In search of knowledge - advanced

whitenugz

Active Member
After my 2nd grow and alittle :bigjoint: of my ladies i thought back to everything that went on and everything made sense to me. Awesome, I got this growing thing down.
Nope, wtf is this curing shit. I got a ba in science so i'm straight with the lingo if you want to enlighten me.
Here is my ideas, experiences, knowledge, and questions on curing.

- CURING MAKE THE THC MORE _______ SO IT RELEASES THE THC MORE EASILY INTO YOUR BLOODSTREAM?
- I PICKED A BUD AND FAST DRIED IT SMOKED IT AND EH IT WAS OK; I DRIED, CURED, AND CURED AND GOOD GOD THAT SHIT WAS ON POINT. ( SAME PLANT SAME BUD SITE)
- AFTER LOOKING AT IT UNDER THE MICROSCOPE (100X) TYPICAL RADIO SHACK MAGNO THE TRICHOMES WERE BEAUTIFUL AND ALIVE, YET AFTER BEING CURED THEY WERE KINDA FALLEN OVER AND MORE DENSE.
- I DON'T FUCK WITH THOSE AMBER TRICHOMES SO I DON'T KNOW BOUT THAT JANK BESIDES IT MEANS THE THC TURNS TO SOME OTHER CHEMICAL CBD..THAT MAKES YOU STUPID (narcotic) IN PUBLIC. I LIKE TO FUNCTION.
-ONE OF MY LADIES HAD RED HAIRS AND I MEAN LIKE RED COTTON THREADS. NOT FROM MY VENTILATIONS B/C MY SHIT WAS FILTERED BOTH WAYS. THESE THREADS HAD A LITTLE TO ZERO PISTILS ON THEM.
- WHAT GOES ON IN THE TRICHS DURING THE CURING PROCESS? WHY DOES IT MAKE IT SO MUCH BETTER? WHY MUST I WAIT SO LONG FOR MY BABIES TO GIVE ME THE EFFECT I WANT?!?! DON'T TELL ME THERES NO DIFFERENCE B/C ONE LADY I HAD DIDN'T EVEN GET ME HIGH AFTER I SMOKED A LOT TO THE FACE FROM JUST OVERNIGHT DRYING; YET I SMOKED THE SAME GIRL A MONTH LATER AFTER CURING AND :twisted: MY EYES WERE AS RED AS THE DEVILS DICK.
AND I SWEAR THE LONGER I WAIT THE BETTER IT GETS TOO. whwyYWWYHWYWHYWHWYWHWY?????
i don't like waiting after they are ready! but its so much better if you do!
 

massmurda420

Well-Known Member
he said cureing makes the shit stink thru baggies thats why u use ziplocs
i buy stock in ziplocks not rlly but funny
 

Tricks

Well-Known Member
The Arjan Haze #1 was cured for 4 months before giving it to the judges in 2006 cannabiscup. I know one part of curing is to breakdown any chemicals left in the plant.
 

whitenugz

Active Member
that's when the sugers in the bud brake down. your slowly letting the bud to dry out.
The Arjan Haze #1 was cured for 4 months before giving it to the judges in 2006 cannabiscup. I know one part of curing is to breakdown any chemicals left in the plant.
More please. I know i'm letting the bud dry which makes the bud burn faster in your blunt/joint/glass, yes i know this. BUT, what about the curing when its kept inside a jar with no moisture to escape? what the f is going on in there? What is breaking down that slow, that essentially makes me more high, that makes such a big difference in the quality?

word to all that. curing makes the shit stink through the bag too ive found
It stinks so much it leaks through my mason jars.
I also found that it makes the high last so much longer. 1-2 hours when just dried. 3-4 hours easy when cured.

this is a question i would like seen answered in detailed.
Very very very specific details.
I took 3 years of chemistry, hit me with it!


sorry about the caps i just don't like curing; but i love it? <-- ya that confused me too. i'm frustrated with curing. I don't like the unknown so someone make it known to me, please!
 

SmokeMedprop215

Well-Known Member
i'd imagine it would have to do with the breakdown of the clorophyll and something to do with the sugar as well just like with wine you are basically furmenting your pot but I'm sure there is a better answer as far as being scientifically correct...
 

whitenugz

Active Member
i'd imagine it would have to do with the breakdown of the clorophyll and something to do with the sugar as well just like with wine you are basically furmenting your pot but I'm sure there is a better answer as far as being scientifically correct...
Thats exactly what i was thinking but wine is much different than herb i would imagine. I did break open a 5g bottle of wine, mad old, once at a friends house. I had no idea it was 5g's till i had to pay for it but it was the shitttttt shittt shitt. i sharted on myself 5 x in a row.
 

Where in the hell am I?

Well-Known Member

Let me know if this or any of the books or links are of any help:




Marijuana

Manicuring, Drying, And Curing Marijuana


Right after all the plants have been harvested, it is time to manicure them. Manicuring is simply cutting off the leaves that were growing from the buds. Cut off all the leaves surrounding the bud, so that just the bud remains.
Work over a glass table or some kind of smooth flat surface. This will make it easy to collect all the material that has been cut away from the buds. It is lower in THC than the buds, but rather than throw it away, you can use it to make hash oil.
When manicuring the buds, use a pair of scissors with small blades (to reach hard to get leaves) that is comfortable on your hands. If you have a small crop, you can handle the plants with you bare hands. With a large crop, wear powder free latex gloves.
The latex gloves will collect trichome resin in a similar manner to the way live marijuana plants are rubbed to make hashish. The latex gloves have to be powder free or the powder will get mixed into the resin.
Do not touch anything other than the plants once you have put the gloves on. If you have to do something, remove the gloves you are wearing and put them in a plastic bag, prior to doing whatever it is that has to be done.
When finished, put on a pair of new gloves. Material on the first pair can be collected later. When you are finished manicuring all the plants, remove the gloves and place them in a plastic bag (to catch resin that drops off).
Put the plastic bag with the gloves in a freezer for 2-3 hours. The trichome resin can easily be peeled from the frozen latex gloves and consumed the same way you would use hashish.
If absolutely necessary, you can wait to manicure the buds. However, the job will take more time if you wait. Manicuring right after the plants are harvested will also speed the drying process.
Instead smoking marijuana directly after it is harvested and manicured, it is best to dry and cure it. Some new growers might be in such a rush to try the marijuana that they don't want to dry the crop, or they might be tempted to put buds in a microwave oven to dry them out.

Drying Marijuana After Harvest

You probably don't want to smoke marijuana that is harsh and bad tasting. If you do not take time to dry the bud, you will not get the best possible smell and taste your crop is capable of producing.
Proper drying and curing will also ensure maximum potency of the marijuana you have grown. Marijuana is not potent just after harvest. Some of the THC is in a non-psychoactive acidic form. Drying marijuana the right way will convert the non-psychoactive acidic compounds into psychoactive THC.
The area where the drying is done should be dark. Light and high temperatures (higher than about 80 degrees) will cause THC to break down into less desirable chemicals, this will lower the potency of the finished product.
A good way to dry the crop is to hang the buds upside-down by the stem, from some string or wire. The drying marijuana must have some circulation blowing over it at all times. A gentle breeze that circulates over all the plants is necessary.
A fan or two will circulate air within the drying room. Fans will aid in drying the plants evenly, and reducing the chances of mold. If mold starts and is allowed to grow, it might ruin all of your crop. Mold looks like white fuzz and has an odor that is unpleasant.
You will have to keep the temperature and humidity within a certain range for optimal results. Conditions should remain constantly somewhere within the following ranges, temperature should be between 65-75 degrees F, relative humidity should be between 45%-55%.
At temperatures lower than 65 degrees, drying time will be lengthened. At temperatures higher than 75 degrees, the heat will cause the outer portion of the bud to dry quicker than the inner part, and the taste will suffer.
At humidity levels lower than 45%, the marijuana will dry too fast and the taste will suffer. At humidity levels higher than 55%, the marijuana will take a long time to dry, and it will be prone to mold.
Keep a hygrometer and a thermometer in the drying area, close to the plants. A hygrometer will allow you to keep an eye on the relative humidity level in the room and a thermometer will display the temperature. Some hygrometers
have built in thermometers so you can measure the temperature and humidity together.
Depending on the time of year and your location, a heater or an air conditioner may be necessary to adjust the temperature. To control humidity, a dehumidifier can lower humidity and a humidifier can be used to raise humidity. There are warm mist humidifiers and cool mist humidifiers.
A warm mist humidifier will raise the temperature while a cool mist humidifier will not affect the temperature. There are also humidifiers that allow you to switch between warm or cool mist. If you are going to purchase a humidifier for this purpose, take your climate into consideration and buy an appropriate humidifier.
Warm mist models will actually heat the water and release warm humidity. Cool mist water isn't cooled, it just means that water is not heated. In most cases a cool mist will work best. To be safe you can get a humidifier that lets you switch between warm and cool mist.

Curing Marijuana

It will take at least a week or two to dry the crop with temperatures between 65-75 degrees F and relative humidity between 45%-55%. You will know when the marijuana is dry if the stems snap or break (rather than fold) when they are bent. Try smoking a small bud (1/2 gram or less) in a joint to be sure it is dry enough.
At this time, small buds will be dry enough to smoke. But larger buds should be cured (slow dried) to ensure that the marijuana is as potent and tasty as possible. If necessary, you can set aside buds that are less than 1/2 gram for smoking, while larger buds cure.
The cure lasts a week or two. The aim of what you are doing is evenly finishing the slow dry process, so that mold will not grow when the buds are stored long term. Also, by the end of the cure, any remaining inactive THC will be converted to active THC (that increases potency).
To cure the crop, you will need one or more containers made out of glass or plastic. Some people say plastic can impart a taste to the marijuana. Personally, plastic containers that some types of roll your own tobacco are sold in, have no negative effect on the taste.
Containers that have a rubber seal work best, but any type of container with a tight fitting lid will do. One quart canning jars do a very good job if you are curing a few pounds or less. They have a rubber seal and hold 2 or more ounces of marijuana per one quart jar.
When curing quantities in excess of a few pounds, large (over 40 quarts) plastic storage boxes
are recommended. They are not air tight, but will do the job when smaller air tight containers are not practical.
Gently place your marijuana in the containers (cut buds to size if the are too big to fit in the container) and put the top on. Store the containers in a dark area where the temperature is between 50-65 degrees and the humidity is between 40%-60%.
You will have to open the containers for a few minutes to allow moisture to escape by fanning with your hand. If any moisture builds up on the inside of the cap on your container, wipe it off. Do this preferably 2-6 times daily, at regular 4-12 hour intervals.
You should also re-arrange the buds by giving them a quarter-turn once a day. This will ensure that different parts of the buds are exposed to the air in the container. Keep up this routine for 7-10 days. When properly dried, marijuana will burn evenly when smoked in a joint (if stems are removed).
The taste will be as good as it can be, and the THC will have reached a point where it is ready to be ingested or stored. You can keep any marijuana that will be consumed within a few months (1 year maximum) in the same containers used for curing, without having to keep opening them to release moisture.
If the marijuana is to be stored for more than a few months, you can use a vacuum sealer (designed for storing food) to seal the marijuana in an airtight environment. If stored in a dark area that is between 40-55 degrees F, the marijuana in vacuum sealed plastic will remain potent for up to 5 years.
Dry marijuana can be stored in a frost-free freezer, but some of the THC on the outer part of the buds may be damaged when frozen. A refrigerator is in the right temperature range but they tend to be humid (unless you can control the humidity).
If stored in an area of high humidity for months or years, even vacuum sealed marijuana can eventually become as humid as the surrounding air. This will necessitate drying it again before smoking. But, unless mold develops, humidity itself will not degrade the THC or make the marijuana any less potent.
Light will degrade some of the THC, so dark containers can be used for storage. If you place the marijuana in a see through container, it will have to be located in a dark area that is not exposed to light or high temperatures.
Always make sure to properly dry your marijuana prior to storage, if you grow your own or if the stuff you have is very moist. And remember that to preserve marijuana potency at a maximum level, keep any exposure to air, heat, and light at a minimum.
copyright © www.a1b2c3.com/drugs/


Books

Marijuana Horticulture:
The Indoor/Outdoor Medical Grower's Bible


Includes 21 pages of info about harvesting and drying marijuana, with a few dozen color images. If you were only going to get one book about growing, this book would be the best choice. Describes growing marijuana indoors and outdoors (with hydroponics or soil).
Also provides information that you can refer back to when things go wrong. A very comprehensive reference book for anyone interested in growing marijuana, either indoors or outdoors. Recommended for beginners and more advanced growers. Over 500 pages with more than 1000 color images.
Marijuana Horticulture



Marijuana Chemistry:
Genetics, Processing And Potency


Explains the various cannabinoids that marijuana is made up of and how things like growing conditions, harvesting, processing, affect the potency of the final product.
Lots of tables, graphs, and other info. Recommended for the intermediate and expert marijuana grower, this is heavy on chemistry. If you do not have a very good grasp of science and chemistry this book is not for you.
Marijuana Chemistry



Marijuana Related
Books About Growing Marijuana
More Marijuana Articles
Various Marijuana Links






The Site

Index



Need More
Information


Drug Books
Terminology
Search Engines


 

whitenugz

Active Member
Let me know if this or any of the books or links are of any help:​





Marijuana Chemistry:


Genetics, Processing And Potency



Explains the various cannabinoids that marijuana is made up of and how things like growing conditions, harvesting, processing, affect the potency of the final product.


Lots of tables, graphs, and other info. Recommended for the intermediate and expert marijuana grower, this is heavy on chemistry. If you do not have a very good grasp of science and chemistry this book is not for you.


Marijuana Chemistry
i'll prob. order this but I could have looked up a book! I could probly find it on the internet somewhere or another too but i want to converse about this one.
 

Where in the hell am I?

Well-Known Member
You said you dont let yer trichs turn amber? Damn, thats why ppl sell f***ed up weed, they dont let it mature. If ya dont like gettin the max potential outta yer plant, yer doin fine! Not letting the trichs turn amber will give ya less of a high, it will be shorter in duration, not as potent, not as good of a taste, not as good of a smell. But, to each his own
 

EckoSky

Active Member
This sounds like a good explanation out of all that text above.

"Also, by the end of the cure, any remaining inactive THC will be converted to active THC (that increases potency)"
 

mcgrizzle20

Active Member
You should cure when your buds have dried to the point that they weigh roughly 30% at the most of the original weight weight, that being 80% wet weight is water so drying to 30 or less ensure that the total water percentage in the bud is under 15% which most molds wont grow in this low water percentage. Next place the buds loosely into glass mason jars they should be full but not stuffed. each day for the first week open the jar for a burp of fresh air after that for ever 2 days burp it for up to four months (your choice).

Now what this chemically does is as follows: First THC in its early stages is a raw undefined substance hardly psychoactive. Over time the oxidation occurs and the oils in the resin heads change to a more psychoactive version. The CBC/CBN levels can change these two affect the body stone part alot, higher in indicas. Also the active terepines which affect flavor are volatile early on, over time they break down producing a stronger smell and flavor and also becoming harmless to smoke. Last the chlorophyll in the plant matter breaks down this causes the smoke to be much less harsh, after 2 weeks most chlorophyll will be destroyed. now the buds are fully dry and cured and lovely lovely lovely
 

Scranny420

Well-Known Member
You wanted to know, so here you go:
GreenMansPage.com said:

Cannabinoid Biosynthesis
Since resin secretion and associated terpenoid and cannabinoid biosynthesis are at their peak just after the pistils have begun to turn brown but before the calyx stops growing, it seems obvious that floral clusters should be harvested during this time. More subtle variations in terpenoid and cannabinoid levels also take place within this period of maximum resin secretion, and these variations influence the nature of the resin’s psychoactive effect.
The cannabinoid ratios characteristic of a strain are primarily determined by genes, but it must be remembered that many environmental factors, such as light, temperature, and humidity, influence the path of a molecule along the cannabinoid biosynthetic pathway. These environmental factors can cause an atypical final cannabinoid profile (cannabinoid levels and ratios). Not all cannabinoid molecules begin their journey through the pathway at the same time, nor do all of them complete the cycle and turn into THC molecules simultaneously. There is no magical way to influence the cannabinoid biosynthesis to favor THC production, but certain factors involved in the growth and maturation of Cannabis do affect final cannabinoid levels, These factors may be controlled to some extent by proper selection of mature floral clusters for harvesting, agricul tural technique, and local environment. In addition to genetic and seasonal influences, the picture is further modified by the fact that each individual calyx goes through the cannabinoid cycle fairly independently and that during peak periods of resin secretion new flowers are produced every day and begin their own cycle. This means that at any given time the ratio of calyx-to-leaf, the average calyx condition, the condition of the resins, and resultant cannabinoid ratios indicate which stage the floral cluster has reached. Since it is difficult for the amateur cultivator to determine the cannabinoid profile of a floral cluster without chromatographic analysis, this discussion will center on the known and theoretical correlations between the external characteristics of calyx and resin and internal cannabinoid profile. A better understanding of these subtle changes in cannabinoid ratios may be gleaned by observing the cannabinoid biosynthesis. Focus on the lower left-hand corner of the chart. Next, follow the chain of reactions until you find the four isomers of THC acid (tetrahydro-cannabinolic acid), toward the right side of the page at the crest of the reaction sequence, and realize that there are several steps in a long series of reactions that precede and follow the formation of THC acids, the major psychoactive cannabinoids. Actually, THC acid and the other necessary cannabinoid acids are not psychoactive until they decarboxylate (lose an acidic carboxyl group [COOHI). It is the cannabinoid acids which move along the biosynthetic pathway, and these acids undergo the strategic reactions that determine the position of any particular cannabinoid molecule along the pathway. After the resins are secreted by the glandular trichome they begin to harden and the cannabinoid acids begin to decarboxylate. Any remaining cannabinoid acids are decarboxylated by heat within a few days after harvesting. Other THC acids with shorter side-chains also occur in certain strains of Cannabis. Several are known to be psychoactive and many more are suspected of psychoactivity. The shorter propyl (three-carb on) and methyl (one-carbon) side-chain homologs (similarly shaped molecules) are shorter acting than pen tyl (five-carbon) THCs and may account for some of the quick, flashy effects noted by some marijuana users. We will focus on the pentyl pathway but it should be noted that the propyl and methyl pathways have homologs at nearly every step along the pentyl pathway and their synthesis is basically identical.
The first step in the pentyl cannabinoid biosynthetic pathway is the combination of olivetolic acid with geranyl pyrophosphate. Both of these molecules are derived from terpenes, and it is readily apparent that the biosynthetic route of the aromatic terpenoids may be a clue to formation of the cannabinoids. The union of these two molecules forms CBG acid (cannabigerolic acid) which is the basic cannabinoid precursor molecule. CBG acid may be converted to CBGM (CBG acid monomethyl ether), or a hydroxyl group (OH) attaches to the geraniol portion of the molecule forming hydroxy-CBG acid. Through the formation of a transition-state molecule, either CBC acid (cannabichromenic acid) or CBD acid (cannabidiolic acid) is formed. CBD acid is the precursor to the THC acids, and, although CBD is only mildly psychoactive by itself, it may act with THC to modify the psychoactive effect of the THC in a sedative way. CBC is also mildly psychoactive and may interact synergistically with THC to alter the psychoactive effect (Turner et al. 1975). Indeed, CBD may suppress the effect of THC and CBC may potentiate the effect of THC, although this has not yet been proven. All of the reactions along the cannabinoid biosynthetic pathway are enzyme-controlled but are affected by environmental conditions.
Conversion of CBD acid to THC acid is the single most important reaction with respect to psychoactivity in the entire pathway and the one about which we know the most. Personal communication with Raphael Mechoulam has centered around the role of ultraviolet light in the bio-synthesis of THC acids and minor cannabinoids. In the laboratory, Mechoulam has converted CBD acid to THC acids by exposing a solution of CBD acid in n-hexane to ultraviolet light of 235-285 nm. for up to 48 hours. This reaction uses atmospheric oxygen molecules (02) and is irreversible; however, the yield of the conversion is only about 15% THC acid, and some of the products formed in the laboratory experiment do not occur in living specimens. Four types of isomers or slight variations of THC acids (THCA) exist. Both Delta1-THCA and Delta6-THCA are naturally occurring isomers of THCA resulting from the positions of the double bond on carbon 1 or carbon 6 of the geraniol portion of the molecule They have approximately the same psychoactive effect; however, Delta1-THC acid is about four times more prevalent than Delta6-THC acid in most strains. Also Alpha and Beta forms of Delta1-THC acid and Delta6-THC acid exist as a result of the juxtaposition of the hydrogen (H) and the carboxyl (COOH) groups on the olivetolic acid portion of the molecule It is suspected that the psychoactivity of the a and ~ forms of the THC acid molecules probably does not vary, but this has not been proven. Subtle differences in psychoactivity not detected in animals by laboratory instruments, but often discussed by marijuana aficionados, could be attributed to additional synergistic effects of the four isomers of THC acid. Total psycho-activity is attributed to the ratios of the primary cannabinoids of CBC, CBD, THC and CBN; the ratios of methyl, propyl, and pentyl homologs of these cannabinoids; and the isomeric variations of each of these cannabinoids. Myriad subtle combinations are sure to exist. Also, terpenoid and other aromatic compounds might suppress or potentiate the effects of THCs.
Environmental conditions influence cannabinoid biosynthesis by modifying enzymatic systems and the resultant potency of Cannabis. High altitude environments are often more arid and exposed to more intense sunlight than lower environments. Recent studies by Mobarak et al. (1978) of Cannabis grown in Afghanistan at 1,300 meters (4,350 feet) elevation show that significantly more propyl cannabinoids are formed than the respective pentyl homo-logs. Other strains from this area of Asia have also exhibited the presence of propyl cannabinoids, but it cannot be discounted that altitude might influence which path of cannabinoid biosynthesis is favored. Aridity favors resin production and total cannabinoid production; however, it is unknown whether arid conditions promote THC production specifically. It is suspected that increased ultraviolet radiation might affect cannabinoid production directly. Ultra-violet light participates in the biosynthesis of THC acids from CBD acids, the conversion of CBC acids to CCY acids, and the conversion of CBD acids to CBS acids. However, it is unknown whether increased ultraviolet light might shift cannabinoid synthesis from pentyl to propyl pathways or influence the production of THC acid or CBC acid instead of CBD acid.
The ratio of THC to CBD has been used in chemotype determination by Small and others. The genetically determined inability of certain strains to convert CBD acid to THC acid makes them a member of a fiber chemotype, but if a strain has the genetically determined ability to convert CBD acid to THC acid then it is considered a drug strain. It is also interesting to note that Turner and Hadley (1973) discovered an African strain with a very high THC level and no CBD although there are fair amounts of CBC acid present in the strain. Turner* states that he has seen several strains totally devoid of CBD, but he has never seen a strain totally devoid of THC. Also, many early authors confused CBC with CBD in analyzed samples because of the proximity of their peaks on gas liquid chromatograph (GLC) results. If the biosynthetic pathway needs alteration to include an enzymatically controlled system involving the direct conversion of hydroxy-CBG acid to THC acid through allylic rearrangement of hydroxy-CBG acid and cyclization of the rearranged intermediate to THC acid, as Turner and Hadley (1973) suggest, then CBD acid would be bypassed in the cycle and its absence explained. Another possibility is that, since CBC acid is formed from the same symmetric intermediate that is allylically rearranged before forming CBD acid, CBC acid may be the accumulated intermediate, the reaction may be reversed, and through the symmetric intermediate and the usual allylic rearrangement CBD acid would be formed but directly converted to THC acid by a similar enzyme system to that which reversed the formation of CBC acid. If this happened fast enough no CBD acid would be detected. It is more likely, however, that CBDA in drug strains is converted directly to THCA as soon as it is formed and no CBD builds up. Also Turner, Hemphill, and Mahlberg (1978) found that CBC acid was contained in the tissues of Cannabis but not in the resin secreted by the glandular trichomes. In any event, these possible deviations from the accepted biosynthetic pathway provide food for thought when trying to decipher the mysteries of Cannabis strains and varieties of psychoactive effect.
Returning to the more orthodox version of the cannabinoid biosynthesis, the role of ultraviolet light should be reemphasized. It seems apparent that ultraviolet light, normally supplied in abundance by sunlight, takes part in the conversion of CBD acid to THC acids. Therefore, the lack *Carlton Thrner 1979: personal communication. of ultraviolet light in indoor growing situations could account for the limited psychoactivity of Cannabis grown under artificial lights. Light energy has been collected and utilized by the plant in a long series of reactions resulting in the formation of THC acids. Farther along the pathway begins the formation of degradation products not metabolically produced by the living plant. These cannabinoid acids are formed through the progressive degradation of THC acids to CBN acid (cannabinolic acid) and other cannabinoid acids. The degradation is accomplished primarily by heat and light and is not enzymatically controlled by the plant. CBN is also suspected of synergistic modification of the psychoactivity of the primary cannabinoids, THCs. The cannabinoid balance between CBC, CBD, THC, and CBN is determined by genetics and maturation. THC production is an ongoing process as long as the glandular trichome remains active. Variations in the level of THC in the same trichome as it matures are the result of THC acid being broken down to CBN acid while CBD acid is being converted to THC acid. If the rate of THC biosynthesis exceeds the rate of THC breakdown, the THC level in the trichome rises; if the breakdown rate is faster than the rate of biosynthesis, the THC level drops. Clear or slightly amber transparent resin is a sign that the glandular trichome is still active. As soon as resin secretion begins to slow, the resins will usually polymerize and harden. During the late floral stages the resin tends to darken to a transparent amber color. If it begins to deteriorate, it first turns translucent and then opaque brown or white. Near-freezing temperatures during maturation will often result in opaque white resins. During active secretion, THC acids are constantly being formed from CBD acid and breaking down into CBN acid.
If you really want to get to know Mary Jane, I'd suggest you print this out as bathroom reading material. There WILL be a few times when you read and re-read the same few words over and over again, but for the most part, it's very simply put, and easy to understand. Good luck!

http://www.greenmanspage.com/guides/botany.html
 

whitenugz

Active Member
You said you dont let yer trichs turn amber? Damn, thats why ppl sell f***ed up weed, they dont let it mature. If ya dont like gettin the max potential outta yer plant, yer doin fine! Not letting the trichs turn amber will give ya less of a high, it will be shorter in duration, not as potent, not as good of a taste, not as good of a smell. But, to each his own
My shit is far from fucked up. maybe you should try different techniques before you kick them. I've tried amber trichs before; not what I like.
 

iknownada

Active Member
CAN YOU HELP PLEASE - DOES ANYONE KNOW HOW MANY G's YOU GET APPROX OF THE WHITE DWARF. ALSO THEY ARE GROWING OUTSIDE IN A WARM CLIMATE ON AVERAGE ABOUT 70F AND SEEM TO BE DOING WELL, THEY ARE NOW AT ABOUT 6 INCHES IN HEIGHT. THERES NO FANCY GIMICKS INVOLVED THEY ARE IN A QUALITY SOIL WITH FERTILISERS AND NUTRIENTS ETC, DO I NEED TO DO ANYTHING ELSE OR WILL THEY TAKE CARE OF THEMSELVES? ANY ADVICE FOR A FIRST TIMER IS WELCOME. ALSO WHATS THE BEST WAY TO DRY THEM OUT IN LAMENS TERMS PLEASE?
 
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