Trichomes, THC and UVB light.....

SnowWhite

Well-Known Member
I just choose the ones that were rated for me i.e. electronica,turns out they were 199 dollars:evil:
Let me know what my new track sounds like through your new earphones please:mrgreen:

Entheogen
hi-fi URL: Start Player
Hey Nat...I like your track man....especially the start. Nice eery synth with the hats and stuff. Good shit mate.....:blsmoke:
 

sgtpeppr

Well-Known Member
Ultraviolet radiation

Another stress to which plants are subject results from their daily exposure to sunlight. While necessary to sustain photosynthesis, natural light contains biologically destructive ultraviolet radiation. This selective pressure has apparently affected the evolution of certain defenses, among them, a chemical screening functionally analogous to the pigmentation of human skin. A preliminary investigation (Pate 1983) indicated that, in areas of high ultraviolet radiation exposure, the UV-B (280-315 nm) absorption properties of THC may have conferred an evolutionary advantage to Cannabis capable of greater production of this compound from biogenetic precursor CBD. The extent to which this production is also influenced by environmental UV-B induced stress has been experimentally determined by Lydon et al. (1987). Their experiments demonstrate that under conditions of high UV-B exposure, drug-type Cannabis produces significantly greater quantities of THC. They have also demonstrated the chemical lability of CBD upon exposure to UV-B (Lydon and Teramura 1987), in contrast to the stability of THC and CBC. However, studies by Brenneisen (1984) have shown only a minor difference in UV-B absorption between THC and CBD, and the absorptive properties of CBC proved considerably greater than either. Perhaps the relationship between the cannabinoids and UV-B is not so direct as first supposed. Two other explanations must now be considered. Even if CBD absorbs on par with THC, in areas of high ambient UV-B, the former compound may be more rapidly degraded. This could lower the availability of CBD present or render it the less energetically efficient compound to produce by the plant. Alternatively, the greater UV-B absorbency of CBC compared to THC and the relative stability of CBC compared to CBD might nominate this compound as the protective screening substance. The presence of large amounts of THC would then have to be explained as merely an accumulated storage compound at the end of the enzyme-mediated cannabinoid pathway. However, further work is required to resolve the fact that Lydon's (1985) experiments did not show a commensurate increase in CBC production with increased UV-B exposure.
This CBC pigmentation hypothesis would imply the development of an alternative to the accepted biochemical pathway from CBG to THC via CBD. Until 1973 (Turner and Hadley 1973), separation of CBD and CBC by gas chromatography was difficult to accomplish, so that many peaks identified as CBD in the preceding literature may in fact have been CBC. Indeed, it has been noted (De Faubert Maunder 1970) and corroborated by GC/MS (Turner and Hadley 1973) that some tropical drug strains of Cannabis do not contain any CBD at all, yet have an abundance of THC. This phenomenon has not been observed for northern temperate varieties of Cannabis. Absence of CBD has led some authors (De Faubert Maunder 1970, Turner and Hadley 1973) to speculate that another biogenetic route to THC is involved. Facts scattered through the literature do indeed indicate a possible alternative. Holley et al. (1975) have shown that Mississippi-grown plants contain a considerable content of CBC, often in excess of the CBD present. In some examples, either CBD or CBC was absent, but in no case were plants devoid of both. Their analysis of material grown in Mexico and Costa Rica served to accentuate this trend. Only one example actually grown in their respective countries revealed the presence of any CBD, although appreciable quantities of CBC were found. The reverse seemed true as well. Seed from Mexican material devoid of CBD was planted in Mississippi and produced plants containing CBD.
Could CBC be involved in an alternate biogenetic route to THC? Yagen and Mechoulam (1969) have synthesized THC (albeit in low yield) directly from CBC. The method used was similar to the acid catalyzed cyclization of CBD to THC (Gaoni and Mechoulam 1966). Reaction by-products included cannabicyclol, delta-8-THC and delta-4,8-iso-THC, all products which have been found in analyses of Cannabis (e.g., Novotny et al. 1976). Finally, radioisotope tracer studies (Shoyama et al. 1975) have uncovered the intriguing fact that radiolabeled CBG fed to a very low THC-producing strain of Cannabis is found as CBD, but when fed to high THC-producing plants, appeared only as CBC and THC. Labeled CBD fed to a Mexican example of these latter plants likewise appeared as THC. Unfortunately, radiolabeled CBC was not fed to their plants, apparently in the belief that CBC branched off the biogenetic pathway at CBD and dead ended. Their research indicated that incorporation of labeled CBG into CBD or CBC was age dependent. Vogelman et al. (1988) likewise report that the developmental stage of seedlings, as well as their exposure to light, affects the occurrence of CBG, CBC or THC in Mexican Cannabis. No CBD was reported.
Conclusions

Although the chemistry of Cannabis has come under extensive investigation, more work is needed to probe the relationship of its resin to biotic and abiotic factors in the environment. Glandular trichomes are production sites for the bulk of secondary compounds present. It is probable that the cannabinoids and associated terpenes serve as defensive agents in a variety of antidessication, antimicrobial, antifeedant and UV-B pigmentation roles. UV-B selection pressures seem responsible for the distribution of THC-rich Cannabis varieties in areas of high ambient radiation, and may have influenced the evolution of an alternate biogenetic pathway from CBG to THC in some of these strains. Though environmental stresses appear to be a direct stimulus for enhanced chemical production by individual plants, it must be cautioned that such stresses may also skew data by hastening development of the highly glandular flowering structures. Future studies will require careful and representative sampling to assure meaningful results.


from here




I don't know if this helps anyone still......but I think the bottom line is if you care for your plants and try to give them the best conditions you can (which I believe can be done relatively cheaply) ........basically take care of your plants the best you can , and they will take care of you equally. If you feel your plant can give you more of something you want, then the same can probably be said of you. If you believe that better bulbs or soil or water or nutes or whatever is the answer, then it is up to you to decide what the next step in the evolution process is. But I can honestly boil it down to one thing....Love. Love your plants and they will love you. I haven't even started growing yet, but I already know that no matter how I have to go about it, I will be very happy with my overall experience once I start......as long as I can get as close to the environment that I know I can produce as I am able to at that moment.




I was just reminded of a story....I happened to be visiting a hospice home about a year ago, dismal places to begin with, and I noticed a plant that had obviously been neglected. All the nurses in that place, you would think one of them would water a plant....anywho.....This poor guys leaves were brown, he was completely droopy and sagging...so like the people in the building he was on the brink of being thrown into the trash. So my girlfriend and I simply watered him properly using regular unfiltered tap water, put him in a nice area that would get some sun the next day and told him everything would be alright.....(if only humans would understand and believe this). The next night when I came back the plant literally out shined everything else in the room. It had the most amazing color and stature. There were no brown spots at all. It radiated such energy that it lifted the mood of the room, which subsequently lifted the mood of the people in the room. And I believe the same will be true of any plants I will grow in the future.

__________________
Love....merrily, merrily, merrily, merrily....it's advanced
 

tahoe58

Well-Known Member
hey skunk...good deal.....high ass quality pics will be mandatory! hahahahaha.....excellent, can't wait to see.
 

Your Grandfather

Well-Known Member
Skunk, woohoo, maybe it's time I upgraded from the Panasonic. Let me know what you think of it after you have had a chance to 'break it in'. 8)
 

psyclone

Well-Known Member
Hello Truth Seekers,
I am just finishing the plants under UV as mentioned. I think it came too late in flowering to make any significant difference. No death resulted from exposure. They are quite frosty buds anyway, so I cannot honestly say if the trichomes are thicker/denser/more productive.
I intend to introduce tanning sessions from the start of flowering my next batch, at "high noon" by the timer, for one hour a day, racking it up by increments over 8 weeks (i have 30mins per week in mind, for no good reason). My clones are getting moonlight supplement 24hrs a day at the moment, and have been for two weeks. They are positively vibrant, a beautiful emerald green and growing FAST.
 

Your Grandfather

Well-Known Member
Got any pictures?

Are these clones different in appearance than ones who did not get the moon treatment? :)

Got any thoughts on the difference?

Many thanks 8)


My clones are getting moonlight supplement 24hrs a day at the moment, and have been for two weeks. They are positively vibrant, a beautiful emerald green and growing FAST.
 

sgtpeppr

Well-Known Member
Awesome microscope Skunk.....Now there is something else I will have to upgrade to. That even more confirms my feelings of being back in high school, because once again it seems I am using out of date equipment (of course I did get it for free) :)

I just wished I had smoked back then:joint:
 

skunkushybrid

New Member
Thanks sgt. Oh and thanks also for that lengthy post a page back. It was very interesting...

I just got the microscope around 30 minutes ago at 0830. Christmas, for me, starts today!
 

skunkushybrid

New Member
Just a couple of pic's i took while having a play around. I can't get full magnification through the USB connection, but it's good enough.

These are all pic's from a very small section from the tip of a fan leaf that is only a few days old. The second pic' is of the very tip and puts me in mind of a green prickly tongue. The final pic' is of the edge of the leaf and these hairs/thorns travel all the way up the sides.
 

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skunkushybrid

New Member
You can't get full magnification through your pc, but it is adequate enough. The center of the leaves look a little different and are relatively devoid of hairs/thorns. Instead are what look like circular wet patches... but I couldn't figure out whether the light from the microscope was what was causing the effect.

I didn't actually take a pic of this as i thought it too boring, but in this pic' here you can just make out what I mean. Towards the top of the hairs you can see a circular blob... all the centre of the leaf is like this with blobs and no hairs. Anyone know what they are?
 
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