Global ETD Search

1001	Neural networks modelling of stream nitrogen using remote sensing information: model development and application Li, Xiangfei Unknown Date No description available. Neural networks Modelling Nitrogen Remote sensing
1002	Planktonic responses to nitrogen and phosphorus deposition - a natural alpine pond experiment Zettel, James Unknown Date No description available. zooplankton phytoplankton nitrogen phosphorus alpine ponds
1003	Analysis of Nitrogen Species in Gas Oils Using High Performance Liquid Chromatography and Fourier Transform Ion Cyclotron Resonance Mass Spectrometry Oro, Nicole E. Unknown Date No description available. Petroleum Nitrogen HPLC FT-ICR MS
1004	Reactions of active nitrogen with phosphorus, cyclic compounds, and isobutane. Roscoe, Sharon Grace. January 1971 (has links) No description available. Active nitrogen Phosphorus Cyclic compounds Isobutane.
1005	Kinetics of the reactions of active nitrogen with methyl chloride and ethylene. Brown, George Ronald. January 1970 (has links) No description available. Active nitrogen Methyl chloride. Ethylene Chemical kinetics.
1006	Modulins of the peribacteroid compartment in soybean nodules Fortin, Marc G. January 1987 (has links) Symbiotic interaction of Rhizobium with roots of legume plants leads to the formation of root nodules that are capable of reducing atmospheric nitrogen. In nodule cells, bacteria are always enclosed inside the peribacteroid membrane (pbm) which is derived from the plant cell plasma membrane. The pbm mediates all the molecular exchanges between the host plant and bacteria. The pbm of soybean (Glycine max) nodules induced by Bradyrhizobium japonicum was characterized for the presence of nodule-specific proteins (nodulins), which may be involved in some of the nodule-specific roles the pbm plays. The pbm was found to contain a number of nodulins, and most of them were shown to be of plant origin. The peribacteroid fluid (pbf) was also purified and shown to contain nodulins. Some of the pbf proteins were highly glycosylated. Immunological localization at the electron microscopic level has shown that pbm nodulins are inserted specifically in the pbm; almost none are detected in the plasma membrane (pm) of infected cells even though the pbm is derived from it. The amino acid sequences of three different pbm nodulins (nodulin-23, -24 and -26) do not share significant primary structure homology, neither do their tentative secondary structures. Our results do not preclude targeting based on pbm-nodulin-specific feature(s) of the proteins; but it is possible that pbm-specific localization is achieved by differential rates of membrane synthesis, or turnover, in pbm as compared to the plasma membrane. Rhizobium. Bacteria, Denitrifying. Nitrogen -- Fixation. Soybean.
1007	Impact of seasonal variations, nutrients, pollutants and dissolved oxygen on the microbial composition and activity of river biofilms / Impact of environmental parameters on river biofilms Chénier, Martin January 2004 (has links) Biofilm communities were cultivated in rotating annular bioreactors using water from the South Saskatchewan River. The impacts of seasonal variations, nutrients, pollutants and dissolved oxygen on the activity and composition of the biofilms were assessed by using a combination of microcosm assays and molecular biology techniques. / The seasonal pattern in nitrification, denitrification and hexadecane mineralization, and in the occurrence of nirK in the South Saskatchewan River biofilms was: fall greater than winter, which was equivalent to spring. Hexadecane mineralization was higher in fall 1999 than in fall 2001, denitrification was similar in these two years, and no seasonal pattern of nitrification was observed. / The addition of combined nutrients (C, N, and P) resulted in significant increases in the measured bacterial activities and in the predominance of alkB, nirS and nirK in all seasons and years. The addition of individual nutrients did not stimulate hexadecane mineralization, denitrification, and the PCR amplification of nirS and nirK. In fall 1999, CNP and, to a lesser extent P, stimulated nitrification, whereas in fall 2001, no pattern was observed. The results showed that nutrients, especially P, were limiting for bacterial activities, and that the biofilm activities and composition varied with nutrient availability and time of year. / At the concentration assessed (1 ppb), hexadecane partially inhibited denitrification to similar extents in both years, had a negative impact on nitrification and hexadecane mineralization in fall 1999, and a positive impact on these two latter activities in fall 2001. Nickel (0.5 mg liter-1 ) negatively affected denitrification but had no effect on hexadecane mineralization. The alkB and nirS genes were less predominant and absent, respectively, in biofilms grown in the presence of nickel. DGGE analyses indicated that nickel reduced the biofilm bacterial diversity. / The results presented herein provide much needed information on the microbial ecology of river biofilms, and on the impact and interactive effects of pollutant and nutrient inputs on these biofilms. These results and the techniques used in this project can be applied to monitor environmental effects of anthropogenic activities on aquatic biofilms, and can contribute to establish or revise environmental regulations. Biofilms. Microbial metabolism. Alkanes -- Metabolism. Nitrogen cycle.
1008	Lignosulphonate amended liquid hog manure : ammonia volatilization and nitrogen availability Zou, Guangyong January 1994 (has links) Ammonia (NH$ sb3$) volatilization from manure can represent a major process through which nitrogen (N) is lost from the soil-plant-animal system. Reductions in NH$ sb3$ volatilization have significance both in economic and ecological aspects. Calcium lignosulphonate (CaLS), an acidic, water-soluble organic waste product of the pulp and paper industry, is expected to reduce NH$ sb3$ volatilization from liquid hog (Sus scrofa dometicus) manure (LHM) and consequently increase fertilizer value of LHM. Reduction of NH$ sb3$ loss from LHM was studied using added CaLS at 0, 6% 12% and 18% CaLS (based on fresh LHM weight) during 21 d incubation. Cumulative losses of NH$ sb3$-N ranged between 0 to 46% of initial total N. Compared to untreated LHM, the 6% CaLS treatment control N loss for 7 d and promoted N loss thereafter, while 12% and 18% CaLS treatments effectively reduced N losses throughout the 21 d incubation period. The N availability and the effect of CaLS-LHM mixtures on ryegrass (Lolium multiform Lamb.) growth were assessed on two soils mapped as St. Amable (sandy loam) and Ste. Rosalie (clay loam) from eastern Canada. Calcium lignosulphonate showed adverse effect on ryegrass plant growth, while as an amendment it did not reduce the effectiveness of LHM-N for ryegrass dry matter yield (DMY) and chemical composition at application rate up to 12% of LHM for the sandy loam soil and 18% of LHM for the clay loam soil. These findings suggested that CaLS may be used as an amendment for controlling N losses from animal manures. Swine -- Manure. Farm manure, Liquid. Ammonia. Nitrogen.
1009	The importance of zooxanthellae for the nitrogenous excretion of some hermatypic corals / Sloterdijk, Harm January 1975 (has links) No description available. Nitrogen excretion. Corals. Zooxanthellae. Biology, General.
1010	Low root-zone temperatures and soybean (Glycine max (L.) Merr.) N2- fixing symbiosis development Lynch, Derek H. (Derek Henry) January 1992 (has links) This research tested the hypotheses that (a) suboptimal root-zone temperatures (RZT) limit the soybean-Bradyrhizobium N$ sb2$-fixing symbiosis primarily through an inhibition of symbiosis establishment and (b) this inhibition is modified by the genotype of micro- or macrosymbiont. Controlled environment and field experiments were conducted utilizing two soybean genotypes and six B. japonicum strains. At 19$ sp circ$C RZT fixed nitrogen levels decreased by 30-40%, predominantly due to a restriction in the latter stages of nodule development. Reductions of 10% and 30% in specific nodule activity rates at 19$ sp circ$C and 15$ sp circ$C RZT respectively, indicated nodule function to be comparatively insensitive to low RZT. Soybean genotypes did not differ in seedling nodulation or N$ sb2$-fixation under cool-soil, field or controlled environment, conditions. At all temperatures, commercial B. japonicum strain 532C was more efficient, but not effective, than strains obtained from the cool-soils of Northern Japan. Under cool-soil field conditions, two of the latter strains increased seedling nodulation and N$ sb2$-fixation. Soybean. Nitrogen-fixing microorganisms. Soil temperature.

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