Wednesday, April 24, 2019
Effect of cold stress on photosynthesis in barley Essay
Effect of cold stress on photo subtraction in barleycorn - Essay ExampleConsequently, it may be referred to as the process by which light energy is reborn into chemical energy and stored in sugar bonds in yard plants. Basic photosynthetic knowledge notes that green plants breath in ampere-second dioxide during the day and combines the said molecules to those of water molecules especially hydrogen in the synthesis of nutrients. Consequently, in green plants, photosynthesis involves the use of the chlorophyll green pigment that is found in the leaves or stems of such(prenominal) plants. As resultant by-product for the photosynthesis process is usually oxygen. In this context, plants are usually termed as crucial purifiers of air. However, since photosynthesis is a process that takes place in the presence of sunlight, it does not occur during the night (Eaton-Rye, Baishnab & Thomas 66). As such, plants take in oxygen during the night and release carbon dioxide. As a topic, the study of photosynthesis is curiously of interest to farmers and scientists. Factors that may affect the prescribe of photosynthesis Basically, there are three main factors that are cognise to have an effect on the rate of photosynthesis. They include i. Light intensity ii. Carbon dioxide iii. Temperature In this discussion, I will illustrate how each affects the rate of photosynthesis. i. ... From this graph, it is evident that there is a significant accession in rate of photosynthesis between point A and B. however, after point B, the rate begins to even up and later becomes unending up to point C. Within these two points (B and C), there is no effect on photosynthesis rate withal with an increase in the intensity of light. Consequently, too much light intensity may damage the chloroplast of leaves hence, the strategic arrangement of leaves in a plant without any overlaps (Kalman 25). ii. Carbon dioxide The rate of photosynthesis linearly increases with an increase in the concent ration amount of carbon dioxide available to a plant. Scientifically, the earth is composed of a varying carbon dioxide amount of between 0.03% and 0.04%. Therefore, a high concentration of it will lead to higher photosynthetic rates. However, this increase is up to a particular point, from which it begins to decline and ultimately becomes constant. This is as shown in the graph below. In this graph, points A to B indicate an increase in rate of photosynthesis, while points B to C indicate the decline and constant level of the same. iii. Temperature With this factor, the higher the rate of temperature the greater will be the photosynthesis rate. Since photosynthesis is a chemical process, its rate will increase with higher temperatures as most of the other chemical process. However, the increase in temperatures beyond 400C, will lead to the rate of photosynthesis beginning to decline or slow down. The reason for this is that enzymes responsible for photosynthetic chemical process ar e sensitive to temperatures hence, destroyed at high/extreme temperatures levels. Consequently, it should be
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