Sunday, March 8, 2020
How the Photosynthetic Process Works in Trees
How the Photosynthetic Process Works in Trees Photosynthesis is an important process that permits plants, including trees, to use their leaves to trap the suns energy in the form of sugar. The leaves then store the resulting sugar in cells in the form of glucose for both immediate and laterà tree growth. Photosynthesis represents a beautifully wonderful chemical process in which six molecules of water from roots combine with six molecules of carbon dioxide from the air and creates one molecule of organic sugar. Of equal importance is the by-product of this process- photosynthesis is what produces oxygen. There would be no life on earth as we know it without the photosynthetic process.à The Photosynthetic Process in Trees The term photosynthesis means putting together with light. It is a manufacturing process that happens within cells of plants and within tiny bodies called chloroplasts. These plastids are located in the cytoplasm of leaves and they contains the green coloring matter called chlorophyll. When photosynthesis takes place, water that has been absorbed by the trees roots is carried to leaves where it comes in contact with the layers of chlorophyll. At the same time, air, containing carbon dioxide, is taken into leaves via leaf pores and exposed to sunlight, resulting in a very important chemical reaction. Water is broken down into its oxygen and nitrogen elements, and it combines with carbon dioxide in the chlorophyll to form sugar. This oxygen released by trees and other plants becomes a part of the air we breath, while the glucose is carried to the other parts of the plant as nourishment. This essential process is what will make of 95 percent of the mass in a tree, and photosynthesis by trees and other plants is what contributes nearly all the oxygen in the air we breathe.à Here is theà chemical equation for the process of photosynthesis: 6 molecules of carbon dioxide 6 molecules of water light ââ â glucose oxygen The Importance of Photosynthesis Many processes occur in a tree leaf, but none more important than photosynthesis and the resulting food it manufactures and the oxygen ità produces as a byproduct. Through the magic of green plants, the radiant energy of the sun is captured in a leafs structure and made available to all living things. Except for a few kinds of bacteria, photosynthesis is the only process on earth by which organic compounds are constructed from inorganic substances, resulting in stored energy.à Roughly 80 percent of the earths total photosynthesis is produced in the ocean. Its estimated that 50 to 80 percent of the worlds oxygen is generated by ocean plant-life, but the critical remaining portion is generated by terrestrial plant life, particular the earths forestsà à So the pressure is constantly on the terrestrial plant world to keep up the pace. The loss of the worlds forests has far-reaching consequences in terms of the compromising the percentage of oxygen in the earths atmosphere. And because the process of photosynthesis consumes carbon dioxide, trees, and other plant life, are a means by which the earth scrubs out carbon dioxide and replaces it with pure oxygen. It is quite critical for cities to maintain a healthy urban forest in order to maintain good air quality.à Photosynthesis and The History of Oxygen Oxygen has not always been present on earth. The earth itself is estimated to be aroundà 4.6à billion years old, but scientists studying geologic evidence believe that oxygen first appeared about 2.7 billion years ago, when microscopic cyanobacteria, otherwise known as blue-green algae, developed the ability to photosynthesize sunlight into sugars and oxygen. It took roughly a billion more years for enough oxygen to collect in the atmosphere to support early forms of terrestrial life.à It is unclear just what happened 2.7 billion years ago to cause cynobacteria to develop the process that makes life on earth possible. It remains one of sciences most intriguing mysteries.
Subscribe to:
Post Comments (Atom)
No comments:
Post a Comment
Note: Only a member of this blog may post a comment.