Effects of Light Intensity on Plant Growth

Greetings, AFN members, OSP here. I’m a new AFN member moving in from another forum. After sneaking around a number of threads here looking for secret information, I’ve decided to start this thread. I want to evaluate the effects of light intensity on plant growth. More specifically, how lighting can be used to encourage or minimize plant stretch.
In the short time I’ve been a member here I’ve met a number of very knowledgeable growers, and I’m inviting each of you to participate or chime in as you see fit. Since I am new to AFN I’m sure I’ve missed a lot of interested parties. If you are reading this feel free to tag in anyone I’ve missed:
@fettled6 @912GreenSkell @bushmasterar15 @Waira @MedGrower @Son of Hobbes @Nosias @Screwauger @HemiSync @ChroToker @Need4Weed

I've grown photoperiods since forever under High Intensity Discharge (HID) lighting, and stretch has always been a thing to plan for. Several years ago I decided to experiment with an autoflower freebie, and since then I've completed (12) single-plant autoflower grows. To the point that I'm not doing photoperiods anymore. Maybe again one day. I have a Colombian Gold freebie that has brought back memories, but not today.
In the process of migrating from photoperiods to autoflowers, I also began a transition from HID to LED lighting. Over this period I began to see a pattern. With every one of my HID grows, all my autoflowers exhibited healthy stretch. It started quicker than photoperiods, but the overall effect was similar. Low Stress Training (LST) was effective, bud quality was very good and yield was very good to excellent. But with my LED grows, absolutely NONE of my autoflowers stretched. I had complete grows that never exceeded 10” in height.But with LED I can’t help but think much more is possible. Over 44+ years of growing I’ve seen well trained plants out-yield plants with no training every time. So I want the ability to encourage stretch in my plants.
For the sake of other AFN members, I believe the inverse of this stretch phenomena could be very beneficial to growers with a limited amount of grow space headroom. I want to prove or disprove, to some relative degree of certainty, that light intensity can be used to influence stretch when growing cannabis. But first I need to gather data on other growers’ experiences with plant stretch, and its association to light intensity during the plant’s lifecycle.

This is NOT an opinion piece of “is LED better than HID?” LED is certainly different, and in many respects (heat &efficiency) we all know it IS better. And this is NOT an attempt to compare LED lighting brands. There are numerous characteristics of LED lighting that determine light quality, and our most excellent site admin, @Son of Hobbes has started a thread on what parameters can be used to define those. His efforts may be reviewed here: https://www.autoflower.org/threads/what-should-be-on-a-grow-light-review.64857/ I’ve added a few well chosen thoughts on that topic - PAR watts, efficiency, most favored color spectrum, etc.. But I’m not smart enough to make that final differentiation so I’m happy to watch as SOH finishes that. The only facts I intend to present here are those I’ve experienced with my auto grows.

There are a number of other factors besides lighting that affect plant growth. In an effort to keep this thread focused on light intensity with no outside variables, I asked one of AFN’s most experienced members, MedGrower, for his input. His comments, and my follow up confirming those variables were addressed, can be found in his grow thread located at https://www.autoflower.org/threads/...-dwc-hs1-telos-0008.64718/page-2#post-1758834
In consideration to MedGrower, if you have any comments / questions, send them to me or post here. I don’t want to trash his grow thread with my conspiracy theory so I’m asking each of you to please share that consideration with me.

For the sake of this study I’d like to focus on the two main lighting factors that control intensity - light height throughout the grow cycle, and “power” of the light over the grow canopy; i.e. watts per sq.ft.. Light height is an easy factor to define as long as we document the variation during a plant’s growth cycle. Plant canopy area is an easy measure. Power consumption is an easy measure. I know, watts per sq.ft. is not the most meaningful measure of an LED’s efficiency. But until or if we ever reach consensus of an industry standard measure for all lighting types, I am using watts consumed at the wall, per square foot. No matter how much we insist this is not the best method (I agree), wattage consumed per square foot is the only readily available factor across all lighting types. And no matter how much we agree to disagree, it should provide a reasonable enough classification of small / medium / large lighting to support this study.

My light ratings are 62.5W/sq.ft. for HID and 65W.sq.ft. for LED. As to other influences on plant stretch, my grow techniques with HID and LED are as close to identical as one can get for environmental control and nutrient regimen. So enough intro, let’s kick this in the ass as I describe my experiences with autoflowers to date.

My starting system for HID is a 250W cooltube and batwing reflector with a metal halide bulb for veg and a high pressure sodium for bloom. The tent is a 4 sq. ft. system (2' X 2' X 5’3") by Secret Jardin. I configured it with (2) 4” 170CFM centrifugal fans, one for light cooling and the other for odor control through a 12” X 4” Phresh carbon filter). My nutrient regimen is General Hydroponics’ expert recirculating formula with some strength and slight ingredient tweaks. This regimen has not changed between HID and LED grows.
I grow hydroponically, and my system is configured for a single plant in a DIY 4 gallon Ebb ‘n Gro net pot with hydroton clay pebbles. The system floods automatically every two hours for 15 minutes. I call this DIY because I do not rely upon the complex valves and fittings normally associated with commercially available ebb and grow systems. Those systems rely upon multiple pumps, flow control valves and timers opening and closing with each flood cycle to deliver and recover nutrients to/from the plant. A strength of these commercial systems is they enable the reservoir to sit at the same height as the grow containers. Negatives are they are complex and expensive. My system relies upon a passive DIY manifold sitting on top of the reservoir, and the only moving part is an inexpensive and very reliable 170 gph hydro pump. Total ebb n’grow component cost with four net pot buckets was under $100. I bought four net pot buckets to simplify plant positioning changes throughout my grows, and to run parallel grows in separate tents. My DIY manifold does raise system height by the height of the reservoir, but the entire reservoir, tent and plant container system comes in under 7’ tall. It’s a quality system with all the right parts, and it fits in a closet if it has to (mine doesn’t).

I’m going to drift off topic for a moment as I’ve been known to do. I’ve used all types of hydro systems for many years and this is my favorite. It re-oxygenates the root zone after each flood every two hours. Supply to the net pot is positive pressure flow, while draining is passive / gravity, so aggressive root growth is pushed back into the net pot and will never cause a clog in the system’s hydro line. And even if a clog were to somehow mysteriously occur, overflow is not possible due to the design of the manifold. The system is fully automated - I recently took an eight day trip with no worries that the system would stay fully functional until I returned, and it did. A separate reservoir (I use 12 to 14 gallons) from the grow container makes nutrient changes and maintenance simple, and the added capacity gives me plenty of “headroom” in the nutrient mix as the plant drinks.
Here’s a pic of the original HID tent. The manifold is the white bucket to the left outside the tent. The ebb ‘n Gro bucket is slightly out of position on the shelf behind the tent:

IMG
 
Here is a link with some interesting info about spectrum and cannabis that started me thinking way back. It also states that if the red to blue ratio is low, i.e. 60/40, the stretch will be minimized, and adding red will help the stretch. I too, that one step further, and found out that far reds and IR, as well as the UV need to be introduced early if you want that big stretch.
There is a phenomena called "shade stretch response", when you introduce the far reds, the plant thinks it is being shaded by larger plants and stretches.
Take a look. There is so much more out there and in my own study. Using your spectrum to adjust the plant itself is called photomorphogenetics. This is what I have been trying to explain to other growers. You can taylor make the plants and adjust spectrum to adjust thc, flavor and terpene production, oil and resin production as you would like them, to some extent.
I have been able to hunt elite phenos, and create plants with either more yield, or more potency. Fully adjustable light spectrum is where the future of growing is going to go. I just can't afford to spend that much money on a tech that is still developing. I will do my own experiments and wait a few years until the tech is better.

Here is the link.

https://californialightworks.com/using-spectrum-control-design-plant-aka-photo-morphogenetics/

Rock on AFN!

@MedCzech and I had a bit of a chat about this oddball globe

View attachment 944118 600w Ceramic HPS
View attachment 944119
What a weird spectrum!


f6

@MedCzech still haven't made time to follow that link & study its content, but I will.
I have a busy next month ahead of me with kids & grandkids visiting & I really feel the need to make a backpacking run at the North Country Trail before winter sets in. There's a 50-ish mile section I think I can do in a week with plenty of time for some pristine wilderness trout fishing along the way. Also taking bets on if I will smoke any weed while I'm there. But this is just waaaaay too intriguing to not follow up at least a bit now. This sounds like it could provide the answer to why my plants stopped stretching when I switched from HID to LED.​
So for now, I want to be sure I understand the premise you referenced above - a low 60/40 red-to-blue ratio inhibiting stretch. Does that mean less red to more blue, with 60% referencing blue? That would kind of make sense as the rest of the sentence stated "...adding red will help the stretch". Or does 40% reference blue, and that's all that's needed to inhibit stretch? It also fits my old HID learnings. When I was exclusively photoperiod grows, whenever I switched from metal halide 5500-6000K blue-leaning spectrum to high pressure sodium 2900K red leaning, the plants would stretch like crazy. But after I switched to auto's, my first several grows under HID always stretched quite well under metal halide, and bloomed and finished nicely under high pressure sodium.
And quite honestly, I don't recall the last time I looked at a spectrum chart for any of my old HID bulbs. But the general premise was always white to veg and red to bloom, and what you're referencing above seems to reiterate that in a format I might be able to take forward to LED.
Now your taking it one step further with "... far reds and IR, as well as the UV … introduced early if you want that big stretch" how does that relate to the spectrum in the ceramic HPS bulb that fettled6 mentioned? It certainly has a healthy range of red / far red into the infrared range, where most bulb specs used to just stop because visible spectrum stops at 700 nm. @fettled6 how does that compare to your CMH bulb spectrum that recently had you worried if Jack's Giant would be climbing down your weed stalk?

I don't understand half of what I know about this but hell yeah, it's going to be fun learning more!
 
Totally agree with the old blue and red dance, hell even the nutes back then we're red and blue.

Dark ages, still pulled 400g dry each plant.

The CMH is definitely more like an old style MH but depending on the end result on overall bud quality is yet to be compared to traditional mh/hps

The CMH is almost ideal, I think it's about 4k. Pretty sure the native 315 and 630 cmh have a few spectrum choices, I'm thinking to retire the 600w mh/hps I have with a 315w cmh rather than cobs as 4 is 200w and about 2 times the price


If I get a good finish with this big dog! (looking good)


f6
 
@fettled6 what caught my eye on the bulb you and MedCzech were discussing is that it is a ceramic HPS. I have not delved into any of the ceramic technologies; you CMH grow is the first I've had exposure to. So just wondering if the two of you reached a consensus on what that spectrum would do? The spectrum chart you posted certainly shows a lot of strength in the red / far red spectrum, and I suspect, would keep going into the infrared regions that MedCzech has found helps to induce stretch.
Hmmmm, I still have all my HID ballasts....
 
So maybe a bit further detail.

My grow system has been dialed in for some time, so nothing varying wildy there.

Previous recent grows a mix of 600w mh/hps and usual results.

The 860w cmh stupid stretch, contorllable by my word be prepared!

Knipsel_zps2c421572.jpg

The phillips 860w is discontinued but someone else does one. The 315w and 630w are more efficient so possibly a good alternative to cobs.

Was going to buy cobs now to be ready for summer but holding out to see the results of my current grow.

IMG_20180824_163456.jpg

@ day 45 (bag weed buds arnt even that big!)


f6
 
@fettled6 what caught my eye on the bulb you and MedCzech were discussing is that it is a ceramic HPS. I have not delved into any of the ceramic technologies; you CMH grow is the first I've had exposure to. So just wondering if the two of you reached a consensus on what that spectrum would do? The spectrum chart you posted certainly shows a lot of strength in the red / far red spectrum, and I suspect, would keep going into the infrared regions that MedCzech has found helps to induce stretch.
Hmmmm, I still have all my HID ballasts....

Hortilux bangs on about the Ceramic hps but I think it's not ideal

They say the reds slow stretch, @MedCzech says it induces!

Funny thing is the kit they sell has a far blue MH globe included! And very difficult to find that globe singularity! They want you to run far blue then far red!


Hmmmm


f6
 
Hortilux bangs on about the Ceramic hps but I think it's not ideal

They say the reds slow stretch, @MedCzech says it induces!

Funny thing is the kit they sell has a far blue MH globe included! And very difficult to find that globe singularity! They want you to run far blue then far red!


Hmmmm


f6

Maybe I can catch up this weekend, sounds like no quick answers for this warped mind :shrug:
 
Heh, no stress mate!

After we sort this one well get onto world peace!

:bump:

f6
Here is info I got from an article from California Light Works.
It is my experience, that this far red ratio being so high creates a shade stretch response in the plants that is clarified below. Take a look.
I am all in on saving the world though for sure!:d5:


Red light (640nm-680nm)

Red light affects phytochrome reversibility and is the most important for flowering and fruiting regulation. These wavelengths encourage stem growth, flowering and fruit production, and chlorophyll production.

The 660nm wavelength has a very strong photosynthetic action and also exhibits the highest action on red-absorbing phytochrome regulated germination, flowering and other processes. Most effective for light cycle extension or night interruption to induce flowering of long-day plants or to prevent flowering of short-day plants.

Far red (730nm)

Although the 730nm wavelength is outside the photosynthetically active range, it has the strongest action on the far-red absorbing form of phytochrome, converting it back to the red-absorbing form. It becomes necessary for plants requiring relatively low values of the phytochrome photoequilibrium to flower. Can be used at the end of each light cycle to promote flowering in short-day plants such as Cannabis.

Also, a higher ratio of far-red to red than found in sunlight can trigger the shade stretch response- where a plant when sensing it is shaded based on an elevated ratio of far-red to red- will stretch to try to elevate its canopy above its competitors. This is why too much far-red is not advised if compact plants are desired, or in general. But small amounts or FR as provided by California LightWorks in our R/FR channel is very beneficial, and for this reason the ratio or R to FR is fixed on one channel in the 550 series.
 
Ok, here is some useful feedback.

This big dog 860w CMH in the Growlite OG hood.

Theory and thought only at this stage based on observation. (and only over a few days, but this lamp is showing us something here)

To me, seems to be intensity over spectrum.

So my recent stupid stretch has now changed to almost 0 vertical but buds are now just going stupid fat at the same rate (mm not cm but yeah you get the idea!)

Ok, for the sake of some qualification of intensity.

IMG_20180828_183547.jpg

Citris Noir, check the sun leaf differnce, the top/leading one is in a far more intense light frame and is cannoeing, yet she prays like a zealot!

IMG_20180828_184048.jpg

Canopy is even and I have a huge amount of airflow, 4 fans. Tried to hang my meter in maybe the hottest spot, reading 26.8c and 53% RH (saw some higher temps but nothing bad)

This hood is apparently parabolic, has a range, tbh I just needed a cooled hood and although a big stupid thing there ain't much I could get locally.

I did see some charts with this hood that had shadows, it also has a glass cover to seal which cuts %20 out of the efficientcy... So my 860w CMH is now 688w? I think not.


The fact that they all 3 strains stretched the same.

Maturity and even closer proximity to the intense light, the same light since seedling and now they have stopped vertical growth and are plumping buds..

Discuss my fellow :chimp:


f6
 
Ok, here is some useful feedback.

This big dog 860w CMH in the Growlite OG hood.

Theory and thought only at this stage based on observation. (and only over a few days, but this lamp is showing us something here)

To me, seems to be intensity over spectrum.

So my recent stupid stretch has now changed to almost 0 vertical but buds are now just going stupid fat at the same rate (mm not cm but yeah you get the idea!)

Ok, for the sake of some qualification of intensity.

View attachment 945622
Citris Noir, check the sun leaf differnce, the top/leading one is in a far more intense light frame and is cannoeing, yet she prays like a zealot!

View attachment 945623
Canopy is even and I have a huge amount of airflow, 4 fans. Tried to hang my meter in maybe the hottest spot, reading 26.8c and 53% RH (saw some higher temps but nothing bad)

This hood is apparently parabolic, has a range, tbh I just needed a cooled hood and although a big stupid thing there ain't much I could get locally.

I did see some charts with this hood that had shadows, it also has a glass cover to seal which cuts %20 out of the efficientcy... So my 860w CMH is now 688w? I think not.


The fact that they all 3 strains stretched the same.

Maturity and even closer proximity to the intense light, the same light since seedling and now they have stopped vertical growth and are plumping buds..

Discuss my fellow :chimp:


f6
That's a lot to think about. They look great for sure. I will have to take some time to ponder your findings.
 

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