Absorption and utilization of oligosaccharides by Cellvibrio gilvus

Schafer, Marion Louise

January 1964

The ability of a cellulolytic bacterium Cellvibrio gilvus, to absorb and utilize members of the cellulose oligosaccharide series was investigated. Resting cell suspensions prepared from 24-hour cultures were incubated with the cellulodextrins. At various times samples were removed from the incubation flasks and filtered. The filtrates were analyzed for sugar concentration by a modified phenol-sulfuric acid procedure and degree of polymerization (D.P.) by a borohydride reduction phenol-sulfuric acid method. The rate of disappearance of the oligosaccharides from the supernatant of the resting cell suspensions was linear with respect to time indicating an active absorption mechanism. The conclusion that the rate of absorption was controlled by the respiration of the cell was based on the observation that independent of the D.P. of the cellulodextrin, the number of glucose molecules removed per cell per minute was approximately the same. The D.P. of the substrates remained constant over the experimental period with the cells suggesting that the molecules were removed intact. No effect on sugar concentration or D.P. was observed when the oligosaccharides were incubated with the filtrates which confirm these data. It was not possible from these results to determine if the oligosaccharides entered the cell or were metabolized at the cell wall. / Master of Science

LD5655.V855 1964.S323

Oligosaccharides

Cellvibrio gilvus

Net photosynthesis and photosynthate partitioning/of day-neutral and Junebearing strawberry plants as influenced by fruiting

Schaffer, Bruce

January 1985

Net photosynthesis (Pn) and photosynthate partitioning were compared between fruiting and deblossomed strawberry plants. Throughout a six-week fruiting cycle, Pn (leaf area basis), specific leaf weight (SLW), and chlorophyll content were determined at 7-day intervals for an early-formed leaf (old leaf) and for the most recently expanded leaf (young leaf) of fruiting and deblossomed day-neutral plants (cv. Tribute). During the fifth week of the fruiting cycle, Pn of the young leaf was higher for fruiting plants than for deblossomed plants. Pn of the old leaf was not different between treatments during any week. During weeks 4 and 5, the young leaf of the deblossomed plants had a higher SLW than that of fruiting plants; SLW of the old leaf was higher for deblossomed plants during weeks 4-6. The young leaf of the deblossomed plants had a higher chlorophyll content than that of fruiting plants during weeks 1 and 4. Chlorophyll content of the old leaf was higher for deblossomed plants during weeks 1, 2, and 4. There were no differences between treatments for stomatal conductance for CO₂ or dark respiration during any week of the fruiting cycle. In another experiment, deblossoming day-neutral strawberry plants (cv. Tribute) increased the amount of ¹⁴C translocated to the newly-emerging leaves 48 hrs after treatment with ¹⁴CO₂. During weeks 3-6 of the fruiting cycle, leaves of deblossomed plants had a greater total area, dry weight, and total non-structural carbohydrate (TNSC) content than leaves of fruiting plants. Pn on a whole-plant basis was higher for deblossomed plants than fruiting plants. This was largely due to the greater leaf area of the deblossomed plants, since total leaf area was highly correlated with Pn (whole plant basis). Pn (whole plant basis) was highly correlated with total dry weight and TNSC of plants in both treatments. Thus, deblossoming changed Pn and dry matter partitioning of strawberry plants. The additional leaf area and greater Pn rates (whole plant basis) obtained by deblossoming strawberry plants may result in increased yields during subsequent fruiting cycles. / Ph. D.

LD5655.V856 1985.S323

Strawberries -- Physiology

Photosynthesis

Genetic evaluation of a linear trait description

Schaeffer, George Barry

January 1985

Data for this study were 79,997 evaluations for 12 individual body and udder traits of Holstein cows. Type scores were subjectively assigned by trained personnel of Select Sires, Inc., Plain City, OH, through their corrective mating and young sire evaluation programs. After editing data to remove incomplete, erroneous and duplicate records, 56,642 records were used to calculate overall and regional age adjustment factors. Genetic parameters were estimated. Heritabilities ranged from .40 for stature to .14 for fore udder. Standard errors ranged from .039 for stature to .018 for fore udder. Genetic correlations ranged from +.75 between teats and udder support to -.61 between feet and legs. Phenotypic correlations were generally smaller than genetic correlations, ranging from .56 between udder support and teats to -.23 for dairyness and strength. These findings were in general agreement with previous research. Genetic evaluations for the 12 individual linear traits were made using Herdmate Comparison (HC) and Best Linear Unbiased Prediction (BLUP) methods. Mean evaluations by HC were near zero, and ranged from .026 for stature to -.027 for teats. Mean repeatability also showed very little variation, ranging from .404 for stature to .241 for teats. BLUP evaluations were similar to HC evaluations, with mean evaluation ranging from .121 for feet to -.183 for dairyness. Direct correlations between BLUP and HC evaluations ranged from .90 for stature to .74 for dairyness. Forty-eight different combinations of minimum daughter numbers and model variables were tested to predict sires' overall evaluations for type from linear trait evaluations using regression analysis. Results indicate that with 5 or more daughters per sire, all predictions tested were similar in accuracy for Predicted Difference for Type. / M.S.

LD5655.V855 1985.S323

Cows -- Genetics

Dairy cattle -- Genetics

A computer model for a fixed-trim re-entry vehicle using the Gracey guidance law with evasive capabilities

Schanck, Richard Wayne

January 1983

M. S.

LD5655.V855 1983.S323

Effects of land use on oxygen uptake by microorganisms on fine benthic organic matter in two Appalachian mountain streams

Schaeffer, Mary Alice

16 December 2009

Oxygen uptake rates by fine benthic organic matter were measured on samples from two Appalachian mountain streams to determine the effects of land use patterns on microbial respiration. Both Coweeta Creek in western North Carolina, and Wolf Creek in western Virginia, flow through national forest, agricultural land and scattered residential areas. Seven sites were sampled at six to ten week intervals over one year. Land use was determined using infrared aerial photographs. ARC/INFO was used to obtain land use areas for various land uses. Oxygen uptake rates were measured using a Gilson differential respirometer, at ambient temperature and 20°C. Temperature was the most important factor influencing oxygen uptake rates in both streams, with oxygen uptake rates consistently lower at ambient temperatures than 20°C. Oxygen uptake rates were higher in Wolf Creek than Coweeta Creek and were higher at sites that drained agricultural areas. Nitrates increased as the percent of agriculture increased in Wolf Creek, but not in Coweeta Creek. Nitrates were positively correlated with oxygen uptake / Master of Science

LD5655.V855 1993.S323

Microbial respiration

Stream ecology