Kygiacomo!!!
AppAlachiAn OutLaW
yup - i tried some sample bags of it but it's too expensive otherwise - i don't think it's worth it
chitosan i been doing alot of research on it for its SAR effect. i dont think its to expensive,especially if it saves my crops from botrytis cincerna. that shit took pounds off my last year. 60$ to save 21 plants is a very cheap investment imo. im a guerilla grower so i cant have the perfect enviroment. chitosan is the active ingrediant in bud factor x as well which is why it works so well,but i seen some reveiws last nite a guy did a side by side with frass and BFX and the frass won. the trichs are freakishly long when the frass is used. which makes sense bc it activates the plants own immune system and trichcomes are part of its defense. i will for sure keep chitosan in my stable and will never not grow without it again. chitosan also inhibits botrytis cinerna aka bud rot spore from being able to germinate by bursting the outer cell wall. i will be trying Chitosan oligosaccharide powder which is alot more potent then exoskeleton of crustaceans and insect form. i already bought the frass so i will mix in the soil. i will use the powder in folair sprays. its alot cheaper then frass and crustaceans as well.
How does the level of THC in marijuana increase?
As the level of THC production up to a marijuana plant is defined by their genetics, you can not increase your level beyond the breaking point, however, maximum production is rarely achieved; then it is possible to stimulate the plant to reach its optimal level of production. The goal is to increase resin production in the plant, which will increase the total amount of THC.
For that we can, for example, practice a slight water stress at the end of flowering. Dryness favours the formation of the ground resin.
Cannabinoid extraction
Cannabinoid extraction
As the resin is the primary means of defense of the marijuana plant, we can optimize production stimulating the systemic acquired resistance of the plant with the help of stimulating natural defenses (SDN). We can mention, for example, exogenous elicitors as laminarin, oligosaccharide famines seaweed extract (Laminaria digitata) or chitosan from crustacean shells.
There are also mimetic molecules and enhancers like phytohormones, such as Methyl jasmonate derivative Jasmine essential oil, or salicylic acid or abscisic acid. To finish we can use stimulators of vitality, such as vitamins B1 (thiamine), B2 (riboflavin), and C (ascorbic acid).
http://www.alchimiaweb.com/blogen/cannabinoids-and-their-medicinal-properties/
"Chitosan is a one of the most abundant natural amino polysaccharides extracted from the exoskeleton of crustaceans and insect, from fungal cell walls"
http://medcraveonline.com/APAR/APAR-01-00006.php
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2866471/
Conclusion
After various recent research findings, chitosan has applications in numerous fields, as described in many review articles. This naturally occurring molecule with interesting antimicrobial and eliciting properties has been getting more attention in recent years. This molecule can be used in a number of ways to reduce plant disease levels and prevent the development and spread of diseases, thus preserving crop yield and quality. The potent effect of chitosan on plant diseases control is from its antimicrobial properties and plant innate immunity elicited activity. The antimicrobial activity is influenced by several factors, such as MW, DDA, solubility, positive charge density, chemical modification, pH, concentration, chelating capacity and type of micro-organism. Chitosan has also become a postharvest promising treatment for fruits due to its natural character, antimicrobial activity and elicitation of defence responses. In spite of the chitosan advantages, the poor solubility of chitosan is the major limiting factors in its utilization. Therefore, several researchers have started to modify a chitosan molecule to produce high-antimicrobial active derivatives COS. Our review suggests that chitosan and COS can be used as potent antibacterial molecule in biological systems.
Last edited: