How to Use UV And IR For Growing Indoor Plants

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What Are Ultraviolet (UV) and Infrared (IR) Lights?

Ultraviolet light and Infrared light both belong to the “Electromagnetic spectrum”. Radiation in the Electromagnetic spectrum is usually categorized by wavelength. Ultraviolet, Gamma, and X-rays are examples of short wavelengths while Infrared, Radio, and Microwaves are examples of longer wavelengths. Short wavelength radiation is of the highest energy and can be very dangerous. Infrared is usually less harmful. Both UV and IR lights can be used to help plants grow more effectively.

What Are The Effects of UV and IR on Plants?

UV light is comprised of three types of light: UVC with a wavelength of between 100-280nm, UVB with a wavelength of between 280-215nm, and UVA with a wavelength of between 315-400nm.

UV light is effective at recreating a natural environment and therefore making plants act like they are being grown in the wild. UV lights have been known to promote faster photosynthesis, increase leaf areas, increase THC and CBD potency, promote branching, and provide higher resistance to pests. Proper use of UV lighting can also improve plants’ nutritional quality while stimulating biomass production by stressing them. Strains that are grown under UV light tend to have higher dry weights too.

The overuse of UV light can lead to excess UV stress, which in turn can hinder plant growth and lower plant yields. This is due to plants spending more energy on producing trichomes as a way of protecting themselves, as opposed to growing larger and more robust. UV stress can also lead to the photoinhibition of chloroplasts resulting in lower biomass production, photobleaching, and the death of leaves.

IR lights utilize far-red wavelengths to elicit a shade avoidance response in plants, leading to accelerated stem growth. There are two procedures known as PS1 and PS2 which contribute to plant growth. Plants exposed to supplemental IR light alongside both blue and red light showed an increase in photosynthesis, the promotion of robust stem growth, proper node spacing along with more flower buds. IR light also appears to help plants transition between different stages of growth, sleep and wake cycles, during the later stages of development. In addition to this, flowers will not bloom until adequate levels of IR radiation have been introduced.

While IR light has been proven to be effective at promoting many aspects of plant growth it is important to note that a large percentage of IR light is felt as heat and can damage your plants if not used correctly. Plants can stretch, become distorted and even die if IR lights are misused.

UV_-_1-202212_1.jpg

How Can I Apply UV & IR Light to My Cultivation?

An important thing to note is that the most efficient way to use both supplemental UV and IR light will vary depending on the plants you wish to grow, along with the size of your growing space. You will need to research the specific needs of your individual plants in regards to their light, PPFD, UV, and IR requirements. With this in mind, here is a general guide on how to apply UV and IR to your cannabis cultivation.

During the vegetative stage, we recommend you provide your plants with between 16 to 18 hours of light per day to help ensure they grow to become healthy and high-yielding plants. The recommended PPFD for the vegetation stage is between 400-600 µMol/m2/S and we also recommend providing your plants with 1 hour of supplemental UV light per day in the mid-to-late vegetative stages.

During the flowering stage, we recommend adopting a more natural light cycle for your plants, giving them 12 hours per day of both light and darkness. We recommend turning your lights on to a medium setting to maximize the yield and improve potency. The recommended PPFD for the flowering stage is between 800-1,000 µMol/m2/S and we also recommend providing 60 to 90 minutes of supplemental UV light in the early flowering stages and 90-120 minutes in the mid-flowering stage.

Towards the end of the flowering stage (the final 2-3 weeks) we recommend you increase the amount of supplemental UV light to 120 minutes. This can result in higher THC levels and chemical profiles.

As for the effective use of supplemental IR light, we recommend providing your plants with IR light for a 30-minute time frame before you turn the lights off for the day. 30 minutes before the lights are scheduled to be turned off we recommend providing your plants with 10 minutes of IR light, then, turn off the IR lights for the next 10 minutes. Finally, turn the lights back on for a final 10 minutes of supplemental IR light. (10 – on, 10 – off, 10- on). After all the lights have been turned off, the plants can sleep. This use of IR light can be applied to all stages of plant growth, except the germination stage.

UV_-_2-202212.jpg

How Can Mars Hydro UV and IR Lights Help with This?

When plants grow naturally outside, they receive a full spectrum of radiation, and, like humans, they require specific nutrients and special conditions to flourish. While growing plants indoors it’s best to utilize both supplemental IR and UV light as they can help your plants grow stronger, increase their yield and increase their THC content.

At Mars Hydro, we designed our products to provide everything plants need to not just grow, but to thrive. Specifically, our UR45 LED grow lightis equipped with full-spectrum lights including UV bands between 365-420nm and IR bands between 730-745nm and has separate controls for both the UV and IR light. This means it can provide all the benefits of using supplemental UV and IR light we have detailed above, such as increased leaf areas, improved nutritional quality, the ability to induce flowering and sleeping periods, and stimulate biomass production.

Feel free to share your thoughts after reading. :ganjamon:
 

What Are Ultraviolet (UV) and Infrared (IR) Lights?

Ultraviolet light and Infrared light both belong to the “Electromagnetic spectrum”. Radiation in the Electromagnetic spectrum is usually categorized by wavelength. Ultraviolet, Gamma, and X-rays are examples of short wavelengths while Infrared, Radio, and Microwaves are examples of longer wavelengths. Short wavelength radiation is of the highest energy and can be very dangerous. Infrared is usually less harmful. Both UV and IR lights can be used to help plants grow more effectively.

What Are The Effects of UV and IR on Plants?

UV light is comprised of three types of light: UVC with a wavelength of between 100-280nm, UVB with a wavelength of between 280-215nm, and UVA with a wavelength of between 315-400nm.

UV light is effective at recreating a natural environment and therefore making plants act like they are being grown in the wild. UV lights have been known to promote faster photosynthesis, increase leaf areas, increase THC and CBD potency, promote branching, and provide higher resistance to pests. Proper use of UV lighting can also improve plants’ nutritional quality while stimulating biomass production by stressing them. Strains that are grown under UV light tend to have higher dry weights too.

The overuse of UV light can lead to excess UV stress, which in turn can hinder plant growth and lower plant yields. This is due to plants spending more energy on producing trichomes as a way of protecting themselves, as opposed to growing larger and more robust. UV stress can also lead to the photoinhibition of chloroplasts resulting in lower biomass production, photobleaching, and the death of leaves.

IR lights utilize far-red wavelengths to elicit a shade avoidance response in plants, leading to accelerated stem growth. There are two procedures known as PS1 and PS2 which contribute to plant growth. Plants exposed to supplemental IR light alongside both blue and red light showed an increase in photosynthesis, the promotion of robust stem growth, proper node spacing along with more flower buds. IR light also appears to help plants transition between different stages of growth, sleep and wake cycles, during the later stages of development. In addition to this, flowers will not bloom until adequate levels of IR radiation have been introduced.

While IR light has been proven to be effective at promoting many aspects of plant growth it is important to note that a large percentage of IR light is felt as heat and can damage your plants if not used correctly. Plants can stretch, become distorted and even die if IR lights are misused.

UV_-_1-202212_1.jpg

How Can I Apply UV & IR Light to My Cultivation?

An important thing to note is that the most efficient way to use both supplemental UV and IR light will vary depending on the plants you wish to grow, along with the size of your growing space. You will need to research the specific needs of your individual plants in regards to their light, PPFD, UV, and IR requirements. With this in mind, here is a general guide on how to apply UV and IR to your cannabis cultivation.

During the vegetative stage, we recommend you provide your plants with between 16 to 18 hours of light per day to help ensure they grow to become healthy and high-yielding plants. The recommended PPFD for the vegetation stage is between 400-600 µMol/m2/S and we also recommend providing your plants with 1 hour of supplemental UV light per day in the mid-to-late vegetative stages.

During the flowering stage, we recommend adopting a more natural light cycle for your plants, giving them 12 hours per day of both light and darkness. We recommend turning your lights on to a medium setting to maximize the yield and improve potency. The recommended PPFD for the flowering stage is between 800-1,000 µMol/m2/S and we also recommend providing 60 to 90 minutes of supplemental UV light in the early flowering stages and 90-120 minutes in the mid-flowering stage.

Towards the end of the flowering stage (the final 2-3 weeks) we recommend you increase the amount of supplemental UV light to 120 minutes. This can result in higher THC levels and chemical profiles.

As for the effective use of supplemental IR light, we recommend providing your plants with IR light for a 30-minute time frame before you turn the lights off for the day. 30 minutes before the lights are scheduled to be turned off we recommend providing your plants with 10 minutes of IR light, then, turn off the IR lights for the next 10 minutes. Finally, turn the lights back on for a final 10 minutes of supplemental IR light. (10 – on, 10 – off, 10- on). After all the lights have been turned off, the plants can sleep. This use of IR light can be applied to all stages of plant growth, except the germination stage.

UV_-_2-202212.jpg

How Can Mars Hydro UV and IR Lights Help with This?

When plants grow naturally outside, they receive a full spectrum of radiation, and, like humans, they require specific nutrients and special conditions to flourish. While growing plants indoors it’s best to utilize both supplemental IR and UV light as they can help your plants grow stronger, increase their yield and increase their THC content.

At Mars Hydro, we designed our products to provide everything plants need to not just grow, but to thrive. Specifically, our UR45 LED grow lightis equipped with full-spectrum lights including UV bands between 365-420nm and IR bands between 730-745nm and has separate controls for both the UV and IR light. This means it can provide all the benefits of using supplemental UV and IR light we have detailed above, such as increased leaf areas, improved nutritional quality, the ability to induce flowering and sleeping periods, and stimulate biomass production.

Feel free to share your thoughts after reading. :ganjamon:
@Emilya Green has interesting post that says the same thing. CL🍀
 
Studies were done in the 80s that suggested UV was beneficial. However, it's not 1985 anymore and modern studies are producing a different conclusion.


Indoor grown cannabis yield increased proportionally with light intensity, but ultraviolet radiation did not affect yield or cannabinoid content - PubMed


Results - Indoor grown cannabis yield increased proportionally with light intensity, but ultraviolet radiation did not affect yield or cannabinoid content Overall, high PPFD levels can substantially increase cannabis yield, but we found no commercially relevant benefits of adding UV to indoor cannabis production.

Hmmmm....
 
Studies were done in the 80s that suggested UV was beneficial. However, it's not 1985 anymore and modern studies are producing a different conclusion.


Indoor grown cannabis yield increased proportionally with light intensity, but ultraviolet radiation did not affect yield or cannabinoid content - PubMed


Results - Indoor grown cannabis yield increased proportionally with light intensity, but ultraviolet radiation did not affect yield or cannabinoid content Overall, high PPFD levels can substantially increase cannabis yield, but we found no commercially relevant benefits of adding UV to indoor cannabis production.

Hmmmm....
Thank you for sharing your thoughts. It would be a win-win if there was more accurate information that could help growers. :thanks:
 
Results - Indoor grown cannabis yield increased proportionally with light intensity but ultraviolet radiation did not affect yield or cannabinoid content Overall, high PPFD levels can substantially increase cannabis yield, but we found no commercially relevant benefits of adding UV to indoor cannabis production.

Hmmmm....

UV supplementation is all about the terpenes not the yield. ;)

Which UVB lights to get?

j
 
UV supplementation is all about the terpenes not the yield. ;)

Which UVB lights to get?

j

Oh really? Tell me more. Because terpenes are a commercially relevant byproduct and science has not found a commercially relevant use for UV lights with cannabis.

The studies I have seen regarding terpenes shows evidence of UV disrupting the balance of terpenes. For example, getting more of one kind terpene and less of another. There are also studies that show a total reduction of terpenes. This one showed a 20% reduction in terpenes with UVB.

Cannabis Yield Increased Proportionally With Light Intensity, but Additional Ultraviolet Radiation Did Not Affect Yield or Cannabinoid Content

So please explain how UVB is "all about the terpenes". :goodluck:
 
The claims made in that link are not supported by actual science.

What do you call 'actual science'?

From the link:

Dutch Passion, one of the worlds oldest seedbank companies, has tested the MIGRO UVB to determine the effect on terpene levels.
They ran a controlled test in a side by side grow, one side with UVB, one without. There was a 19% increase in terpene levels under the UVB fixture, some terpenes increasing by almost 50%.
Increased terpenes mean increased flavour and smell. Research also indicates increased terpene levels can lead to a more complex and satisfying effect when consumed.

Link to the full Dutch passion blog post here:
How to increase terpene levels in cannabis plants

Everything you need to know about terpenes:

Everything you need to know about terpenes

To me conducting experiments and notating the results is 'actual science'. ;)

j
 
When the results aren't replicated by actual scientists.

It's only a matter of time before your 'actual scientists' start replicating the experiments done by Dutch Passion, etc. and officially release their findings.

As you know, science (unlike religion) is continually evolving, new science contradicts and replaces old science and sometimes the new science is contradicted and we go back to the old science, lol.

One example that comes to mind is how fat was demonised to be the major cause of weight gain, we removed it from food but upped the sugar content. Now we know sugar is more responsible and some are going back to full fat diets but restricting sugars. I'm sure this debate is not over so let's not derail this thread with diet science - 😆

Unfortunately prohibition not only prohibits the public from using the prohibited items, it also has the unwarranted effect that scientists can't study what is prohibited. We are decades behind in cannabis science but now that the law has been lifted in some states, scientists are scurrying to examine cannabis to find health benefits, improvements in cultivation, etc.

As they say in the classics, watch this space. ;)

j
 
There are numerous modern papers that conclude UVB is not beneficial to growing cannabis.

Were they, in those papers you mention, testing for increases in terpenes though?

From the link 'you' supplied above:

Ultraviolet (UV) radiation shows potential in stimulating cannabinoid biosynthesis in cannabis trichomes and pre-harvest or post-harvest UV treatment merits further exploration to determine if plant secondary metabolite accumulation could be enhanced in this manner

Cannabinoids and Terpenes: How Production of Photo-Protectants Can Be Manipulated to Enhance Cannabis sativa L. Phytochemistry


j
 
Plants generate protective molecules in response to ultraviolet (UV) light. In laboratory experiments, 48 h UV-B irradiation of peach fruits and leaves reduced the flavour-related monoterpene linalool by 60%. No isoprene was detected but other terpenoids increased significantly, including a threefold accumulation of the sesquiterpene (E,E)-α-farnesene, which was also increased by jasmonic acid treatment.

UV-B irradiation differentially regulates terpene synthases and terpene content of peach


Of course this experiment was done on peaches, only a matter of time before your 'actual scientists' do this experiment on cannabis.

j
 
Of course, they have done studies with cannabis UVB and terpenes. This is just one example. There are more.

Cannabis Inflorescence Yield and Cannabinoid Concentration Are Not Increased With Exposure to Short-Wavelength Ultraviolet-B Radiation


Conclusion -

While the total terpene content in inflorescences decreased with increasing UV exposure level in both cultivars, the relative concentrations of individual terpenes varied by cultivar. The present study suggests that using UV radiation as a production tool did not lead to any commercially relevant benefits to cannabis yield or inflorescence secondary metabolite composition.
 
When the results aren't replicated by actual scientists, it's not actual science. There are numerous modern papers that conclude UVB is not beneficial to growing cannabis.
That and usually a university study does it for me. Imho CL🍀
 
“Therefore, modern cannabis genotypes may function nearer to cannabis’ maximum capacity for producing Δ9-THC; which could impede their ability to further increase Δ9-THC production under an abiotic stress such as UV exposure, relative to older genotypes.”

This was an interesting bit in that article.. I’m still unsure on UV but IR has intrigued me ever since I saw this image
83FCAE95-BFFD-4A4E-84CC-62A8AA203D6C.jpeg
 
Of course, they have done studies with cannabis UVB and terpenes. This is just one example.

Yes it's one example and from 'your' link:

Given the myriad potential UV exposure algorithms (i.e., combinations of spectrum, intensity, and temporal application strategies) more research is needed to determine if and how UV exposure in indoor cannabis production may be a commercially-relevant production tool and elucidate appropriate treatment protocols for commercial applications.

;)

j
 
Yes it's one example and from 'your' link:

How many do you need to see before being convinced? Probably a lot. There are several available for your review.

But you only need one sketchy example that tells you what you want to hear for it to be true.

UVB might have a marginal benefit under some undiscovered scenario, but I'm pretty sure I won't be putting UVB in my tent if actual science ever makes that discovery.
 
How many do you need to see before being convinced? Probably a lot. There are several available for your review.

But you only need one sketchy example that tells you what you want to hear for it to be true.

UVB might have a marginal benefit under some undiscovered scenario, but I'm pretty sure I won't be putting UVB in my tent if actual science ever makes that discovery.

What @Jaz is saying is that the link you provided showing UV has no benefit actually says:

Ultraviolet (UV) radiation shows potential in stimulating cannabinoid biosynthesis in cannabis trichomes and pre-harvest or post-harvest UV treatment merits further exploration to determine if plant secondary metabolite accumulation could be enhanced in this manner” .

Jaz’s argument is that the link you provided showing there’s no benefit, actually states right in it that there’s a possibility it does.
 
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