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Investigation of the physiological basis of malting quality of grain developing under high temperature conditionsBlesing, Meredith January 1997 (has links)
Short periods ( up to 5 days ) of high temperatures have been shown to reduce grain weight in barley although the specific effects on malting quality are still not clearly understood. Controlled environment conditions were used in this study to investigate the physiological and biochemical responses in Schooner barley to 5 days of elevated temperatures during grain filling. Control plants were maintained at 21 / 16 ° C ( 14th day ) from anthesis to harvest ripeness. Plants undergoing heat treatment experienced increasing temperatures for two days ( from 16 days after anthesis ) followed by 3 days at high temperatures (35 ° C day / 25 ° C night ). The period of high temperature reduced individual grain dry weight by 18 %. Schooner barley endosperm ( the grain storage tissue ) exhibited greater sensitivity to high temperatures than the whole grain ( 25 % reduction in dry weight ) in response to high temperatures. Grain development was accelerated by exposure to high temperatures and a reduction of approximately 8 % in the duration of grain filling was observed in heat treated compared with control grain. Changes in endosperm composition provided evidence that exposure to high temperatures altered overall grain metabolism. Reduction in starch, the single most important grain component contributing to final grain weight was the major factor lowering final grain dry weight, b - glucan deposition was also reduced following high temperature exposure. Little change was observed in the absolute amount of nitrogen accumulated per endosperm, although nitrogen concentration was higher in heat - treated grain, due mainly to reduced grain size and lower starch content. The results of this study confirmed other reports that the conversion of sucrose to starch was limiting in grain exposed to a period of high temperature. The amount of substrate, sucrose, within heat treated endosperms was not found to be limiting starch accumulation. The reduction in starch synthesis appeared to result from the combined effects of diminished catalytic activity of several enzymes in the committed pathway of starch synthesis and / or delayed recovery of enzyme activity during the cooler conditions which followed the heating period. Soluble starch synthase ( SSS ) showed an immediate loss of catalytic activity, even at moderate temperatures, while sucrose synthase and uridine 5 ' - diphosphoglucose pyrophosphorylase showed greatest reduction in activity only after plants were returned to cooler conditions. Individual enzymes showed variation in the level of recovery under the cooler temperature conditions which followed the heating period. The high temperature conditions which induced changes in the metabolism of grains following high temperature exposure, were associated with alterations to the appearance of the starchy endosperm cells, including the distribution of starch granules and their growth. Under elevated temperatures the synthesis of endosperm starch did not appear to keep pace with cell division and cell enlargement and peripheral endosperm cells remained relatively empty of starch granules. A reduction in Calcofluor fluorescent cell wall material was observed in both the endosperm and the crushed cell layer of heat treated grains. Microscopic observations revealed that the lower levels of starch observed in heat treated barley grains were not only associated with reduced accumulation of starch, but also localised degradation of the barley endosperm. Increased embryo growth, which was observed to take place in heat treated grains, may have been due to the nutrients thus generated although further investigations are required to elucidate the mechanisms involved. Structural observations of harvest ripe grain developing under control conditions also revealed changes in the grain associated with early germination events, and the possibility of a continuum between development and germination has been put forward. High temperature exposure resulted in an overall decrease in malt extract potential, but there was evidence that the effects of heat on individual malt parameters were both beneficial and detrimental. While DP, beta - amylase deposition, beta - glucan and viscosity were improved, heat treatment was associated with a reduced quantity of starch and increased protein concentration. Grain and malt beta - glucan levels were reduced as a result of high temperature exposure and beta - glucan degradation was enhanced in these grains. The overall reduction in the amount of ' maltable ' grain ( due to reduced grain size ) represented one of the most significant effects of heat treatment. The effects of a period of high temperature on grain growth and subsequent malting quality were examined for barley varieties Schooner and Arapiles and advanced breeding line WI - 2875 * 22. All showed reduced final grain dry weight in heat treated grains but the response to high temperature exposure with respect to starch, protein and ( b - glucan accumulation varied. The continued synthesis of starch by Arapiles and WI - 2875 * 22 under high temperature conditions warrants further investigation. Evidence has also been presented indicating that water loss may not have a decisive role in the termination of grain filling. The effect of high temperatures on the non - endosperm component of the grain showed both genotypic and environmental variation. Changes in the contribution made by the non - endosperm component to final grain weight was observed to lead to alterations in the relative concentration of important grain storage components. This was found to be crucial where potentially important heat stable quality characteristics, such as reduced accumulation of nitrogen, were masked by changes in the contribution to final grain dry weight by the non - endosperm component of the grain. / Meredith Anne Blesing Wallwork / Thesis (Ph.D.)--Department of Plant Science, 1997.
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Investigation of the physiological basis of malting quality of grain developing under high temperature conditionsWallwork, Meredith Anne Blesing. January 1997 (has links) (PDF)
Bibliography: leaves 174-192. This research aims to obtain detailed knowledge on the effects of a period of high temperature on the accumulation of grain dry matter and endosperm starch, protein and B-glucan in the developing grain of the malting barley variety Schooner. Bbarley plants are exposed to high temperatures during mid grain filling for 5 days. Grain growth characteristics are measured prior to, during and following the high temperature period, with the aim of characterising the high temperature response in developing grain. The activities of several enzymes and metabolities of the pathway of starch synthesis are monitored and compared to those in grains maintained at a lower temperature. In addition, grain structure is also compared between control and heat treated grain during development, at maturity and following malting.
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