Aspects of the physiological ecology of dinitrogen fixation in terrestrial Nostoc sp
Biological dinitrogen fixation was measured in the Elizabeth's Prairie section of the Lynx Prairie Preserve, Adams County, Ohio using the acetylene-reduction technique. Cyanobacteria (principally Nostoc sp.) contributed almost all of the biologically fixed N at the site until late June, at which time heterotrophic diazotrophs became the dominant dinitrogen fixers. These changes in activity were attributable to fluctuations in Nostoc sp. colony cover, temperature, and soil water potential. Extrapolation of the data, showed Nostoc sp. and heterotrophic diazotrophs contributing 4.60 +/- 1.17 Kg N/ha/yr and 3.19 +/- 1.18 Kg N/ha/yr, respectively. The rate of total dinitrogen fixation for the site, 8.20 +/- 2.55 Kg N/ha/yr, is among the highest reported for temperate grassland ecosystems. Laboratory experiments were conducted to characterize 1) the in vivo freeze recovery physiology of nitrogenase activity and 2) polyphosphate bodies and acid phosphatase activity during dark (energy stress) periods. Photosynthetic conditions were necessary for maximum recovery of nitrogenase activity. Though damage may occur to nitrogenase, some of the enzyme is capable of surviving a freeze-thaw period in vivo. However, complete recovery of nitrogenase activity may entail de novo synthesis of nitrogenase. The rate of acid phosphatase activity was measured using p-nitrophenyl phosphate as an exogenous substrate. Cells incubated in the light for 72 h showed acid phosphatase activity localized around the perimeter of the polyphosphate bodies. When cells were incubated in the dark, acid phosphatase activity occurred throughout the polyphosphate body matrix.
- OSTI ID:
- 6133290
- Resource Relation:
- Other Information: Thesis (Ph. D.)
- Country of Publication:
- United States
- Language:
- English
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