Hi all,
Looking at the mineral content of products like Azomite, Bentonite and several other Basalt/Rock dusts.
I notice that these all contain a very high aluminum percentage.
Even up to 10-20% depending on the origin.
Mineral Content Azomite (11% Al):
https://www.azomiteinternational.com/resources/coa.pdf
This is because many of these products are Aluminosilicate Clays (Hydrated Sodium Calcium Aluminosilicate or HSCAS).
But I read conflicting opinions about the solubility of the aluminum in these products.
Some sources state that's nothing to worry about because it is bound firmly.
Other sources state that the aluminum can become soluble and absorbed by the plant when it reacts with fulvic acid into the soil with the pH in range. (See quote below).
Aluminosilicate and Fulvic acid:
What's your opinion? Is this something to be worried about?
I don't want to get Alzheimers...
(Possible link between aluminum and Alzheimer's disease https://www.ncbi.nlm.nih.gov/pubmed/21157018)
Looking at the mineral content of products like Azomite, Bentonite and several other Basalt/Rock dusts.
I notice that these all contain a very high aluminum percentage.
Even up to 10-20% depending on the origin.
Mineral Content Azomite (11% Al):
https://www.azomiteinternational.com/resources/coa.pdf
This is because many of these products are Aluminosilicate Clays (Hydrated Sodium Calcium Aluminosilicate or HSCAS).
But I read conflicting opinions about the solubility of the aluminum in these products.
Some sources state that's nothing to worry about because it is bound firmly.
Other sources state that the aluminum can become soluble and absorbed by the plant when it reacts with fulvic acid into the soil with the pH in range. (See quote below).
Aluminosilicate and Fulvic acid:
Here is a statement from Dr. Faust at BioAg on the alumina-silicates in Azomite, and the effect humic/fulvic acids can have on them: "Typically, aluminum constitutes about 10-20% of these clays.
The claim made by sellers is that the aluminum is bound in the silicate structure and is therefore not biologically active.
This may be true from a chemistry standpoint, when only examining the clay itself, but is not the case when it is reacted with fulvic acid. So the caveat here is that fulvic acid is well documented to dissolve silicates as well as mono, di, and polyvalent cations (positively charged ions).
This means that fulvic acid binds and retains these minerals in a bio-available form for cell penetration or uptake.
Now the aluminum has a very high biological significance, unfortunately a toxic one."
Here is an excerpt: Very little Al+++ in the soil solution is required to cause damage to most plants.
Few, if any plants grown for commercial purposes in this country will tolerate more than 1.0 ppm of soluble Al+++, and most will have some problems at levels greater than 0.5 ppm.
Since Al is the most abundant element in the soil, but the soluble Al+++ is the toxic form, we need to know how much Al+++ is present in the soil and what controls its availability to plants. The availability of Al+++ is not completely understood, but certain soil factors are known to have a significant effect:
- The total amount of Al present in a particular soil type
- The soil pH
- The types and amounts of clay in the soil
- Soilorganic matter
The last one, soil organic matter, is important because organic matter produces humic and fulvic acids... which are chelating agents that break apart the alumina-silicate bond.
If you start adding more humic/fulvic (which is normally good), you are going to drastically increase the soluble Al+++, which is the toxic form.
And you may not even recognize it as an Aluminum toxicity problem... Here's another excerpt:
Excess soluble/available aluminum (Al+++) is toxic to plants and causes multiple other problems. Some of the more important problems include...
- Direct toxicity, primarily seen as stunted roots
- Reduces the availability of phosphorus (P), through the formation of Al-P compounds
- Reduces the availability of sulfur (S), through the formation of Al-S compounds
- Reduces the availability of other nutrient cations through competitive interaction
So it may appear to be a Phosphorus deficiency, when it is actually aluminum toxicity interfering with P uptake.
What's your opinion? Is this something to be worried about?
I don't want to get Alzheimers...
(Possible link between aluminum and Alzheimer's disease https://www.ncbi.nlm.nih.gov/pubmed/21157018)