Carbon Sequestration

July 23, 2018, 10:48 am

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Michael Melendrez

1 hr · 

Carbon Sequestration, how soil turns into top soil. I've shown you the foundation of our research into what the significant carbon based molecules of soil are and I've shown you how a ruined dispersed clay soil can be fix, healed, by inoculating it with a biomimetic soil ecology process developed by Soil Secrets that will capture carbon, change the color of the soil and change the structure of the soil, all in rapid sequence. In this post I'm showing you the roots of a young Shumard Red Oak that was cut down at the Morton Arboretum in Chicago. The wood found in tree roots is composed of cells that have cell walls made up of a sugar called Cellulose. Cellulose is a complex sugar made up of the same sugar that's found in our blood called Glucose, but in the case of Cellulose the Glucose is linked together to make a larger molecular substance that is structurally strong and able to be the structural backbone of wood. As you can see in these two images there's a lot of wood that has grown in the soil under this tree and the carbon making up the molecule of the cellulose will contribute to the soil building process as part of the soil carbon sequestration process.

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RESEARCH BY SOIL SECRETS

August 13, 2018, 8:38 am

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Michael Melendrez

August 11 at 6:55 AM·

 There's a huge interest in using CBD oil/extracts and infused products containing CBD as medicine. Soil Secrets with the cooperation of a professional medical cannabis grower did a grow out experiment with spent/used soil compared to brand new Fox Farm Forest Floor soil. We cleaned the used soil using our Soil Secrets trommel screen and the treated the used soil with molecular biology made by Soil Secrets. Most growers throw away soil after one use so wanted to see if the used soil could be made good and repurposed for a second or third use. The image provided is from the starvation group where no fertilizer input had been provided to either the SS treated spent soil or the brand new Fox Farm soil. Both groups were treated with a Mycorrhizal product and bacteria. The Fox Farm was treated with the mycorrhizal product called Great White used per label instructions. Great White also contains a bacteria blend. The SS spent soil was treated with the Soil Secrets mycorrhizal product called EndoMaxima and the Soil Secrets Microbial Consortium BIOpack for the bacteria. The image I'm providing clearly shows that the Soil Secrets repurposed soil grew larger and healthier appearing plants than the Fox Farm soil. The plants have been stepped up int o 15 gallon containers using the same soil treatments so our next step is to test and measure the yield from the plants and measure the THC and CBD concentrations produced from all the groups. Stay Tuned for those results.

Trees That Please on the IOS Nov Issue

October 17, 2018, 9:37 am

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Check out the amzing finds right on our very own back yard!

Pecan Associations with Mycorrhizae

August 26, 2019, 11:32 am

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It could be true if you were in a riparian area of Texas where Pecan grow naturally that the specific species of Ecto Mycorrhizae could be air born and therefore capable of inoculating a tree.   

However I’ve personally seen orchards in that region of Texas that did not have a mycorrhizal infection and suffered nutrient update inhibition.  Once we inoculated the trees with the proper species of mycorrhizal fungi the trees rapidly begin to benefit from the infection.   

In working with a company in Mexico that has the majority market share in agriculture for the distribution of fertilizers and biomimetic materials such as mycorrhizal products, we’ve seen the same thing.   

I recall a conversation with a pecan grower in Texas about 15 years ago while I was attending the Texas Organic Farming conference, where the grower noticed that trees across the road from his orchard growing in the nearby river flood plain did not show zinc nutrient inhibition.   He was curious why his trees had this problem while the wild trees across the road did not.  

 I theorized that his trees lacked the mycorrhizal relationship  so we treated his trees and solved the problem.   

Therefore I don’t put much stock in the academic world when they challenge this concept as they simply don’t have the years of experience or access to the science that I’ve had.     

The images below show pecan roots with the fruiting body of mycorrhizal fungi and the mycelium in soil showing up after the trees are treated that are now showing up in an orchard that we inoculated only months earlier.   

Already the trees are showing improvement in nutrient uptake, no zinc deficiency in tissue tests and no outward symptoms of zinc uptake inhibition.    In fields within a stones throw we are not seeing the same thing on the same farm.  

These images came from an organic pecan farm here in New Mexico taken a few weeks ago.    You are welcome to share these, just give me credit for where they came from. 

Growing Pecan Trees in Western Alkaline Soil

December 14, 2020, 4:40 pm

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It's common to see nutrient and water inhibition compromise the production of pecans in the arid western states, particularly where the soils are high pH, which can tie up nutrients such as zinc, iron, phosphorus and more.

Keeping soils moist is also a problem because the regions were we grow pecan are not wet bottomland soils where pecan is native, but are high and dry desert soils where irrigation is essential.
If the irrigation water is high in dissolved solids, the problem is made worse.

There are many good things Soil Secrets can offer pecan growers that can overcome these obstacles, by improving the moisture management of the soil, improving nutrient solutioning and availability of both the native minerals as well as the purchased minerals, and improving the porosity of the soil so that water and oxygen can penetrate meters deep without the need to subsoil with machinery.

How's this done? By using the power of Nature's own bio-chemical called the Carbon Matrix.

Starting in 1998 and completing my research in 2011, Michael Melendrez, his technical staff, along with the technical staff at the two National Laboratories in New Mexico performed a purification and molecular study of the Carbon Matrix where we revealed the molecular characteristics of it for the first time.

As a result of this research the information on what it is and how to make it is owned by me, the founder and CEO of Soil Secrets.

The product that contains it is called TerraPro. I'm attaching photos of trees treated and not treated with our protocol and it's obvious who got the benefit of TerraPro.

If you would like more information on TerraPro and our company, please contact us!

505-866-SOIL (7654)
www.soilsecrets.com
info@soilsecrets.com

How does nitrogen work in the soil and where does it come from when we don't have a bag of fertilizer to supplement it?

February 8, 2021, 2:20 pm

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I've spoken many times on this subject at conferences and it was the main theme of my talk when I represented North America at the World's 1st Humus Experts Meeting in Vienna Austria back in 2013.   Most of the Nitrogen used by the vast tropical rain forests, or the fastest growing biomass place on Earth, the Coastal Redwood Forests of California, comes from the production of protein by the Free-Living Nitrogen Fixing bacteria in soil and the massive biomass structure of the mycorrhizal fungi.    The proteins as it breaks down in the soil into amino acids are the building blocks of life and the explanation of the Soil Food Web.  However, in order for those amino acids to enter a plant and be part of the nitrogen budget of the plant they must have the assistance of the mycorrhizal fungi.  It's much more efficient for a plant to uptake amino acids whose molecules include nitrogen needed to build tissues than to uptake just nitrogen minus the amino acid.   The problem with depending on Nitrification as the source of Nitrogen is that it results in the production of Nitrates that have a negative charge and the soil itself also has a negative charge, thus repelling the Nitrates.  This is why we lose our Nitrogen into the groundwater beneath the farm, which results in another problem.  I've included a paper I created for you that helps to explain what happens to nitrogen in the soil.  

As for the fungus you can see in the soil, or in a compost pile, or the floor of a forest.  Both the fungus you can see, which are the saprophytic decomposers, and the ones you cannot see, the mycorrhizae, are so cool.  The saprophytic fungus, the ones you can see,  are the goats of the soil breaking down hard to eat stuff that the bacteria won't touch because the chemical bonds holding the stuff together are too tough for the bacteria to tackle.  The bacteria are the cows of the soil that wait for their meal to be prepared for them by the fungus, who can break those bonds, and the bacteria then take it the rest of the way.   The mycorrhizal fungus can dissolve the exoskeleton of a beetle, or a nematode, transferring the liquefied proteins to the host plant, contributing to the nitrogen budget of the plant.  The hyphae tubes of the mycorrhizal fungus can also drill through solid rock turning the rock minerals into a liquid and once again giving that bounty to the host plant.   This is exemplified when a crop soil lacks mycorrhizal fungus, the soil is loaded with phosphorus, calcium, zinc, etc., but the plant is still failing to get those elements out of the soil.   That's when we need to add a mycorrhizal inoculant to the equation!   Also, keep in mind that soil can be loaded with saprophytic fungus and test as a fungally dominated soil, but still lack mycorrhizal fungus, and the rock minerals are still not getting turned into a liquid and delivered to the crop.   Here's the equation of the energy and yield Cause and Effect relationship.  

1. The plant cannot produce biomass, nutrition, or yield without energy being produced in the mitochondria found in all the cells.    

2.  The cellular energy of all plants and animals is called ATP, short for Adenosine triphosphate.     Note the phosphate part of that name?

3.  Humans cannot have good health if we can't make enough ATP,   and like the plant and the soil relationship, we need phosphate uptake to make that happen, and because of soil health decline in agriculture phosphorus is our limiting factor. 

4.  Almost without exception all the farm soils have been manipulated by conventional agriculture to the point where our crops cannot uptake phosphorus in adequate amounts because the equation lacks the mycorrhizal cause and effect relationship.  

5.  We add mycorrhizal fungus, the fungal hyphae dissolve the rock minerals of the site uptaking phosphorus and all the other minerals that got in the way, and the crop now gets what it needs.   Therefore our food grown on those sites also has a greater Nutrient Density!

Michael Martin Melendrez