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
 
OK, so I came back today to this thread, wondering if I missed anything. And I came to the realization that I never included in any of my descriptions how I handle light intensity across all of these grows. If I'm asking everyone to provide the following, I guess I should too. I have handled it the same for HID and LED. I went into this with a healthy suspicion of LED effectiveness. That caused me to keep the same practices for light height between platforms. I'm beginning to question if that may not be the most effective. But to task:

What light heights did you maintain throughout veg, transition and bloom?
Veg – start @ 30”, drop 4-6" per day down to 16”
Transition – start @ 16”, drop to 12” over the week (I frequently skiped transition nutes with HID because plants stretched like crazy without it)
Bloom –maintained at 12” throughout bloom. This was old school methodology using back-of-hand heat test & my hand never burst into flames.

Watts per sq. ft. - I covered this in various places if you did the math, and I never said there would be no math....
But to wit,
HID = 250W / 4 sq.ft. = 62.5W / sq. ft.
LED = 325W / 5 sq. ft= 65W / sq. ft.

OK Boyz & Girls, keep those cards & letters coming. As [HASHTAG]#5[/HASHTAG] said, Need input!!!
 
Hi. Cool thread.
The only thing I'm intelligent enough to even comment on is that you can't possibly use "LED" as a light type. The variation across the different forms of LED lighting is huge, and I personally believe that most of your answers can be found within that variation in LED type: diode wattage, colour, type (cob etc).
I don't think it's the difference between HID and LED, so much as the difference between all the various forms of light.
5w diodes for example. I believe they discourage stretch.
Then look at different colour temp cobs: the same technology or type of light emitter, yet the different spectrum cobs definitely promote or discourage stretch.
Maybe I am just missing something extremely obvious in the thread/disussion or I'm answering the wrong question, but to me you cannot possibly use LED as a light type. Well you can, but it seems meaningless to me.
Hope I don't sound like an arrogant twat because I know sod all basically, but have my own experience and that of others I watch grow.
Cheers :thumbsup:
 
I just read the first paragraph @Olde School Player

I'll take my time reading the rest of this discussion. But I wanted to ask this question right away.

You mention either encourage or minimize stretch with light intensity. Is the ideal amount of stretch something in the middle? I have always thought you want to have some stretch for sure so you can have long colas with lots of buds stacked on them. And the only time you would want to minimize it is if your space is not tall enough. If you have enough height you would want to encourage stretch all the way up right? Why limit it?
 
@fettled6 @MedGrower @912GreenSkell thanks for the quick replies Gents, lets me know my thread made sense & maybe I'm on to something here.
You all said it well, there are so many extenuating factors in this, especially genetics as MedGrower states. Over my twelve auto grows, multiple strains, all HID grows did longer buds and LED did more compact rocks.
I think my experiences with HID and LED over a few years have led me to believe that color spectrum is pretty well under control. Yes, some tailoring of LED spectrums might offer (minor) improvements. Equating to the old MH-veg and HPS-bloom, better spectrums for their specific task.
And certainly all the other things we need to do to insure a successful grow have an impact. However, given the attention I have always given to those (pay attention to the small stuff and the big stuff will take care of itself) I believe standard grow factors are comparable across the two grow platforms. So I keep coming back to light intensity having the biggest effect on a plant's growth.
I see improvements in bud density with LED. I see better stretch with HID. If I can't fix this with light height, then plan B is to dust off my HID for veg and transition, then finish with LED.

I do wonder - a number of growers have expressed the opinion that HID intensity for better for penetration into the plant canopy while LED is better for bud density. I wonder if LED is just fine for penetration, but its increased intensity has kept stretch at bay so penetration became less of an issue? Hmmmm.
Thanks again, Team!!!


Very very intresting ,,,, I doing some square ft grows which I hope too in part make use of this observation ,,, 9 per square ft,, that would make 11x9 for a total square ft of 11 using ave 38 watts per square ft ,,,ille let you know how it's working out ,,,
 
Very very intresting ,,,, I doing some square ft grows which I hope too in part make use of this observation ,,, 9 per square ft,, that would make 11x9 for a total square ft of 11 using ave 38 watts per square ft ,,,ille let you know how it's working out ,,,

I use a blurple and I find it's sweet spot is quite narrow for pop corn free buds ,, every led combo/light mixture has its own sweet spot I reckon
 
Hi. Cool thread.
The only thing I'm intelligent enough to even comment on is that you can't possibly use "LED" as a light type. The variation across the different forms of LED lighting is huge, and I personally believe that most of your answers can be found within that variation in LED type: diode wattage, colour, type (cob etc).
I don't think it's the difference between HID and LED, so much as the difference between all the various forms of light.
5w diodes for example. I believe they discourage stretch.
Then look at different colour temp cobs: the same technology or type of light emitter, yet the different spectrum cobs definitely promote or discourage stretch.
Maybe I am just missing something extremely obvious in the thread/disussion or I'm answering the wrong question, but to me you cannot possibly use LED as a light type. Well you can, but it seems meaningless to me.
Hope I don't sound like an arrogant twat because I know sod all basically, but have my own experience and that of others I watch grow.
Cheers :thumbsup:

This is what I was thinking too, but I'm such a newbie I didn't even want to reply to this thread after I read thru OSP's first few posts finally. I just dont have the experience to think about or add much value to this advanced growers topic.

I've read more than once that LED like COB's are way better than the cheap Chinese blurple lights. And therefore with COB (or other improved LED types) you can expect superior penetration and intensity and therefore the grow characteristics will be better. Like you'll get lots of stretch just like with olde school HID lighting. If OSP had started with COB lighting, would he even have started this discussion?
 
I kinda done a comparison grow. Last grow was like 600 wall watts of 6000k and a 485 wall watt blurple kept about 36'' from canopy and never got any stretch. This grow is 80 wall watt 6000k and 350w 3200k cob and stretching like crazy compared to same height just different kelvins
 
I kinda done a comparison grow. Last grow was like 600 wall watts of 6000k and a 485 wall watt blurple kept about 36'' from canopy and never got any stretch. This grow is 80 wall watt 6000k and 350w 3200k cob and stretching like crazy compared to same height just different kelvins
yep another variable ,,,,
 

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