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This is one of the key molecular differences between them and cannabinoids, which themselves are actually completely odorless (so if you ever buy a “pure” THC or CBD isolate and it has an obvious smell, return it – it’s not pure).Īnd on a side not, the pungent aromas that terpenoids give off actually have made them fantastic options for aromatherapy, which is an alternative healing form that’s defined as “the use of aromatic plant extracts and essential oils for therapeutic purposes.” In terms of their chemistry, they are constructed of varying sequences of aromatic hydrocarbons, which give them their pleasant range of distinct (and oftentimes pungent) aromas. On the contrary, they are relatively common compounds (over 200 have been identified in marijuana alone) that are found abundantly in most herbs, plants, and in many fruits and vegetables. Unlike cannabinoids such as THC and CBD, terpenes are not at all unique to marijuana. However, the opposite pretty much turned out to be true – CBD was found to be more potent when it came from a full-spectrum (whole plant) extract and worked alongside with terpenes and other cannabinoids. Other similar studies have been carried out in laboratories with CBD isolates when the therapeutic effects of CBD first started being acknowledged on a large-scale level, it was assumed that the more pure a CBD isolate that was extracted was, the more potent and efficient it would be in terms of its therapeutic and medical potential. The results? He found that the whole-plant resin, even though it had half the amount of THC in it, was actually more potent than the pure THC extract. Along with his business partner, Watson had hypothesized that terpenes were directly involved in the intensity and unique “psychoactive flavor” of the famous marijuana high, and he tested his theory by comparing the effects of a 100% pure THC extract to that of a terpene-infused whole-plant cannabis resin. And so on and so forth.Īccording to the research-based non-profit organization Project CBD, cannabis crafter David Watson was one of the first to attribute pot’s distinctive highs to the presence and abundance of terpenes, or as some call them, terpenoids.
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Varieties that have a distinct pine aroma, on the other hand (like Jack Herer and Chemdawg), are probably chock full of pinene. Strains with a strong citrusy smell, like Lemon Haze and OG Kush for example, are typically high in the terpene limonene. In fact, if you walk into a dispensary, you could spend hours and hours (or at least I could) just sniffing each jar and admiring the different characteristics of each strain – all of which are due to the presence and amounts of various terpenes. If you’ve got a keen eye (and/or nose) you can observe the differences in marijuana strains just by looking at (and smelling) them. Terpenes: The Chemicals That Make Each Cannabis Strain Unique So next time you fire up a joint and are blown away by the crazy “new” high that you feel, just know that THC isn’t the only thing responsible! In this article, we talk about how terpenes – of which there have been hundreds of different ones identified in marijuana – can act in accordance with THC, CBD, and other cannabinoids to produce functionally distinctive forms of psychoactivity in the brain. This has been a topic of interest lately for some of the world’s leading cannabis researchers, and as it turns out, scientists are starting to consider more and more that a strain’s terpene profile – in combination with its cannabinoid profile – is what’s responsible for the vastly different types of highs that are produced. A typical marijuana strain usually contains about 15-25% THC – how would such a (relatively) minor variance from strain to strain be able to produce such dramatically different results in terms of the effects that are produced on our brains, emotions, and cognitive processes? It’s simply not possible. (Pretty much the only thing that’s the same from strain to strain is that they all make us hungry!)īut in all seriousness, what exactly is it that causes various marijuana strains to produce such wildly different highs? It’s certainly not THC by itself, because think about it. And for those of us that have smoked long enough (or smoked enough different marijuana strains), we know that pretty much no two highs are exactly the same – some make us lazy and put us into a couch-locked trance, some make us feel energetic and uplifted, some make us deeply philosophical and talkative, and others make us revert into our own little internal worlds where nothing exists but our own thoughts. When we smoke weed, we all know that THC is what’s responsible for getting us high.