I'm suffering some confusion about the idea of 'build up' and what you mean by it.
I'm referring to the oft-quoted warning that too much fertilizer leads to 'salt build-up', something that I was having trouble picturing in a 'modern bonsai substrate' context-
One could just fill a pot with nothing but fertilizer and stick a plant in it. Every time it is watered, some of the fertilizer is dissolved and drains out with the bottom of the pot. Repeat and eventually, depending on the volume of water and the solubility of the fertilizer, there's nothing but the plant in the pot. In this case, there is no fertilizer build up.
Now let us mix some material with non-zero CEC with the fertilizer in the pot. Here at the beginning we have a high level of fertilizer salts, but the level will decline with repeated waterings, down to whatever level is bound to material particles. The higher the CEC, the more retained fertilizer ions that will only be slowly flushed out by repeated watering. So, one can always throw in too much fertilizer, which has nothing to do with the substrate material, but it will be washed out, down to the level determined by the material CEC with flushing.
If you water with a dissolved or incorporated liquid fertilizer, the water retained will have a certain salt level, namely the level you applied. So, if you keep increasing the concentration in the watering solution, you will get fertilizer build up in the substrate. Switch to undoped water and the retained fert level will decline to that dictated by the substrate CEC.
This ^ makes me very happy you've replied!! Ok so here is how I see it (and you can correct me where I'm wrong!), the higher the CEC the more
fertilizer salts an aggregate can hold, which it then releases-back (minus whatever it takes to fuel its own decomp.) Where does the fertilizer 'separate' from the salt molecule it was bound with? In reading the way you phrase that, let's say a piece of scoria soaks-up a small amount of your liquid-borne fertilizer-salts, it then releases that back into the substrate- I thought it'd release it back
as a fertilizer-salt, it sounds like you're saying that it can become
just a salt left in the aggregate....how would that happen? I guess the mechanism you describe sounds to me like it'd result in
fertilizer build-up, not 'salt build-up'...
Would it be fair to say that organic aggregates have far higher issues with this (even when sifted/sieved and in the context of a bonsai-mix)? I ask because the only mechanism I can see for the aggregate being more than just 'fertilizer-salt storage' is in the case of organics breaking-down and using the absorbed fertilizer to fuel that, in which case they could use some of the nitro leaving themselves 'saltier' which, if I understand correctly, can lead to bad issues in the context of a substrate getting too-dry to the point where the salt becomes a water-sink against the roots around it and dries them out (a condition that doesn't sound like it'd exist in properly-watered bonsai soil....my top 1/2" may get dry but no more than that, and imagine you'd have to be pretty much bone-dry to have issues of low-level saltiness...
It's not something I've got a good handle on and it sounds like you do, just don't understand why the mechanics of it you describe (which I totally agree w/ ) result in the non-zero cec aggregates being left w/ 'salts' instead of 'fertilizer salt' (the latter being a good thing, the former being a dessicant)
It depends on how you apply and water, but I think you are 'wasting a lot of fertilizer'. I use Turface MVP (CEC ~ 35) and add Osmocote Plus (time-temp released 15-9-12) at the rate of 1/4 to 1/2 teaspoon per pot gallon every six months. I think my trees are healthy and vigorous and not wanting for more. Maybe I am under-feeding, but you are using about 365 times more fertilizer than I am. Are you seeing fertilizer burn or algae blooms in the path of your run off?
Oh in the containers w/ crappy substrate mixes (perlite-only in some cases!) yeah it's a terrible waste, not just fert but water - I re-boxed two trees from last year that had this because, as it started getting hotter here, they'd be wilting by 2p even if they were soaked at 10a!!
And I've seen fert burn in very minor cases here & there (though I can't be sure it's not just heat/sun either, had begun the increased dosage as the sun levels were increasing), but algae for sure, I may've ruined a couple really good & mature trunks that were in these cases because they've got such a strong ring of algae at the substrate surface...have begun a comparison trial using isopropyl/hydro.peroxide/vinegar to treat this, to see which is most effective, but yeah I've got bad problems with this on some of my specimen :/
Are you using that low a dose in a fully inorganic mix? That's sooo low!
My newest mixes (what I used to re-plant the ones that were in perlite or perlite/scoria only) are much heavier in organics up to 20% (at least ~12% bark-chunks in a case of 20% organics), using roughly equal amounts of scoria/perlite/DE to comprise the remainder (thoroughly sifted/sieved to a 1mm minimum, which I retain for the top few inches of large containers or for the very top of smaller ones, ~2mm is the minimum for the remainder / majority of the mix), so far they're holding water real well and everything's looking good (they're also my first boxes to have metal-screened bottoms instead of wood
)
What do you consider low CEC? For instance, lately I've been making tropical (bougainvillea) mixes with ~40% diatomite(8822), 25% perlite, 20% scoria/lava (1-5mm), and 15% organics (mostly pine-bark chunks, some sphagnum moss and a pinch of peat on the top / as top dressing), am thinking that this is still well within the realm of 'low cec' right? Max CEC would be epiphytic mixes for orchids if I'm understanding correctly..
