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SOIL REVIVAL

An Organic, Full Spectrum, Probiotic and bio-stimulant

AN ITRODUCTION TO SOIL REVIVAL

AN ORGANIC FULL-SPECTRUM PROBIOTIC AND BIO-STIMULANT FOR PLANTS.

Developed over the past 5 years we have developed a highly concentrated blend of specific microbes, fungi, enzymes, amino acids, vitamins, minerals and other essential elements required for a healthy, vigorous plant. Microbes and fungi help feed and protect the plant throughout the grow. Gentle enough to use every watering, but once a week typically will do. This is really amazing stuff, the key is in the insanely high concentrations of microbes and fungi. The microbes are lab grown and specifically added to SOIL REVIVAL in proportions that compliment each other and make for a healthy microbiome. These microbes and fungi with pull nitrogen from the air and make it available to the roots, they will extend the root systems reach to access water, they will breakdown nutrients in the soil that are unavailable to the root system and make them available, they will fight off pests and pathogens. Examples of the unique way Soil Revival bacteria protect and feed your plants are bacillus thuringiensis var. israelensis that will kill fungus gnat larvae, Azospirillum that pulls nitrogen from the air and feeds it to roots and Bacillus which will help breakdown phosphorus and making it available to the roots.


Available in 100 gram & 200 Gram Bags

HOW TO USE:

To make the MILD SOLUTION STRENGTH

add 1/2 teaspoon per gallon of water

 

To make the REGULAR SOLUTION STRENGTH

add 1 teaspoon per gallon of water

 

To make the STRONG SOLUTION STRENGTH

add 2 teaspoon per gallon of water

 

Soil & Soil Media: Use 6-12 ounces of Regular Solution around each stalk once a week.  It is gentle enough that it can be used for every watering.

Coco/Soil-less: Use 5-10 ounces of Regular Solution around each stalk once a week.  It is gentle enough that it can be used for every watering.

Germinating Seeds: Use mild Solution to water your germinating seeds in whichever germination method you prefer

Transplanting: After transplant water with 6-10 ounces of Strong solution

around the stalks of the plant
Recycling Used Soil: Apply Strong Solution to your recycled soil until it is moist. Repeat one or two times more with a Mild Solution or until you are ready to use the soil, making sure it is moist just like if a plant was present.

Foliar Spray: Apply Mild Solution. Do not apply after budding begins.

Seedlings and Clones in Soil: Use 4-6 ounces of Regular Solution around the base of each  stalk every watering for two weeks with little or no runoff.

Seedlings and Clones in Coco/Soil-less: Use 2-4 ounces of Regular Solution around the base of each seedling or clone stalk every watering for two weeks with little or no runoff.

Inoculating Coco Coir, Clay Pellet’s, and Inert Media: Use strong solution to rehydrate coco coir and inoculate it with beneficial microbes, fungi etc. For Pellets etc simply apply until wet.

Compost Teas: Mix 1 tablespoon of Soil Revival per gallon of prepared tea. It will be ready in 15 minutes. Do not let sit for more than 6 hours.

Reintroduction of microbes after infestation (root rot, etc): If you treat your root system for root rot or insects and need to do a hydrogen peroxide flush to kill all the microbes, insects and fungi (both good and bad) you can use Soil Revival to reintroduce the bacterial and fungal colonies that work for your plants to keep them healthy, Use a strong solution and flush until runoff appears

 

NOTES: When mixing the ideal water temperature is between 72 and 76-degrees Fahrenheit.

Do not let the solution stand for more than 12 hours. You can store in refrigerated for a few days but make sure to bring the water temperature up to 72-76 degrees before using.

Ingredients:
BACTERIA AND FUNGI

Here's a brief overview of the benefits of each component in your list for plant growth in a soil medium:

  • Azospirillum brasilense and Azospirillum lipoferum: Nitrogen-fixing bacteria that help convert atmospheric nitrogen into forms that plants can absorb, improving nutrient availability and promoting plant growth.

  • Penicillium bilaii: Enhances the solubility of phosphorus, making it more accessible to plants, promoting root development and overall growth.

  • Bacillus amyloliquefaciens, Bacillus coagulans, Bacillus licheniformis, Bacillus megaterium, Bacillus pasteurii, Bacillus pumilus, and Bacillus subtilis: These beneficial bacteria help improve soil structure, suppress diseases, and promote plant growth by producing various enzymes, hormones, and antimicrobial compounds.

  • Bacillus thuringiensis var. israelensis: A biocontrol agent effective against various insect pests, particularly mosquito larvae.

  • Paenibacillus durum and Paenibacillus polymyxa: Phosphate-solubilizing and nitrogen-fixing bacteria that improve nutrient availability and promote plant growth.

  • Pseudomonas aureofaciens, Pseudomonas fluorescens, and Pseudomonas putida: These bacteria help suppress diseases and promote plant growth by producing enzymes, hormones, and antimicrobial compounds.

  • Streptomyces lydicus: A biocontrol agent that produces various enzymes and antimicrobial compounds to suppress soil-borne diseases and promote plant growth.

  • Trichoderma reesei: A fungus that helps in biological control of plant pathogens and enhances plant growth by producing enzymes and promoting nutrient availability.

  • Glomus aggregatum, Glomus etunicatum, Glomus intraradices, and Glomus mosseae: These are mycorrhizal fungi that form symbiotic relationships with plant roots, enhancing nutrient and water uptake, and improving soil structure.

By incorporating these beneficial microorganisms, amino acids, enzymes, hormones, and vitamins into a soil medium, you can improve soil fertility, promote plant growth, enhance stress tolerance, and support overall plant health. These components work together to create a more balanced and nutrient-rich growing environment, which leads to stronger, more resilient plants.

 

AMINO ACIDS

  • Amino acids: Supplementing the listed amino acids can improve plant growth, stress tolerance, and nutrient uptake, as they are the building blocks of proteins and play essential roles in various plant processes.

  • Alanine (Ala, A): Plays a role in the synthesis of proteins, cell wall development, and stress responses.

  • Cysteine (Cys, C): Involved in protein synthesis and the production of essential compounds, like glutathione, which acts as an antioxidant and helps plants cope with environmental stressors.

  • Glycine (Gly, G): A component of chlorophyll, essential for photosynthesis; also participates in protein synthesis and stress responses.

  • Isoleucine (Ile, I): Involved in protein synthesis, regulation of plant growth, and development.

  • Methionine (Met, M): A precursor for essential compounds like ethylene (a plant hormone) and S-adenosylmethionine, which plays a role in various metabolic processes and stress responses.

  • Serine (Ser, S): Participates in protein synthesis, enzyme activity regulation, and the production of essential compounds like phospholipids and plant hormones.

  • Tyrosine (Tyr, Y): Involved in protein synthesis and the production of various essential compounds, including plant hormones and pigments.

  • Arginine (Arg, R): Plays a role in protein synthesis, nitrogen metabolism, and the production of essential compounds like polyamines and nitric oxide. - Involved in protein synthesis, nitrogen metabolism, and the production of essential compounds, including chlorophyll andglutathione.

  • Histidine (His, H): Participates in protein synthesis and is a precursor for essential compounds, such as histamine, which plays a role in stress responses and plant growth regulation.

  • Leucine (Leu, L): Involved in protein synthesis, regulation of plant growth, and development.

  • Phenylalanine (Phe, F): A precursor for essential compounds, such as flavonoids, lignin, and plant hormones, which play roles in plant defense, growth, and development.

  • Threonine (Trh, T): Participates in protein synthesis and is a precursor for essential compounds, such as isoleucine and plant hormones.

  • Valine (Val, V): Involved in protein synthesis, regulation of plant growth, and development.

  • Aspartic acid (Asp, D): Participates in protein synthesis and nitrogen metabolism, and is a precursor for essential compounds, such as asparagine and plant hormones.

  • Glutamine (Gln, Q): Involved in protein synthesis, nitrogen metabolism, and stress responses.

  • Asparagine (Asn, N): Participates in protein synthesis, nitrogen metabolism, and stress responses.

  • Lysine (Lys, K): Involved in protein synthesis, regulation of plant growth, and development.

  • Proline (Pro, P): Helps plants cope with environmental stressors, such as drought and salinity, by stabilizing proteins and membranes, and acting as an osmoprotectant.

  • Tryptophan (Trp, W): A precursor for essential compounds, such as auxins (plant hormones) and indoleacetic acid, which play

EMZYMES

  • Cellulase, Xylanase, Beta-glucosidase: These enzymes help break down complex organic compounds in the soil, making nutrients more available to plants and improving soil fertility.

  • Cytokinins (Zeatin): Plant growth hormones that promote cell division, stimulate shoot development, and delay senescence, resulting in improved plant growth and higher yields.

VITAMINS

Vitamins: The listed vitamins play crucial roles in plant growth, development, and overall health. For example, B vitamins enhance root development and improve stress tolerance, while ascorbic acid (vitamin C) acts as an antioxidant and helps protect plants against environmental stressors.

By ensuring that plants have access to these essential vitamins, you can support healthy growth, development, and overall plant health. These vitamins play a crucial role in various metabolic processes, enabling plants to function efficiently and adapt to environmental stressors. Supplementing these vitamins in a soil medium can help improve plant vigor, crop yield, and resilience.

Vitamins are essential organic compounds that serve as cofactors for various enzymatic reactions in plants, contributing to plant growth, development, and overall health. Here's how each of the listed vitamins helps plant growth in soil:

  • Riboflavin (B2): Plays a crucial role in various metabolic processes, including energy production, respiration, and photosynthesis. It is also involved in the activation of certain enzymes, making it essential for plant growth and development.

  • Niacin (B3): Participates in several essential metabolic pathways, such as energy production, carbohydrate metabolism, and the synthesis of nucleic acids. Niacin is crucial for proper cell function, growth, and development in plants.

  • Folic acid: Involved in the synthesis of nucleic acids (DNA and RNA) and certain amino acids. It is essential for cell division and growth, as well as overall plant development.

  • Thiamin (B1): Acts as a cofactor for enzymes involved in carbohydrate metabolism, energy production, and synthesis of nucleic acids. Thiamin is critical for root development, seed germination, and overall plant growth.

  • Pantothenic acid (B5): A component of coenzyme A, which is involved in various metabolic processes, including the synthesis of fatty acids, carbohydrates, and proteins. It is essential for plant growth and development, as well as stress response.

  • Biotin (B7): Acts as a cofactor for several enzymes involved in metabolism, including those responsible for the synthesis of fatty acids and amino acids. Biotin is essential for overall plant growth, development, and stress response.

  • Ascorbic acid (Vitamin C): Ascorbic acid is an antioxidant that helps protect plants from damage caused by reactive oxygen species (ROS) generated during photosynthesis and other metabolic processes. It also plays a role in the synthesis of plant hormones, cell wall development, and the regulation of various enzymatic reactions. Vitamin C is essential for overall plant growth, development, and stress tolerance.

Additional ingredients include:

  • Coconut Water

  • Kelp extract

  • Powdered Rock Phosphate

  • Fulvic & Humic Acids

  • Essential minerals and trace elements including calcium and magnesium.