In the picture we can see that Gibberellin is the only one that is in charge of germination, and is the one that have more functions. Auxin and Cytokinins share the same functions, growth to maturity, flowering and fruit development, Ethylene share two of them, flowering and fruit development, but it have another different function, that is abscission. The last one, that is Abscisid acid only have two function, Abscission, and also is the only one that do seed dormancy.
My opinion on the hormones of plants seems very interesting to me since it surprised me how each one of them works, the hormones are gibberelling, for example germination, growth to maturity, flowering, fruit development and the hormone Cytoquinins share the same conditions as well as there are other hormones like auxin, ethylene, abscisic asic that cover common places but also take care of others
Plant Hormones Th Gibberellin hormone has some characteritics that can also be found in other hormones for example: It share the germination, Growth to maturity, flowering and fruit development with the auxin and cytokinins. It share the flowering and fruit development with the Ethylene which also have the characteristic of the abscission.
Finally the abcisic acid have the two characteristics of the abscission and the seed dormancy.
in my own opinion , the different characteristics of the plant hormones, gibberelling, Auxin, and cytokinesis have the same characteristics speaking of growth to maturity, Gibberelling, Auxin , cytikinesis and Ethylene have the same characteristics speaking of flowering and fruit development, gibberelling, Auxin, and cytokinesis don't share the characteristics in abcission and seed dormancy have in account Ethylene, abscisis acid It is the one that least shares characteristics, there are only one abscission , and is the only that have the characteristic of seed dormancy.that's characteristics are very important because Plant hormones as signal molecules regulate cellular processes in targeted cells locally and when moved to other locations of the plant. They also determine the formation of the root, stem, leaf, and flower and facilitate the shedding of leaves and the development and ripening of fruits.
The gibberellin helps with almost all of the functions being the one that has more functions. The abscisic acid is the one who has less function helping with abscission and being the only one who helps with seed dormancy, also cytokinins an ethylene have almost the same function
Gibberellins play an crucial role in numerous developmental degrees in plants, however their claim to reputation is making stems longer. Gibberellins promote stem elongation among nodes on the stem.
Auxin is a plant hormone produced inside the stem tip that promotes mobile elongation.
cytokinins is category of plant increase substances that promote cell division, or cytokinesis, in plant roots and shoots.
Ethylene is a hormone that affects the ripening and flowering of many plants. It it extensively used to manipulate the freshness in horticulture and fruits.
abscisid acid Is a plant hormone which capabilities in particular as a growth inhibitor. Abscisic acid promotes the dormancy in seeds and buds. It additionally promotes last of stomata.
First, plant hormones, or phytohormones, are substances produced by plant cells located mainly in the leaves of the plant. In the image you can see how these hormones work in some types of plants and others not like Gibberellin that can be seen in plants such as germination, growth to maturity, flowering and fruit development which is the most common in all plants since it helps the seed grows and germinates and is a plant.
Taking into account that the plants are an important storage of natural energy and oxygen, their cells and hormones won`t be less productive. There are 5 plant hormones in order to accomplish all duties required by a plant to survive and gather as much energy as possible and grow. The first hormone is called Gibberellin and it is basically faced to the growth and development of the plant. Auxin and Cytokinins are both related to the development of the plant as it can be the growth of flowers and fruits. The fourth hormone is Ethylene and it helps growing fruits and flowers but it also goes forward the action of abscize a part of the plant. The Abscisic Acid also helps doing abscission and helps in the seed dormancy required for the survival of the species and the plant itself.
the gibberellin is a hormone that takes part in four things, the germination, the growth, the flowering and the fruit development. the auxin takes place in the growth, the flowering and the fruit development. the cytokinins takes place in the same parts of the auxin. the ethyline takes part in the production of flowers and fruits. finally the abscisic acid takes part in the abscission and the seed dormancy
The image makes it clearer to us what kind of hormones are in some examples of plants and fruits / leaflets. We define it with characteristics, the hormone that has more properties is gibberellin, while the abscisic acid is the one that has less, which has the property of laciscission and seed dormancy. We note that the hormones auxin and cytokinins do the same, which in general is to grow and create food, and lastly there is ethylene, which is mixed with some properties of the hormones auxin and cytokinins and with one of the hormone Abscisic acid.
in the image we can see that the gibberin is in most of the development exepct in absccion and seed dormancy. in auxin we can see that is in 3 of they except in germination, absccion and seed dormancy as the same as cytokinins in ethylene we can see that is in flowering, fruit development and abscission and in abscisic acid in is in the last two ones
In this image we can see that auxin and cytokinesis share the same growth functions until maturity, flowering and fruit development and that gibberellin is the only one in charge of germination and, finally, abscisidic acid has only one abscission. of two functions and is also the only one. make seed dormancy
the hormones in the plant have a essential funtion in the growth of the plant, like the auxin that synthesized at stem tips and give to the plant the ability to grow towars the light, the gibberellins that required for plants to germinate, the cytokinin that counters senescence, the ethylene that inhibits the expansion of leaves and allows the chute to dig upwards and finally the abscisic acid that makes lives closed their stomata to prevent water loss.
Gibberelin is the one which have multiples functions and help germinates. Cytokinins and auxin are the ones that have the same multiples functions and abscsic Acid is the one with only 2 fuctions
When talking about plant hormones we can find that there are some with the same characteristics such as cyberelin, auxin and cytokinins and it can be said that they have growth to maturity, flowering and fruit development in common, but we also find those that that have different characteristics but can be related to one or two in common which are in the case of ethylene with flowering, fruit development and abscission which has in common abscission with abscisic acid and which in turn has seed domancy
The hormone Gibberellin in the plant contains germination,growth into a mature plant,flowering and fruit development however in its functions it does not contain rescission and seed dormancy.
In the hormone Auxin growth to maturity, flowering and fruit development are some of their functions but things like germination,abscission and seed dormancy are not one of the functions in this hormone.
The cytokinins contains the same functions as the hormone Auxin which are growth to maturity, flowering and fruit development but it doesn't do germination, abscission and seed dormancy.
The hormone ethylene works in the plant so that the plant can have fruit development, flowering and abscission however it does not help it with germination, growth into maturity and seed dormancy.
The last hormone the Abscisic Acid only has two function which are the seed dormancy and abscission.
Plant hormones as signal molecules regulate cellular processes in targeted cells locally and when moved to other locations of the plant. They also determine the formation of the root, stem, leaf, and flower and facilitate the shedding of leaves and the development and ripening of fruits. CAMILA LEDEZMA
My opinion in general of this image is that eventhough the topic is nit quite difficult can confuse a bit, and this make it truly easier to be learn and to have clear which hormones has similar functions and which ones are its particularities: For example we can find that auxin,cytokinin, and Gibberellin Has the same functions in taking the plant to hrowth maturity,with the flowers,fruit development but in addition Gibberellin is in charge of germination and the only one,also we have Ethylene which is also in charge of flowering fruit development and has kind of a control role with the abscission and finally abscisic acid is in charge of abscission too as a differrent and unique seed dormancy Luisa Gutiérrez
In the picture we have THAT ANYONE of the hormones share all a same function. For example we have THAT the glibberellin does a lot of functions on the plant AND one THAT is unique, the germination of the seed, the auxin do the same as the cytokinins such as: grow maturity, flowering, fruit development, then we have THAT the abscisic acid Does one function THAT only he can do THAT is the seed dormacy, and Shares the abcission with the ethylene. Daniel rivera
In this picture isillustrated how the hormones oof the plant are active in some steps in all the process of the plants.
When the seed is germinating the hormone of gibberellin is active.
In the growh to the maturity of the plant are active the Gibberellin, the Auxin and the Cytokinins.
In the flowering are active the previous three, and Enthylene, and this same four hormones are active to in the fruit development.
Then in the abscission are only active the Ethylene and Abscisic Acid hormones. And in the seed dormancy is only active the Abscisic Acid.
In the first four steps of the plant is active the Gibberellin because the plant need use that hormone for the development and growth of him, the other hormnoes are for the process and health of the plant.
The two last hormones are use when the plant is decressing and inherit seeds of him.
Plant hormones:Auxin and cytokinis do the same,auxin is the hormone that allow plants to towards the light,this is called phototropism. Gibberellin: has more properties while the abscicic acid is the one that has less, Gibberellin is required for plant to germminate and promote elogation of internodes.We can note that auxin and cytokinin do the same,cytokinin works with ethylene to cause the abscission of leaves,flowers and seeds,ethylene is important in germinating plants,production of flowers and fruits.
To me is super interesting the way that each part of the plants have similarities with other parts , like the auxin and the cytokinins that are so similar because they make the same function :it help at the growth to maturity, help to flowering and at the fruit development. We have also the gibberellin make the same at he auxin and it also help in the germination of the plant , final the abscisión acid help just for the abscisión and seed domancy this help that the plant make like the baby’s.-Herrera.
In this image we can see how the hormone "Gibberellin" takes place in almost all the plant activities, its one of the most important ones since it does almost all the plant activities. Hormones like the Auxin, Cytokinins and the Abscisic Acid, have two activities in common which are: the fruit development and the flowering. The only hormone that can do seed dormancy is the Abscisic Acid.
In the picture we can see that Gibberellin is the only one that is in charge of germination, and is the one that have more functions. Auxin and Cytokinins share the same functions, growth to maturity, flowering and fruit development, Ethylene share two of them, flowering and fruit development, but it have another different function, that is abscission. The last one, that is Abscisid acid only have two function, Abscission, and also is the only one that do seed dormancy.
ResponderEliminarwe can see that the "Gibberellin" works in almost all the functions, meanwhile the other not
ResponderEliminarit´s like the opposite of the "abscisic acid" because the abscicic acid complement the functions that "Gibberellin" doesn´t do
EliminarEste comentario ha sido eliminado por el autor.
ResponderEliminarMY OPINION
ResponderEliminarMy opinion on the hormones of plants seems very interesting to me since it surprised me how each one of them works, the hormones are gibberelling, for example germination, growth to maturity, flowering, fruit development and the hormone Cytoquinins share the same conditions
as well as there are other hormones like auxin, ethylene, abscisic asic that cover common places but also take care of others
Julio Tamayo
Plant Hormones
ResponderEliminarTh Gibberellin hormone has some characteritics that can also be found in other hormones for example:
It share the germination, Growth to maturity, flowering and fruit development with the auxin and cytokinins. It share the flowering and fruit development with the Ethylene which also have the characteristic of the abscission.
Finally the abcisic acid have the two characteristics of the abscission and the seed dormancy.
in my own opinion , the different characteristics of the plant hormones, gibberelling, Auxin, and cytokinesis have the same characteristics speaking of growth to maturity, Gibberelling, Auxin , cytikinesis and Ethylene have the same characteristics speaking of flowering and fruit development, gibberelling, Auxin, and cytokinesis don't share the characteristics in abcission and seed dormancy have in account Ethylene, abscisis acid
ResponderEliminarIt is the one that least shares characteristics, there are only one abscission , and is the only that have the characteristic of seed dormancy.that's characteristics are very important because Plant hormones as signal molecules regulate cellular processes in targeted cells locally and when moved to other locations of the plant. They also determine the formation of the root, stem, leaf, and flower and facilitate the shedding of leaves and the development and ripening of fruits.
The gibberellin helps with almost all of the functions being the one that has more functions. The abscisic acid is the one who has less function helping with abscission and being the only one who helps with seed dormancy, also cytokinins an ethylene have almost the same function
ResponderEliminarGibberellins play an crucial role in numerous developmental degrees in plants, however their claim to reputation is making stems longer. Gibberellins promote stem elongation among nodes on the stem.
ResponderEliminarAuxin is a plant hormone produced inside the stem tip that promotes mobile elongation.
cytokinins is category of plant increase substances that promote cell division, or cytokinesis, in plant roots and shoots.
Ethylene is a hormone that affects the ripening and flowering of many plants. It it extensively used to manipulate the freshness in horticulture and fruits.
abscisid acid Is a plant hormone which capabilities in particular as a growth inhibitor. Abscisic acid promotes the dormancy in seeds and buds. It additionally promotes last of stomata.
im juan sebastian valencia alvarez
EliminarFirst, plant hormones, or phytohormones, are substances produced by plant cells located mainly in the leaves of the plant.
ResponderEliminarIn the image you can see how these hormones work in some types of plants and others not like Gibberellin that can be seen in plants such as germination, growth to maturity, flowering and fruit development which is the most common in all plants since it helps the seed grows and germinates and is a plant.
Taking into account that the plants are an important storage of natural energy and oxygen, their cells and hormones won`t be less productive. There are 5 plant hormones in order to accomplish all duties required by a plant to survive and gather as much energy as possible and grow. The first hormone is called Gibberellin and it is basically faced to the growth and development of the plant. Auxin and Cytokinins are both related to the development of the plant as it can be the growth of flowers and fruits. The fourth hormone is Ethylene and it helps growing fruits and flowers but it also goes forward the action of abscize a part of the plant. The Abscisic Acid also helps doing abscission and helps in the seed dormancy required for the survival of the species and the plant itself.
ResponderEliminarplant hormones
ResponderEliminarthe gibberellin is a hormone that takes part in four things, the germination, the growth, the flowering and the fruit development. the auxin takes place in the growth, the flowering and the fruit development. the cytokinins takes place in the same parts of the auxin. the ethyline takes part in the production of flowers and fruits. finally the abscisic acid takes part in the abscission and the seed dormancy
The image makes it clearer to us what kind of hormones are in some examples of plants and fruits / leaflets. We define it with characteristics, the hormone that has more properties is gibberellin, while the abscisic acid is the one that has less, which has the property of laciscission and seed dormancy.
ResponderEliminarWe note that the hormones auxin and cytokinins do the same, which in general is to grow and create food, and lastly there is ethylene, which is mixed with some properties of the hormones auxin and cytokinins and with one of the hormone Abscisic acid.
in the image we can see that the gibberin is in most of the development exepct in absccion and seed dormancy.
ResponderEliminarin auxin we can see that is in 3 of they except in germination, absccion and seed dormancy as the same as cytokinins
in ethylene we can see that is in flowering, fruit development and abscission
and in abscisic acid in is in the last two ones
In this image we can see that auxin and cytokinesis share the same growth functions until maturity, flowering and fruit development and that gibberellin is the only one in charge of germination and, finally, abscisidic acid has only one abscission. of two functions and is also the only one. make seed dormancy
ResponderEliminarthe hormones in the plant have a essential funtion in the growth of the plant, like the auxin that synthesized at stem tips and give to the plant the ability to grow towars the light, the gibberellins that required for plants to germinate, the cytokinin that counters senescence, the ethylene that inhibits the expansion of leaves and allows the chute to dig upwards and finally the abscisic acid that makes lives closed their stomata to prevent water loss.
ResponderEliminarGibberelin is the one which have multiples functions and help germinates.
ResponderEliminarCytokinins and auxin are the ones that have the same multiples functions
and abscsic Acid is the one with only 2 fuctions
When talking about plant hormones we can find that there are some with the same characteristics such as cyberelin, auxin and cytokinins and it can be said that they have growth to maturity, flowering and fruit development in common, but we also find those that that have different characteristics but can be related to one or two in common which are in the case of ethylene with flowering, fruit development and abscission which has in common abscission with abscisic acid and which in turn has seed domancy
ResponderEliminarThe hormone Gibberellin in the plant contains germination,growth into a mature plant,flowering and fruit development however in its functions it does not contain rescission and seed dormancy.
ResponderEliminarIn the hormone Auxin growth to maturity, flowering and fruit development are some of their functions but things like germination,abscission and seed dormancy are not one of the functions in this hormone.
The cytokinins contains the same functions as the hormone Auxin which are growth to maturity, flowering and fruit development but it doesn't do germination, abscission and seed dormancy.
The hormone ethylene works in the plant so that the plant can have fruit development, flowering and abscission however it does not help it with germination, growth into maturity and seed dormancy.
The last hormone the Abscisic Acid only has two function which are the seed dormancy and abscission.
Plant hormones as signal molecules regulate cellular processes in targeted cells locally and when moved to other locations of the plant. They also determine the formation of the root, stem, leaf, and flower and facilitate the shedding of leaves and the development and ripening of fruits. CAMILA LEDEZMA
ResponderEliminarMy opinion in general of this image is that eventhough the topic is nit quite difficult can confuse a bit, and this make it truly easier to be learn and to have clear which hormones has similar functions and which ones are its particularities:
ResponderEliminarFor example we can find that auxin,cytokinin, and Gibberellin Has the same functions in taking the plant to hrowth maturity,with the flowers,fruit development but in addition Gibberellin is in charge of germination and the only one,also we have Ethylene which is also in charge of flowering fruit development and has kind of a control role with the abscission and finally abscisic acid is in charge of abscission too as a differrent and unique seed dormancy
Luisa Gutiérrez
In the picture we have THAT ANYONE of the hormones share all a same function. For example we have THAT the glibberellin does a lot of functions on the plant AND one THAT is unique, the germination of the seed, the auxin do the same as the cytokinins such as: grow maturity, flowering, fruit development, then we have THAT the abscisic acid Does one function THAT only he can do THAT is the seed dormacy, and Shares the abcission with the ethylene.
ResponderEliminarDaniel rivera
In this picture isillustrated how the hormones oof the plant are active in some steps in all the process of the plants.
ResponderEliminarWhen the seed is germinating the hormone of gibberellin is active.
In the growh to the maturity of the plant are active the Gibberellin, the Auxin and the Cytokinins.
In the flowering are active the previous three, and Enthylene, and this same four hormones are active to in the fruit development.
Then in the abscission are only active the Ethylene and Abscisic Acid hormones. And in the seed dormancy is only active the Abscisic Acid.
In the first four steps of the plant is active the Gibberellin because the plant need use that hormone for the development and growth of him, the other hormnoes are for the process and health of the plant.
The two last hormones are use when the plant is decressing and inherit seeds of him.
Plant hormones:Auxin and cytokinis do the same,auxin is the hormone that allow plants to towards the light,this is called phototropism.
ResponderEliminarGibberellin: has more properties while the abscicic acid is the one that has less, Gibberellin is required for plant to germminate and promote elogation of internodes.We can note that auxin and cytokinin do the same,cytokinin works with ethylene to cause the abscission of leaves,flowers and seeds,ethylene is important in germinating plants,production of flowers and fruits.
To me is super interesting the way that each part of the plants have similarities with other parts , like the auxin and the cytokinins that are so similar because they make the same function :it help at the growth to maturity, help to flowering and at the fruit development. We have also the gibberellin make the same at he auxin and it also help in the germination of the plant , final the abscisión acid help just for the abscisión and seed domancy this help that the plant make like the baby’s.-Herrera.
ResponderEliminarIn this image we can see how the hormone "Gibberellin" takes place in almost all the plant activities, its one of the most important ones since it does almost all the plant activities. Hormones like the Auxin, Cytokinins and the Abscisic Acid, have two activities in common which are: the fruit development and the flowering. The only hormone that can do seed dormancy is the Abscisic Acid.
ResponderEliminar