ceratophysella sigillata (Collembola, Hypogastruridae) has a life cycle which may extend for >2 years in a temperate climate. It exists in two main morphs, a winter-active morph and a summer-dormant morph in central European forests. The winter-active morph often occurs in large aggregations, wandering on leaf litter and snow surfaces and climbing on tree trunks. The summer-dormant morph is found in the upper soil layers of the forest floor. The cryobiology of the two morphs, sampled from a population near Bern in Switzerland, was examined using Differential Scanning Calorimetry to elucidate the roles of body water and the cold tolerance of individual springtails. Mean (SD) live weights were 62 +/- 16 and 17 +/- 6 mug for winter and summer individuals, respectively. Winter-active springtails, which were two feeding instars older than summer-dormant individuals, were significantly heavier (by up to 4 times), but contained less water (48% of fresh weight [or 0.9 g g(-1) dry weight]) compared with summer-dormant animals (70% of fresh weight [or 2.5 g g(-1) dry weight]). Summer-dormant animals had a slightly greater supercooling capacity (mean (SD) -16 +/- 6degreesC) compared with winter-active individuals (-12 +/- 3degreesC), and they also contained significantly larger amounts of both total body water and osmotically inactive (unfrozen) water. In the summer morph, the unfrozen fraction was 26%, compared to 11% in the winter morph. The ratio of osmotically inactive to osmotically active (freezable) water was 1 : 1.7 (summer) and 1 : 3.3 (winter); thus unfrozen water constituted 59% of the total body water during summer compared with only 30% in winter. Small, but significant, levels of thermal hysteresis were detected in the winter-active morph (0.15degreesC) and in summer-dormant forms (0.05degreesC), which would not confer protection from freezing. However, the presence of antifreeze proteins may prevent ice crystal growth when feeding on algae with associated ice crystals during winter. It is hypothesised that in summer animals a small decrease in freezable water results in a large increase in haemolymph osmolality, thereby reducing the vapour pressure gradient between the springtail and the surrounding air. A similar decrease in freezable water in winter animals will not have such a large effect. The transfer of free water into the osmotically inactive state is a possible mechanism for increasing drought survival in the summer-dormant morph. The ecophysiological differences between the summer and winter forms of C. sigillata are discussed in relation to its population ecology and survival.
Item Type: | Publication - Article |
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Programmes: | BAS Programmes > Antarctic Science in the Global Context (2000-2005) > Life at the Edge - Stresses and Thresholds |
ISSN: | 1210-5759 |
Additional Keywords: | Collembola, Hypogastruridae, winter activity, summer dormancy, body water balance, osmotically inactive water, cold hardiness, Differential Scanning Calorimetry, thermal hysteresis |
NORA Subject Terms: | Biology and Microbiology Zoology Ecology and Environment |
Date made live: | 17 Feb 2012 10:24 +0 (UTC) |
URI: | https://nora.nerc.ac.uk/id/eprint/12594 |
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