a wicked pulse
- Thread starter delta9nxs
- Start date
village green
Member
Beautiful plants there Delta. Boggles the mind to think what they would have been without the worms. Better luck next time.
village green
Member
Those plants look wonderful..
I found one of the hardware chains nearby has the 3/8" push fittings for about 1/3 as much as anywhere else I have seen them.
I found one of the hardware chains nearby has the 3/8" push fittings for about 1/3 as much as anywhere else I have seen them.
zeke99
Active member
This short essay (it's a website companion to a textbook) explains exactly how the red:far-red ratio works in the plant.
The first sentence is definitely new to me and also mind-blowing. Plants are highly intelligent!
http://5e.plantphys.net/article.php?ch=&id=236
Know Thy Neighbor through Phytochrome
Plants can detect the presence of neighbors very early, well before mutual shading occurs. Upon detection of the proximity of potential competitors many plants respond with a series of morphological changes, the most conspicuous of which is a strong stimulation of stem elongation (Figure 1). The increased height growth positions the plant to intercept light better when competition finally arrives.
The early perception of neighbor proximity is based on the detection of changes in the spectral composition of solar radiation that are produced by interaction of sunlight with green leaves. Leaves effectively absorb photons in the blue (B, 400–500 nm) and red wavebands (R, 500–600 nm) of the solar spectrum. Absorption in the green (400–500 nm), and particularly in the far-red region (FR, 700-800 nm) is weaker and many photons of these wavelengths are back scattered in the form of diffuse radiation. We are sensitive to the green photons that bounce off the leaves (that is why we see leaves as green), but we cannot see FR radiation because our photoreceptors are blind to wavelengths longer than 700 nm. The plant photoreceptors phytochromes, in contrast, are maximally sensitive in the R and FR regions of the spectrum.
As plants grow and the leaf area index (LAI, leaf area per unit ground area) of the canopy increases, the ratio of R to FR radiation (i.e., R:FR) of the light reaching the stems of each individual plant decreases (Figure 2A). In the very low range of LAIs (LAI < 1.0; plants do not shade each other), the R:FR decreases mainly because there is an increase in reflected FR. In dicots with erect main stems, this increase in FR modifies the light environment of the internodes (Figure 2B) without greatly affecting the spectral balance of the leaves, which is dominated by the contribution of direct sunlight. The resulting decrease in R:FR is of enough magnitude to be sensed by phytochrome molecules located in the stem tissue. The lower R:FR causes a reduction in the proportion of phytochromes that are in the active (Pfr) form and this reduction, in turn, stimulates stem elongation.
Unfortunately, the Lightscout Red/Far Red Meter retails for $895.00...
The first sentence is definitely new to me and also mind-blowing. Plants are highly intelligent!
http://5e.plantphys.net/article.php?ch=&id=236
Know Thy Neighbor through Phytochrome
Plants can detect the presence of neighbors very early, well before mutual shading occurs. Upon detection of the proximity of potential competitors many plants respond with a series of morphological changes, the most conspicuous of which is a strong stimulation of stem elongation (Figure 1). The increased height growth positions the plant to intercept light better when competition finally arrives.
The early perception of neighbor proximity is based on the detection of changes in the spectral composition of solar radiation that are produced by interaction of sunlight with green leaves. Leaves effectively absorb photons in the blue (B, 400–500 nm) and red wavebands (R, 500–600 nm) of the solar spectrum. Absorption in the green (400–500 nm), and particularly in the far-red region (FR, 700-800 nm) is weaker and many photons of these wavelengths are back scattered in the form of diffuse radiation. We are sensitive to the green photons that bounce off the leaves (that is why we see leaves as green), but we cannot see FR radiation because our photoreceptors are blind to wavelengths longer than 700 nm. The plant photoreceptors phytochromes, in contrast, are maximally sensitive in the R and FR regions of the spectrum.
As plants grow and the leaf area index (LAI, leaf area per unit ground area) of the canopy increases, the ratio of R to FR radiation (i.e., R:FR) of the light reaching the stems of each individual plant decreases (Figure 2A). In the very low range of LAIs (LAI < 1.0; plants do not shade each other), the R:FR decreases mainly because there is an increase in reflected FR. In dicots with erect main stems, this increase in FR modifies the light environment of the internodes (Figure 2B) without greatly affecting the spectral balance of the leaves, which is dominated by the contribution of direct sunlight. The resulting decrease in R:FR is of enough magnitude to be sensed by phytochrome molecules located in the stem tissue. The lower R:FR causes a reduction in the proportion of phytochromes that are in the active (Pfr) form and this reduction, in turn, stimulates stem elongation.
Unfortunately, the Lightscout Red/Far Red Meter retails for $895.00...
village green
Member
not intelligence so much as a very sophisticated evolutionary survival strategy.
this is an actual molecular level switch that functions in real time like a light switch on the wall. controlling morphological adaptations to changing light conditions through gene expression.
when viewed in this context defoliating no longer can be described as "stunting".
instead it should be described as better resource management.
if, under any given set of conditions, the plant has a limited amount of resources available for growth, for mass building, would you rather have the plant busy building stem or bud sites.
paying attention to the leaf area index all the time so you don't induce serious stalls.
another aspect to this is that it is not about "quantity" of light. it is about "quality" of light.
so we have the hps's for the main source of photons, the brute force element that drives photosynthesis.
but because they are not the moving sun but are fixed emitters we can't hit all those nodal points on the stems with at least enough balanced light to control the r/fr trigger.
without supplemental lighting.
icmag member and fellow verticologist catman made a reference the other day to using flo's around the backside of a doughnut grow for enhanced production.
and they could be used that way effectively.
for actual grow power.
but for the same money you could add more hps light, more or less, and be more efficient.
but what i'm thinking about is just enough cheap light to eliminate shadows in the intra-canopy area of the plant.
if you look at spectrum on 5500k and 6500k color temp flo's they have almost no far red (740nm) at all. they do have significant red (660 nm).
the plant senses the ratio sub canopy as it is altered by the foliage between the receptor sites and the light source.
the foliage intercepts red very well but not the far red, which because of wavelength has greater penetration, and it continues on to hit the nodes.
it is the presence of far red not the absence of red that triggers the switch.
almost no far red is used in photosynthesis.
i was thinking about using some flo's this time but couldn't get to it in time. maybe the next one.
village green
Member
Ya'll just need to stop it. You're giving me a far out headache. 800 mg ibuprofen ain't touching it. The only thing that seems to ease it is to visualize the old bud factory using shelves and flourescents. Was it Mel Frank's book? Anyhoo, I'm thinking super stretchy strains in floor level PPKs that snake up and around 4 shelves with LED/flourescent/induction/plasma mixed spectrum phototropic pulses. Ahh...that's better now.
howdy, dr fever! welcome! i started flower on the 29th so we're at 15 days now. everything is looking good but not much different from the last set of pics. all remaining plants are budding nicely.
just letting them grow for a while.
MrAwder
Member
Hey d9 been following along for quite a while and still remember when you originally started the PPK thread.
I'm very interested in this supplemental lighting concept. Throwing more watts of HPS at the problem is one answer but I think the advantage would come from less heat and less overall power usage. I would guess if you are already in the 50wpsf range then this would be more beneficial. Especially in vert where you should be able to get fantastic penetration even with CFL's by placing them behind the donut/trellis/screen. My extremely simplistic 2 cents.
I think I might look at adding 2 4ft tubes along each of my walls. If it doesn't work I'll have new veg fixtures.
I'm very interested in this supplemental lighting concept. Throwing more watts of HPS at the problem is one answer but I think the advantage would come from less heat and less overall power usage. I would guess if you are already in the 50wpsf range then this would be more beneficial. Especially in vert where you should be able to get fantastic penetration even with CFL's by placing them behind the donut/trellis/screen. My extremely simplistic 2 cents.
I think I might look at adding 2 4ft tubes along each of my walls. If it doesn't work I'll have new veg fixtures.
D
DHF
......Ya`ll waaaaaay over my old head , but I like the knowledge......Got many growbro` s that grow big plants with supplemental fluorescent back lighting behind the plants for increased spectrums and canopy penetration ......
D9....Love yer shit.....
Peace.....Freds....
.....Bud buster
Member
Love the room they are blowing up. I got some security light fixtures for CFL's painted the inside white they have two bulbs that can be pointed anywhere works great but with your room long tubes would be easier.
stagehand099
Member
Hey D9, whats the backstop fencing called (opening size?), and if you got at a big-box store, mind saying which? Thanks.
stagehand
stagehand
hey, i'm not sure what happened here but i thought i had answered this once.
but anyway, i'm not talking about light for photosynthesis, what i have in mind is a small amount of light at the correct frequencies to control or at least influence the red/far red ratio as perceived by the phytochrome b receptor cells.
i do believe that sometime in the future we will be able to grow dense bud with perhaps a combination of flo's and led's.
Got many growbro` s that grow big plants with supplemental fluorescent back lighting behind the plants for increased spectrums and canopy penetration ......
D9....Love yer shit.....
Peace.....Freds....
hey freds, you know you were talking about the plants giving off co2 during lights out?
it is absolutely happening.
i have the controller set at 650 ppm with a 25 ppm dead band. with the sensor mounted dead center in the grow about 8' from the generator it will run up to about 950 ppm in the room.
i put a timer on the controller and started decreasing the on time to try to deplete the co2 before lights out.
i now have it on only 6 hours each period cutting it off at midnight halfway through the period.
it won't fire in the dark so that is the last input for the day.
at 6 am lights out the room will be around 500 ppm.
by 10 am it is up to 650 plus. it can only come from the plants.
hey bud buster! welcome to icmag!
