Journal ArticleDOI
Nitrogen Fixation and the Utilization of Other Inorganic Nitrogen Sources in a Subarctic Lake
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A year-round limnological study of the biological utilization of molecular nitrogen, ammonia, and nitrate in Smith Lake, a small subarctic lake in interior Alaska, showed that ammonia was consistently the most important nitrogen source.Abstract:
A year-round limnological study of the biological utilization of molecular nitrogen, ammonia, and nitrate in Smith Lake, a small subarctic lake in interior Alaska, showed that ammonia was consistently the most important nitrogen source. Of the two main algal production periods, the first took place under the ice in May, and depended on ammonia accumulated during the winter for a nitrogen source. The population at this time consisted largely of microflagellates. Chlamydomonas, Euglena, Chlorella, and Mellamonas were among the identified algae present. Immediately after the ice melted from the lake surface, a second population developed. These algae, consisting almost exclusively of Anabaena flos-aquae, used ammonia, nitrate, and molecular nitrogen simultaneously. During the remainder of the summer, uptake rates remained relatively low, with ammonia the most important nitrogen source; during the fall, nitrate uptake briefly approached the magnitude of ammonia uptake. 15N tracer methods were used to measure ...read more
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Do cyanobacteria dominate in eutrophic lakes because they fix atmospheric nitrogen
TL;DR: Although cyanobacteria made up 81–98% of phytoplankton biomass during summer and autumn, both assays suggested minimal N acquisition through fixation, and heterocyst densities of <3 per 100 fixer cells confirmed low reliance on fixation.
Journal ArticleDOI
Nitrogen fixation in clear lake, california. i. seasonal variation and the role of heterocysts1
TL;DR: A stepwise multiple regression analysis showed that fluctuations in N2 fixation were best described by variations in heterocysts, quantities of blue-green algae, PO4-P, NO3-N, and temperature.
Journal ArticleDOI
Nitrogen fixation in clear lake, california. ii. synoptic studies on the autumn anabaena bloom1
TL;DR: In this paper, Nitrogen fixation at three stages of an autumnal bloom of Anabaena circinulis was measured after almost simultaneous collection at up to 32 stations in Clear Lake and algal hetcrocysts, phytoplankton cell numbers, dissolved organic-N, POh-P, Fe, primary production, particulate carbon, and chlorophyll a were also measured.
Journal ArticleDOI
Nitrogen Fixation and its Significance in Tropical Lake George, Uganda
A. J. Horne,A. B. Viner +1 more
TL;DR: There is very little inorganic nitrogen in the water of Lake George and there is little seasonal variation in species composition, in the numbers of the phytoplankton and in chemical and physical parameters.
Journal ArticleDOI
Estimation of N2 fixation based on differences in the natural abundance of 15N among freshwater N2-fixing and non-N2-fixing algae.
B. Gu,V. Alexander +1 more
TL;DR: The dynamics of nitrogen supply was investigated for blue-green and green algae from Smith Lake and other freshwaters of subarctic and arctic Alska and an estimation of the fractional contribution of atmosphere-derived nitrogen from δ15N indicated that A. flos-aquae obtained 58–75% of its nitrogen by N2 fixation, which agreed with the result obtained using a 15N2 enrichment method.
References
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Rapid conversion of organic nitrogen to N2 for mass spectrometry: an automated dumas procedure
TL;DR: In this article, a method for the automated conversion of organic nitrogen to N2 and for the preparation of N2 for mass spectrometry has been presented to reduce the time and effort required for N 15 N 14 isotope ratio determination.