Say no to dihydrogen oxide spraying on your local farmrs ---- spread the word --- bhbs student - name: unknown but is in form:arm and is awesome + called big sid and tatey and kibbs
Growth Promoters with the plants Hormones (regulators)
Auxins, cytokinins and gibberellins
preventing from scencences
Gibberellins are chemical substances that were isolated first from a fungus. Abscisic acid is the substace that keeps seeds from sprouting and buds from developing during the winter.
A plant that produces too little gibberellins may exhibit stunted growth, reduced stem elongation, and delayed flowering. Gibberellins are important plant hormones that regulate various developmental processes such as germination, stem growth, and flowering.
Gibberellins are primarily synthesized in the shoot tips of plants, particularly in the young leaves and developing seeds. Once produced, gibberellins are then transported to various parts of the plant to regulate growth and development processes.
Gibberellins
Gibberellins are used in agriculture to promote plant growth, increase fruit size, and induce seedless fruit formation in crops such as grapes and citrus fruits. They are also used in the production of malting barley to promote uniform germination. Additionally, gibberellins are used in the floral industry to induce flowering in certain plants out of their normal blooming season.
Abscisic acid inhibits seed germination, induces stomatal closure, and promotes dormancy to conserve water in plants, whereas gibberellins promote seed germination, stem elongation, and flowering by stimulating cell division and elongation. Gibberellins also counteract the effects of abscisic acid by promoting growth and development.
Gibberellin hormone is usually lacking in dwarf varieties of plants. Gibberellins are a group of plant hormones that regulate plant growth and development, and a deficiency can result in reduced elongation and a dwarf phenotype in plants.
Auxin
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.