Optimum Growth Temperatures of Three Species of Green Chloromonas Snow Algae from Upstate New York and the White Mountains, Arizona

Optimum Growth Temperatures of Three Species of Green Chloromonas Snow Algae from Upstate New York and the White Mountains, Arizona

The optimum temperatures of three species of snow algae were studied using four strains of Chloromonas (Cr.) rosae v. psychrophila, six strains of Cr. tughillensis, and one strain of Cr. chenangoensis. These axenic strains were from Upstate New York except for two of Cr. rosae v. psychrophila from t...

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Veröffentlicht in:Arctic, antarctic, and alpine research antarctic, and alpine research, 2008-05, Vol.40 (2), p.355-363
Hauptverfasser: Hoham, Ronald W., Frey, Frank M., Mohn, William W., Felio, Joy H., Todd, Sarah, Duncan, Jared E., Banghart, James B.
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Sprache:eng
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Acclimatization
Algae
Antarctic regions
Biological taxonomies
Cell growth
Irradiance
Nitrates
Quaternary ammonium compounds
Snow
Taxa
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container_issue 2
container_start_page 355
container_title Arctic, antarctic, and alpine research
container_volume 40
creator Hoham, Ronald W.
Frey, Frank M.
Mohn, William W.
Felio, Joy H.
Todd, Sarah
Duncan, Jared E.
Banghart, James B.
description The optimum temperatures of three species of snow algae were studied using four strains of Chloromonas (Cr.) rosae v. psychrophila, six strains of Cr. tughillensis, and one strain of Cr. chenangoensis. These axenic strains were from Upstate New York except for two of Cr. rosae v. psychrophila from the White Mountains, Arizona. Temperatures tested were from 2.5 to 20°C. The high elevation subalpine Cr. rosae v. psychrophila from New York and Arizona grew from 4 to 20°C and had the greatest cell counts at 4 to 15°C. In contrast, the subalpine to temperate low elevation strains of Cr. tughillensis grew from 2.5 to 10°C and optimally at 2.5 or 5°C, and Cr. chenangoensis grew from 2.5 to 7.5°C and optimally at 2.5 and 5°C. Chloromonas tughillensis and Cr. chenangoensis belong to a genetic subclade with low temperature optima, whereas Cr. rosae v. psychrophila belongs to a subclade with broad temperature optima. In acclimation experiments, there were no significant differences in cell counts when acclimating two Adirondack, New York, strains of Cr. rosae v. psychrophila for two weeks prior to experiments vs. using non-acclimated strains that were moved from 4°C directly to 4, 10, 15, or 20°C. For Cr. tughillensis, four of six strains had significantly higher cell counts when grown at 2.5°C after acclimation at 7.5°C for five months. These are the first reports of temperature optima of snow algae from eastern North America.
doi_str_mv 10.1657/1523-0430(07-038)\[HOHAM\]2.0.CO;2
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In acclimation experiments, there were no significant differences in cell counts when acclimating two Adirondack, New York, strains of Cr. rosae v. psychrophila for two weeks prior to experiments vs. using non-acclimated strains that were moved from 4°C directly to 4, 10, 15, or 20°C. For Cr. tughillensis, four of six strains had significantly higher cell counts when grown at 2.5°C after acclimation at 7.5°C for five months. These are the first reports of temperature optima of snow algae from eastern North America.</abstract><pub>Institute of Arctic and Alpine Research</pub><doi>10.1657/1523-0430(07-038)\[HOHAM\]2.0.CO;2</doi></addata></record>
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source BioOne Free; Jstor Complete Legacy; EZB-FREE-00999 freely available EZB journals
subjects Acclimatization
Algae
Antarctic regions
Biological taxonomies
Cell growth
Irradiance
Nitrates
Quaternary ammonium compounds
Snow
Taxa
title Optimum Growth Temperatures of Three Species of Green Chloromonas Snow Algae from Upstate New York and the White Mountains, Arizona
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