False, Auxins tend to increase stem length.
Auxins which are plant hormones.
Auxins
it dose not affect it. the thing that affects it is hormones, the hormones in a plant are the mane contributor to tropism
auxins. These hormones are responsible for promoting cell elongation on the shaded side of the plant, causing it to bend towards the light source in a process known as phototropism.
Auxins and gibberellins are plant hormones that can influence parthenocarpy, the production of fruit without fertilization. Auxins promote cell division and expansion, while gibberellins regulate fruit growth and development, both of which are important for parthenocarpy to occur.
Auxins are plant hormones, typically growth regulators.
Auxins which are plant hormones.
Auxins, cytokinins and gibberellins
Auxins
preventing from scencences
Auxins and gibberellins are plant hormones involved in regulating growth and development processes. Auxins are responsible for cell elongation, root formation, and apical dominance, while gibberellins promote stem elongation, seed germination, and flowering.
it dose not affect it. the thing that affects it is hormones, the hormones in a plant are the mane contributor to tropism
auxins. These hormones are responsible for promoting cell elongation on the shaded side of the plant, causing it to bend towards the light source in a process known as phototropism.
Auxins and gibberellins are plant hormones that can influence parthenocarpy, the production of fruit without fertilization. Auxins promote cell division and expansion, while gibberellins regulate fruit growth and development, both of which are important for parthenocarpy to occur.
The powder helps plant to grow because it contains plant hormones called auxins. Auxins cause the new cells produces by the base of the shoot meristem to develop into roots.
Auxins are hormones found in the tips of shoots and roots of plants, as well as in young leaves, flowers, and developing seeds. They help regulate plant growth and development by influencing cell elongation and differentiation.
Higher concentration of auxins in the axillary buds does not allow these buds to grow hence there is apical dominance.