Abstract:
A growing number of evidence shows that plants benefit from a presence of green light in a spectrum of a light source. Green light is transmitted through plants' organs and is efficiently utilized in deeper layers of cells and in intracanopy leaves. Green diodes are sometimes used in LED luminaries. Optionally green light can be provided as a part of a spectrum of more efficient white LEDs. Yet the effect of broad-spectrum LED light on plant growth is not fully understood. We compared the growth of green and red cultivars of basil, Ocimum basilicum under blue-red-green (BRG), blue-red-white (BRW) and red-white LED light regimes of the same photon flux density and the same blue:red ratios. No significant difference was observed in biomass accumulation, leaf production and branching under green or white enriched spectra. Only red cultivar showed reduced growth under decreased blue:green ratio. Depending on the method used for the estimation, BRW regime consumed 10 to 20% less energy than the BRG regime.
http://www.actahort.org/members/showpdf?booknrarnr=1107_43
Basilicum has nothin' to do with Cannabis ...
Yet ..
An
evidence for Basil ,may be a good
indication for mj .....
No significant difference was observed in biomass accumulation, leaf production and branching under green or white enriched spectra.
So no difference ,what so ever in vegging basil plants ,no matter the combo used ,as long it has the same red:blue ratio
and same PPF ...
No matter if you use B-R-G monos combo ,or B-R-W .....or
just Red +White ....
No blue leds ,no green leds needed ..
Another indication ...
Towards the pc R-W plant growth LED / COB or CSP...
The " White " part has to be a pc LED offering the flux of both the blue & green part of the PAR ...
The mind goes straightly to Osrams "Eq white " ...
" Equal white" ..A highly efficient "white " ( more of a cyan really ... ) with a small amount of broadband green phosphor Closely fiitting match ,maybe would be a 5700 K or even 6000 K 70 CRI pc white ....
http://www.osram-os.com/osram_os/en/applications/areas-of-competence/horticulture-lighting/index.jsp
http://www.osram-os.com/Graphics/XPic5/00199231_0.pdf/LUW CRDP (EQ white) (EnglishDeutsch).pdf
The red part ....
The tricky one ....
1) Red Rule #1 : Plants perform best when supplied with the whole 600-700 nm band ...
That means " broadband " red spectrum ...
One way is to use mono diodes ,of different wls ...
600-610-625-630-640-650-660-670-680-700 nm ...
Plenty to choose from and combine ...
Light distribution and LED driving might be an issue ...
Another way ...The Phosphor conversion ...
Not a very efficient way ,but it offers the "broadband" red spectrum ,on the other hand ...
Even some FR/NIr ...(sometimes more than enough ... )
Two main "channels" ,more than enough diversity ,regarding light quality ..
I still insist on that one ....
Till we see some advancements in efficiency of blue excitation chips and /or red phosphor efficiency ,
we're probably "stuck" with the "summer noon-lights " -as a like to call 'em - ,the 3000K / 4000 K 80 Ra ...
Not that they perform bad ...
But a push of light quality diversity ,might help a lot the -almost- conquered high light quantity
I say it's much better when you start the babies in a nice fresh "spring " environment ...
Mature during a sunny summer ...
And be harvested under late autumn conditions ...
Seems too much ?
Nah ...
Just think for a minute ,that the more our "art " is evolving ,
the more we get to know how nature works ...Or at least to make uor speculations ...
Learning our plants ..
Nothing is too much ..
Nothing is
useless ...
R74:G18:B8
Cheers.
XQE's are not CSP or the CSP design I'm talking about. And I know it's an array I'm showing so please stop trying to insult my intelligence or score brownie points off of me or whatever it is you're doing. 
..
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