Since watching Nirit Bernstein's video (posted here) and reading the coresponding material, I was quite blown away with their findings! So much so that I need to try this for myself :) The TL;DR version of this video is as follows.
- Ratios matter a lot!
- Stressed, nutrient deficient plants produce plants with the most secondary metabolites.
- Optimal available Nitrogen DOES NOT change throughout the plants lifecycle.
- Potassium requirements DECLINE while in the reproductive stage. (100-175ppm for veg, 100ppm for flower).
- Phosphorous requirements only slightly increase during the reproductive phase and has a wide tollerence band. Also, not a lot required 30ppm is optimal for grow and sufficient for flower! Lower is optimatal for secondary metabolite production.
- Cannabis requires quite a lot of Magnesium (30ppm) throughout. It also has a huge influence on secondary metabolates production if deficient. Also has a wide band of tollerence.
- Cannabis does not like amonial Nitrogen (NO3) at all. This is interesting because most of the "off-the-shelf" fertilisers contain amonial nitrogen and some even use it as a marketing angle.
- Calcium requirements drop off as the plant moves into the reproductive stage.
- Humic acid will reduce concerntrations of secondary metabolites.
Base on the above, I'm going to have to completely rethink the way I feed my plants :) Currently, I use RO water with a small ammount of tap water mixed (~5-10%) to add a little Chlorine as my nutrients don't contain any. Lets start by taking the above and making some notes.
- Optimal N for Grow and flower is 160ppm
- Optimal P for grow is 30ppm and 40-60ppm for flower * 15-90ppm acceptable throughout the lifecycle
- Optimal K for grow is 100-175ppm and 100ppm for flower
- Optimal Mg for grow and flower is >30ppm
OK, so let's create a formula that meets the criteria above! I'm not going to discuss additives here as anything I use is more of a biostimulant rather than salt and won't affect the PPM much. I also use RO water as my base so nothing to adjust for here. If I were using municiple water, I'd grab the guarenteed analysis from the suppliers website and adjust the formula accordingly.
I'm currently using GHE Tri-part and for the most of the grow, I've been following the recommendations from the manufacturer. Seems to work OK, but I do seem to get quite a lot of yellowing mid to late flower. Could never make sense of it... until watching the video above. First, let's start by opening a spreadie (spreadsheet) and input all of the percentages from the guarenteed analysis on the back of each bottle.
Next, we need to calculate PPM for each element based on dilution. If you're interested in how this is calculated, post below and I'll open another thread explaining how to do this for yourself but, the short version is that you need to calculate the elemental value of a few salts, then calculate the v/w% based on the dilution rate of each part to water. We can also calculate the percentage of amonial nitrogen and nitrate nitrogen.
So, let's plug in the ratios supplied from Terra Aquatica. First, let's start with grow. The chart suggests the following measurements;
- 1.8mL/L Grow
- 0.6mL/L Bloow
- 1.2mL/L Micro
Now, let's plug in those numbers and look at the PPM for each element.
Hmm, based on the research, we're not looking in great shape :) We're low on N, P and Mg! Everything else is within range. That being said, I've found my plants to be happy on this ratio for the most part. OK, let's make the required adjustments to optimise based on the research above.
That's a HUGE difference! Now all parameters match the optimal for vegative growth based on the research above.
- 1.6mL/L Grow (11% decrease)
- 1.4mL/L Bloom (133% increase)
- 2.2mL/L Micro (83% increase)
Now let's optimise for flower. First, let's use Terra Aquatica's recommendations and see where we sit.
WTF! No wonder my plants are yellowing off in mid to late flower, I'm N deficient! Everything else is within optimal ranges but N is 35% under optimal. Let's now optimise for cannabis based on the research above
As you can see, the ratio of grow/bloom/micro looks completely different, but the PPM is now optimal across the board :) I've also managed to reduce the level of amonial nitrate within the final mix for some extra gains. All this without the need to add any additional CalMag or PK X/Y! Anyways, I'm now about to run this schedule within a small Aeroponics system I have stashed away and I'll let you know the results. I may tweak the ratio a little to bring Ca down a little within the flowing period.
Thought this might make a fun post and to show how you might optimise your nutrition for hydroponics. I'm sure there's further optimisations that could be made to tweak things further. I'll make up the first resovior today and let you all know what the total EC of the solution turns out to be.
Have fun and happy growing :)
Also is about right when you calculate the expected EC from the spreadsheet. Considering we've added some additional things and the calculations are based on elemental values.
They are a little stressed as they had to be up-rooted from soil and re-planted in aeroponics. As they were quite well established before rehousing, the roots took a little damage. Seem to be still happy though and plenty of white root shooting from the net pots. It just wrote off some of the lower leaves 
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