lolol seriously
so this canada breeder knows all the secrets to this beloved herb, and everyone else dont know shit
and ice water - why would you want to shock the roots like that, i dont see ANYTHING positive out of coming out of that.
serious motherlode, old wives tales at its finest
i hear driving a nail through the stalk will make it more potent too LOLOL
Ethylene as a plant hormone
Ethylene serves as a hormone in plants. It acts at trace levels throughout the life of the plant by stimulating or regulating the ripening of fruit, the opening of flowers, and the abscission (or shedding) of leaves. Commercial ripening rooms use "catalytic generators", to make ethylene gas, from a liquid supply of ethanol. Typically, a gassing level of 500 ppm to 2,000 ppm is used, for 24 to 48 hours. Care must be taken to control carbon dioxide levels in ripening rooms when gassing, as high temperature ripening (68F) has been seen to produce CO2 levels of 10% in 24 hours.
Ethylene biosynthesis in plants
Plant biosynthesis of ethylene
Ethylene is produced from essentially all parts of higher plants, including leaves, stems, roots, flowers, fruits, tubers, and seedlings.
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Ethylene production is regulated by a variety of developmental and environmental factors. During the life of the plant, ethylene production is induced during certain stages of growth such as germination, ripening of fruits, abscission of leaves, and senescence of flowers. Ethylene production can also be induced by a variety of external aspects such as mechanical wounding, environmental stresses, and certain chemicals including auxin and other regulators".
The biosynthesis of the hormone starts with conversion of the amino acid methionine to S-adenosyl-L-methionine (SAM, also called Adomet) by the enzyme Met Adenosyltransferase. SAM is then converted to 1-aminocyclopropane-1-carboxylic-acid (ACC) by the enzyme ACC synthase (ACS); the activity of ACS dertermines the rate of ethylene production, therefore regulation of this enzyme is key for the ethylene biosynthesis. The final step requires oxygen and involves the action of the enzyme ACC-oxidase (ACO), formerly known as the Ethylene Forming Enzyme (EFE). Ethylene biosynthesis can be induced by endogenous or exogenous ethylene. ACC synthesis increases with high levels of auxins, specially Indole acetic acid (IAA), and cytokinins. ACC synthase is inhibited by abscisic acid.
Ethylene perception in plants
Ethylene could be perceived by a transmembrane protein dimer complex. The gene encoding an ethylene receptor has been cloned in Arabidopsis thaliana and then in tomato. Ethylene receptors are encoded by multiple genes in the Arabidopsis and tomato genomes. The gene family comprises five receptors in Arabidopsis and at least six in tomato, most of which have been shown to bind ethylene. DNA sequences for ethylene receptors have also been identified in many other plant species and an ethylene binding protein has even been identified in Cyanobacteria.
Environmental and biological triggers of ethylene
Environmental cues can induce the biosynthesis of the plant hormone. Flooding, drought, chilling, wounding, and pathogen attack can induce ethylene formation in the plant. In flooding, root suffers from lack of oxygen, or anoxia, which leads to the synthesis of 1-Aminocyclopropane-1-carboxylic acid (ACC). ACC is transported upwards in the plant and then oxidized in leaves. The product, the ethylene causes epinasty of the leaves.
One speculation recently put forth for epinasty is the downward pointing leaves may act as pump handles in the wind. The ethylene may or may not additionally induce the growth of a valve in the xylem, but the idea would be that the plant would harness the power of the wind to pump out more water from the roots of the plants than would normally happen with transpiration.
Physiological responses of plants
Like the other plant hormones, ethylene is considered to have pleiotropic effects. This essentially means that it is thought that at least some of the effects of the hormone are unrelated. What is actually caused by the gas may depend on the tissue affected as well as environmental conditions. In the evolution of plants, ethylene would simply be a message that was coopted for unrelated uses by plants during different periods of the evolutionary development.
List of plant responses to ethylene
* Seedling triple response, thickening and shortening of hypocotyl with pronounced apical hook. This is thought to be a seedling's reaction to an obstacle in the soil such a stone, allowing it to push past the obstruction.
* In pollination, when the pollen reaches the stigma, the precursor of the ethylene, ACC, is secreted to the petal, the ACC releases ethylene with ACC oxidase.
* Stimulates leaf and flower senescence
* Stimulates senescence of mature xylem cells in preparation for plant use
* Inhibits shoot growth except in some habitually flooded plants like rice
* Induces leaf abscission
* Induces seed germination
* Induces root hair growth – increasing the efficiency of water and mineral absorption
* Induces the growth of adventitious roots during flooding
* Stimulates epinasty – leaf petiole grows out, leaf hangs down and curls into itself
* Stimulates fruit ripening
* Induces a climacteric rise in respiration in some fruit which causes a release of additional ethylene. This can be the one bad apple in a barrel spoiling the rest phenomenon.
* Affects neighboring individuals
* Affects gravitropism
* Stimulates nutational bending
* Disease/wounding resistance
* Inhibits stem growth outside of seedling stage
* Stimulates stem and cell broadening and lateral branch growth also outside of seedling stage
* Interference with auxin transport (with high auxin concentrations)
* Inhibits stomatal closing except in some water plants or habitually flooded ones such as some rice varieties, where the opposite occurs (conserving CO2 and O2)
* Where ethylene induces stomatal closing, it also induces stem elongation
* Induces flowering in pineapples
This also brings to mind certain products that are out there that are supposed to stimulate plant defense mechanisms....Chi by
General Hydroponics, Scorpion Juice, YEA! < thats actually a product...anyway you get my point.
Trichomes are a plant defense mechanism. Look it up if you dont believe me. Main point im trying to make is we should not be so quick to write things off as "Old Wives Tales" so fast just because we dont understand what is actually going on.
It kind of makes sense to me that our beloved plant that has been here on the earth for so long has the tools and know how to make it in enviorments that are HOT, COLD, INFESTED, FLOODING, etc...idk about your plants but some of mine are fuckin GANGSTA with it. They go through it all at some point in time and keep on walkinandrollin...im jus sayin though