The Physiological Response of sub-Arctic Lichens to Their Abiotic Environment

The effect of environmental factors on metabolic processes of sample thalli, of four sub-Arctic lichen species from Abisko, Sweden (68.37ËšN, 18.69ËšE). Nephroma arcticum, Cladina mitis, C. stellaris and C. rangiferina, which are found in contrasting niche habitats within the same ecosystem, have be...

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Bibliographic Details
Main Author: HENRI, DOMINIC,CHARLES
Format: Thesis
Language:unknown
Published: 2011
Subjects:
Online Access:http://etheses.dur.ac.uk/623/
http://etheses.dur.ac.uk/623/1/All_together-_w_corrections.pdf
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Summary:The effect of environmental factors on metabolic processes of sample thalli, of four sub-Arctic lichen species from Abisko, Sweden (68.37ËšN, 18.69ËšE). Nephroma arcticum, Cladina mitis, C. stellaris and C. rangiferina, which are found in contrasting niche habitats within the same ecosystem, have been studied. An oxygen electrode apparatus has been used to study the effects of air temperature, thallus irradiance intensity and climatic regime during thallus storage, on the rate of net photosynthesis and dark respiration of sample thalli, in a series of studies on the four lichen species named above. Environmental temperature and light intensity both significantly affected the rate of thallus net photosynthesis (NP) in samples of all four species. The mean rate of thallus NP was significantly depressed at 17â°C in all four species due to an exponential increase in respiratory rate with rising temperature. Maximal NP was achieved at 5â°C in N. arcticum, 10â°C in C. rangiferina, and NP at 5 & 10â°C were not significantly different in C. mitis and C. stellaris. Optimum light intensity for photosynthesis was 340 µmol m-2 s-1 in all four species; however, temperature significantly increased the light compensation point of photosynthesis. Furthermore, mean light compensation points were greater in the more shaded adapted species N. arcticum and C. mitis; suggesting, as found in vascular plants, lichens exhibit photosynthetic characteristics adapted to their abiotic environment. C. mitis thalli did not provide any evidence of plastic adaptation to temperature over a six day storage period; whereas, N. arcticum samples exhibited increased NP after six days at 10 & 15â°C compared to non-acclimatized samples. Prolonged storage at 10â°C appeared to be detrimental to samples of C. stellaris. Responses to temperature and light intensity were similar to those found, in similar species, in photosynthetic rate investigations utilizing IRGA apparatus; validating the use of O2 electrode experiments using small samples of ...