Name the different types of plant hormones and write their functions
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Types of plant hormones and their functions
Auxin. This is the best known plant hormone and have many effects on the plant growth. ...
Gibberellin. These largely effects the shoots of the plants and have little or no effect on the roots. ...
Ethylene. It is the only gaseous growth hormone. ...
Abscisic Acid. It was discovered by Addicott and Wareing separately.
Auxin. This is the best known plant hormone and have many effects on the plant growth. ...
Gibberellin. These largely effects the shoots of the plants and have little or no effect on the roots. ...
Ethylene. It is the only gaseous growth hormone. ...
Abscisic Acid. It was discovered by Addicott and Wareing separately.
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Here five types of plant hormones:
Auxin
Cytokinins
Gibberellins
Abscisic Acid
Ethylene
Functions of these hormones.
Auxin
Scientists were interested in how plants respond to light; if plants don’t have eyes, how do they sense where light is and which way they should grow? It is a common observation that plants grow toward light, but for a long time no one knew why.
One of the first people to experiment with this concept was Charles Darwin, who along with his son, Francis, was interested in figuring out how plants respond to stimuli (in this case, light). They noticed that coleoptiles, which are sheaths that protect grass stems as they germinate, bend toward light. They tried covering the coleoptile with foil and found that when covered, the coleoptile didn’t bend. When uncovered, it bent again! From this the Darwins concluded that the tip of the grass coleoptile senses light.
Even though it doesn’t seem very exciting now, in the 1800s this was just as scandalous as Lady Gaga’s meat dress. The idea that plants could do something as brilliant as respond to their environment was shocking in an age when Man was exerting control on all things wild.
Later work by another scientist, Frits Went, determined that the signal responsible for bending toward light was a mobile chemical, and Went went ahead and gave it the name auxin. These days, auxin is sometimes referred to by its chemical name, indoleacetic acid (IAA).
Auxin does a couple different things in a plant, but its main role is to work with another type of hormone (cytokinins) to stimulate elongation of stems. If auxin is helping cells elongate, it is likely found in a place where a lot of new cells are forming. Where would that be? The shoot apical meristem, of course! The shoot apical meristem is a major source of auxin, but not the only one. Developing seeds also produce auxin, which leads to fruit development. When fruits such as tomatoes are grown inside greenhouses where there are no insect pollinators, synthetic auxins are used to help fruits develop normally.
Another commercial use of auxin is in the vegetative propagation of plants from cuttings. Instead of planting seeds, people can grow some plants by just cutting a leaf or stem; spraying the detached leaf or stem with auxin induces root production, and a whole new plant is formed.
Cytokinins.
Auxin helps cells elongate, but it doesn’t work alone. Auxin’s partner in crime is a class of hormones called cytokinins. Cytokinins promote cell division (cytokinesis) and are produced in roots, embryos and fruits, or wherever there is actively growing tissue. However, cytokinins need auxin to induce cell division. The ratio of cytokinins to auxin determines where cells will develop. If cytokinin levels increase, shoots form; if auxins increase, roots form. By themselves, cytokinins don’t cause any new tissues to form.
Cytokinins do a couple other things too: they help delay aging in plants by increasing the amount of new protein that is made and decreasing the amount of old protein that is demolished. Because of this, cytokinins are sprayed in flower shops to keep leaves green and cut flowers fresh.
Gibberellins.
Gibberellins are most important in stems, fruits and seeds. In stems, they work with auxin to cause stem elongation. Gibberellins and auxin also work in concert when fruit is developing. In fact, green seedless grapes are usually sprayed with gibberellins to make them bigger. Maybe that’s what Snooki sprays on her hair, too.
Seeds have the problem of not knowing when conditions are right for germination; after all, they don’t come with calendars and thermometers. Lucky for the seeds though, they do have lots of gibberellins, which are released after seeds take up water (perhaps after a heavy spring rain). After gibberellins are released, the outer layer of the endosperm releases digestive enzymes that break down nutrients in the endosperm. These nutrients feed the embryo as it germinates and grows into a seedling.
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Auxin
Cytokinins
Gibberellins
Abscisic Acid
Ethylene
Functions of these hormones.
Auxin
Scientists were interested in how plants respond to light; if plants don’t have eyes, how do they sense where light is and which way they should grow? It is a common observation that plants grow toward light, but for a long time no one knew why.
One of the first people to experiment with this concept was Charles Darwin, who along with his son, Francis, was interested in figuring out how plants respond to stimuli (in this case, light). They noticed that coleoptiles, which are sheaths that protect grass stems as they germinate, bend toward light. They tried covering the coleoptile with foil and found that when covered, the coleoptile didn’t bend. When uncovered, it bent again! From this the Darwins concluded that the tip of the grass coleoptile senses light.
Even though it doesn’t seem very exciting now, in the 1800s this was just as scandalous as Lady Gaga’s meat dress. The idea that plants could do something as brilliant as respond to their environment was shocking in an age when Man was exerting control on all things wild.
Later work by another scientist, Frits Went, determined that the signal responsible for bending toward light was a mobile chemical, and Went went ahead and gave it the name auxin. These days, auxin is sometimes referred to by its chemical name, indoleacetic acid (IAA).
Auxin does a couple different things in a plant, but its main role is to work with another type of hormone (cytokinins) to stimulate elongation of stems. If auxin is helping cells elongate, it is likely found in a place where a lot of new cells are forming. Where would that be? The shoot apical meristem, of course! The shoot apical meristem is a major source of auxin, but not the only one. Developing seeds also produce auxin, which leads to fruit development. When fruits such as tomatoes are grown inside greenhouses where there are no insect pollinators, synthetic auxins are used to help fruits develop normally.
Another commercial use of auxin is in the vegetative propagation of plants from cuttings. Instead of planting seeds, people can grow some plants by just cutting a leaf or stem; spraying the detached leaf or stem with auxin induces root production, and a whole new plant is formed.
Cytokinins.
Auxin helps cells elongate, but it doesn’t work alone. Auxin’s partner in crime is a class of hormones called cytokinins. Cytokinins promote cell division (cytokinesis) and are produced in roots, embryos and fruits, or wherever there is actively growing tissue. However, cytokinins need auxin to induce cell division. The ratio of cytokinins to auxin determines where cells will develop. If cytokinin levels increase, shoots form; if auxins increase, roots form. By themselves, cytokinins don’t cause any new tissues to form.
Cytokinins do a couple other things too: they help delay aging in plants by increasing the amount of new protein that is made and decreasing the amount of old protein that is demolished. Because of this, cytokinins are sprayed in flower shops to keep leaves green and cut flowers fresh.
Gibberellins.
Gibberellins are most important in stems, fruits and seeds. In stems, they work with auxin to cause stem elongation. Gibberellins and auxin also work in concert when fruit is developing. In fact, green seedless grapes are usually sprayed with gibberellins to make them bigger. Maybe that’s what Snooki sprays on her hair, too.
Seeds have the problem of not knowing when conditions are right for germination; after all, they don’t come with calendars and thermometers. Lucky for the seeds though, they do have lots of gibberellins, which are released after seeds take up water (perhaps after a heavy spring rain). After gibberellins are released, the outer layer of the endosperm releases digestive enzymes that break down nutrients in the endosperm. These nutrients feed the embryo as it germinates and grows into a seedling.
Hope this help uuu
Mark as brainliest plz
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