Environmental Constraints on Anabaena N2- And CO2-Fixation: Effects of Hyperoxia and Phosphate Depletion on Blooms and Chemostat Cultures
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H. Paerl | D. Lean | P. Kellar | D. Shindler
[1] B. Burnison,et al. Modified Dimethyl Sulfoxide (DMSO) Extraction for Chlorophyll Analysis of Phytoplankton , 1980 .
[2] D. Lean,et al. An evaluation of errors in the 14C method of primary production measurement , 1979 .
[3] P. Fay,et al. Some physiological‐biochemical characteristics of planktonic blue‐green algae during bloom formation in three Salopian meres , 1979 .
[4] H. Paerl,et al. Nitrogen-Fixing Anabaena: Physiological Adaptations Instrumental in Maintaining Surface Blooms , 1979, Science.
[5] J. Waterbury,et al. Generic assignments, strain histories, and properties of pure cultures of cyanobacteria , 1979 .
[6] J. C. Goldman,et al. Nitrogenous Nutrition of Marine Phytoplankton in Nutrient-Depleted Waters , 1979, Science.
[7] H. Paerl,et al. Visual Observations of Phosphorus Movement Between Algae, Bacteria, and Abiotic Particles in Lake Waters , 1976 .
[8] B. Cavari,et al. ATP in Lake Kinneret: Indicator of microbial biomass or of phosphorus deficiency?1 , 1976 .
[9] W. Stewart. Algal physiology and biochemistry , 1975 .
[10] D. Lean,et al. Movements of Phosphorus Between its Biologically Important Forms in Lake Water , 1973 .
[11] W. Stewart,et al. Phosphorus availability and nitrogenase activity in aquatic blue‐green algae , 1971 .
[12] W. Stewart,et al. Effects of aerobic and anaerobic conditions on growth and metabolism of blue-green algae , 1970, Proceedings of the Royal Society of London. Series B. Biological Sciences.
[13] G. E. Fogg,et al. Algal cultures and phytoplankton ecology , 1966 .
[14] E. Steemann Nielsen,et al. The Use of Radio-active Carbon (C14) for Measuring Organic Production in the Sea , 1952 .
[15] R. S. Tobin,et al. An improved method for the determination of adenosinetriphosphate in environmental samples , 1978 .
[16] R. Peterson,et al. Diurnal Variation in N2 Fixation and Photosynthesis by Aquatic Blue-Green Algae , 1977 .
[17] H. Paerl,et al. The Relation Between Adenosine Triphosphate and Microbial Biomass in Diverse Aquatic Ecosystems , 1976 .
[18] M. Perry,et al. Phosphate utilization by an oceanic diatom in phosphorus limited chemostat culture , 1976 .
[19] R. D. Hamilton,et al. Aquatic acetylene-reduction techniques: solutions to several problems. , 1976, Canadian journal of microbiology.