Image 1 of 4
Image 2 of 4
Image 3 of 4
Image 4 of 4
CULTURE VISION PACKAGE
3 Root Zone Lab Diagnosis + PH
The report identifies the levels of essential macro and micronutrients present in the soil. Nitrogen (N), phosphorus (P), potassium (K), calcium (Ca), magnesium (Mg), iron (Fe), zinc (Zn), and manganese (Mn). Including Soil PH.
The results from this report help you understand what your soil is lacking. You can then use this information to:
Adjust Fertilizers: It tells you exactly which nutrients you need to add, so you don't over-fertilize or waste money.
Balance pH: If the pH is too high or too low, you'll know what to add (like lime or sulfur) to get it to the ideal range for your specific plants.
Improve Plant Health: By providing the right balance of nutrients, you can ensure your plants are healthy, leading to better growth and higher yields.
3 Plant Tissue Analysis
Plant tissue Analysis is a lab test that measures the nutrient content directly inside a plant. It gives you a real-time snapshot of the plant's nutritional health.
How It Works:
A sample of plant tissue is taken at a key growth stage and sent to a lab for testing. The analysis reveals exactly which nutrients the plant has taken up and how it's using them.
This vital information helps you:
Spot problems early: Detect nutrient deficiencies or toxicities before they become visible.
Refine fertilization: Apply the right nutrients at the right time, preventing waste.
Maximize yield: Ensure optimal plant growth for a better, more abundant harvest.
3 Brix Boosting Analytics
The Brix equals to percent crude carbohydrate per 100 pounds of juice. The higher the carbohydrate in the plant juice the higher the mineral content of the plant, the oil content of the plant, and the protein quality of the plant.
How It Works:
A small amount of juice is extracted from the plant tissue and placed on a device called a refractometer. The refractometer measures how light bends as it passes through the juice, giving a reading in Brix, which is a percentage. For example, a reading of 12 Brix means the juice is 12% sugar and other dissolved solids by weight.
What the Results Tell You:
A higher Brix reading is a strong indicator of a healthier, more nutrient-dense plant. The results help you understand:
Plant Health: A higher Brix number correlates to higher mineral content, better protein quality, and increased resistance to pests and diseases.
Crop Quality: High Brix levels are often linked to better flavor, longer shelf life, and higher nutritional value in the harvested crop.
Fertilization Effectiveness: It's a quick way to see if your nutrient management program is working effectively, allowing you to make adjustments for a better harvest.
2 Amino Acid Diagnostics
Amino acid profile testing for plant tissue is a laboratory diagnostic method that measures the specific types and quantities of amino acids present. This test provides a detailed biochemical snapshot of the plant's nutritional and metabolic health.
The process typically involves:
Sample preparation: Plant tissue is harvested at a specific growth stage and prepared for analysis.
Extraction: The amino acids are extracted from the plant cells using a solvent.
Analysis: The extracted amino acids are then analyzed using advanced techniques like High-Performance Liquid Chromatography (HPLC) or Mass Spectrometry.
3 Pathogen Identification + CFU
Pathogen identification is a diagnostic test that pinpoints the specific microorganisms—like bacteria, fungi, or pathogens.
This process is often paired with a CFU (Colony Forming Unit) count, which quantifies the number of viable bacteria or fungal cells.
How It Works:
A sample from a diseased organism is taken and sent to a lab. Technicians use various advanced methods, such as PCR (Polymerase Chain Reaction), to analyze the sample's DNA. PCR technology amplifies tiny amounts of the pathogen's genetic material, making it easy to identify the exact type of pathogen present.
What the Results Tell You:
Identifying the specific pathogen is crucial for effective treatment and control. This information helps you:
Select the right treatment: Knowing the exact pathogen allows for the selection of the most effective
GoBokashi Living Nectar Solution.Prevent future outbreaks: Understanding the pathogen helps implement targeted sanitation and management strategies to stop the disease from spreading.
Minimize crop loss: Swift and accurate identification enables a rapid response, saving a crop from widespread damage.
1 Genomic Soil Health Report
This is the most advanced method, using DNA sequencing technology to identify and quantify the entire microbial community in a soil sample. It gives you a detailed "fingerprint" of the bacteria and fungi present and can predict their functions, such as nutrient cycling or disease suppression.
What It Is:
A Genomic Soil Health Report is a detailed biological analysis of the soil's microbial community. It uses advanced DNA sequencing to identify the specific bacteria, fungi, and other microbes living in your soil.
How It Works:
A soil sample is taken, and all the DNA from its microorganisms is extracted and sequenced. Specialized software then analyzes this genetic data to provide a comprehensive picture of your soil's living ecosystem.
What the Results Tell You:
This report is a deep dive into your soil's health, helping you:
Assess Soil Health: It shows the diversity of beneficial microbes vital for a healthy soil.
Predict Disease Risk: You can detect the presence of pathogens before a disease outbreak occurs.
Enhance Fertility: It identifies microbes that improve nutrient cycling, making your fertilizers more efficient.
3 Carbon Test
Total Carbon, Soil Organic Carbon and Total Nitrogen : The Total Carbon (Tot C) analysis measures all of the carbon in a sample using complete oxidation of carbon to CO2 using high temperature combustion (1100°C). When soils have no carbonate minerals, Tot C is equivalent to the soil organic carbon (SOC). However, in soils containing high levels of carbonates (minerals and lime), a significant portion of Tot C may be in the inorganic form. The soil inorganic carbon (SIC) is measured using an additional pressure calcimeter methodology on samples with a pH above 6.5. The measured SIC is subtracted from the Tot C and soil organic carbon (SOC) is reported. The Total Nitrogen includes the organic (living and non-living) and inorganic (or mineral) forms of nitrogen ammonium (NH4+) and nitrate (NO3-) found in soil. The Total Nitrogen is determined following the DUMAS combustion
Water Analysis
We test your water to check its physical, chemical, and biological properties. This gives you a clear report on mineral levels, pH, and if any harmful bacteria or metals are present. It's the best way to make sure your water is safe and clean for whatever you need it for.
Air Quality Diagnostics
Air Quality Diagnostics by agar plating is a simple, cost-effective method to measure the number of viable microorganisms—like bacteria, yeast, and mold—in the air.
How It Works:
A petri dish with a nutrient-rich gel (agar plate) is left open to the air. Airborne microbes settle onto the surface and are then incubated. Over time, each microbe grows into a visible colony.
What the Results Tell You:
The number of colonies is counted to determine the amount of Colony Forming Units (CFUs) per volume of air. This tells you the concentration of microbes in the air, which helps:
Identify contamination sources.
Assess overall indoor air quality.
Monitor the effectiveness of air filtration.
3 Exclusive Consultations
My business thrives on data, and so should yours. We're not just offering 3-hours of consultation time; we're offering the key to your empire's future. Decipher the data from your ecosystem, and you'll be light-years ahead into the future.
*Consultation may be split up into 15/30 min blocks. We are here for your growth.
25% off all GoBokashi Products indefinitely with your own custom link
9 Social Media Features
10 Gallon Liquid Culture> Additional 25% off Original price of $199.99
Free Shipping
3 Root Zone Lab Diagnosis + PH
The report identifies the levels of essential macro and micronutrients present in the soil. Nitrogen (N), phosphorus (P), potassium (K), calcium (Ca), magnesium (Mg), iron (Fe), zinc (Zn), and manganese (Mn). Including Soil PH.
The results from this report help you understand what your soil is lacking. You can then use this information to:
Adjust Fertilizers: It tells you exactly which nutrients you need to add, so you don't over-fertilize or waste money.
Balance pH: If the pH is too high or too low, you'll know what to add (like lime or sulfur) to get it to the ideal range for your specific plants.
Improve Plant Health: By providing the right balance of nutrients, you can ensure your plants are healthy, leading to better growth and higher yields.
3 Plant Tissue Analysis
Plant tissue Analysis is a lab test that measures the nutrient content directly inside a plant. It gives you a real-time snapshot of the plant's nutritional health.
How It Works:
A sample of plant tissue is taken at a key growth stage and sent to a lab for testing. The analysis reveals exactly which nutrients the plant has taken up and how it's using them.
This vital information helps you:
Spot problems early: Detect nutrient deficiencies or toxicities before they become visible.
Refine fertilization: Apply the right nutrients at the right time, preventing waste.
Maximize yield: Ensure optimal plant growth for a better, more abundant harvest.
3 Brix Boosting Analytics
The Brix equals to percent crude carbohydrate per 100 pounds of juice. The higher the carbohydrate in the plant juice the higher the mineral content of the plant, the oil content of the plant, and the protein quality of the plant.
How It Works:
A small amount of juice is extracted from the plant tissue and placed on a device called a refractometer. The refractometer measures how light bends as it passes through the juice, giving a reading in Brix, which is a percentage. For example, a reading of 12 Brix means the juice is 12% sugar and other dissolved solids by weight.
What the Results Tell You:
A higher Brix reading is a strong indicator of a healthier, more nutrient-dense plant. The results help you understand:
Plant Health: A higher Brix number correlates to higher mineral content, better protein quality, and increased resistance to pests and diseases.
Crop Quality: High Brix levels are often linked to better flavor, longer shelf life, and higher nutritional value in the harvested crop.
Fertilization Effectiveness: It's a quick way to see if your nutrient management program is working effectively, allowing you to make adjustments for a better harvest.
2 Amino Acid Diagnostics
Amino acid profile testing for plant tissue is a laboratory diagnostic method that measures the specific types and quantities of amino acids present. This test provides a detailed biochemical snapshot of the plant's nutritional and metabolic health.
The process typically involves:
Sample preparation: Plant tissue is harvested at a specific growth stage and prepared for analysis.
Extraction: The amino acids are extracted from the plant cells using a solvent.
Analysis: The extracted amino acids are then analyzed using advanced techniques like High-Performance Liquid Chromatography (HPLC) or Mass Spectrometry.
3 Pathogen Identification + CFU
Pathogen identification is a diagnostic test that pinpoints the specific microorganisms—like bacteria, fungi, or pathogens.
This process is often paired with a CFU (Colony Forming Unit) count, which quantifies the number of viable bacteria or fungal cells.
How It Works:
A sample from a diseased organism is taken and sent to a lab. Technicians use various advanced methods, such as PCR (Polymerase Chain Reaction), to analyze the sample's DNA. PCR technology amplifies tiny amounts of the pathogen's genetic material, making it easy to identify the exact type of pathogen present.
What the Results Tell You:
Identifying the specific pathogen is crucial for effective treatment and control. This information helps you:
Select the right treatment: Knowing the exact pathogen allows for the selection of the most effective
GoBokashi Living Nectar Solution.Prevent future outbreaks: Understanding the pathogen helps implement targeted sanitation and management strategies to stop the disease from spreading.
Minimize crop loss: Swift and accurate identification enables a rapid response, saving a crop from widespread damage.
1 Genomic Soil Health Report
This is the most advanced method, using DNA sequencing technology to identify and quantify the entire microbial community in a soil sample. It gives you a detailed "fingerprint" of the bacteria and fungi present and can predict their functions, such as nutrient cycling or disease suppression.
What It Is:
A Genomic Soil Health Report is a detailed biological analysis of the soil's microbial community. It uses advanced DNA sequencing to identify the specific bacteria, fungi, and other microbes living in your soil.
How It Works:
A soil sample is taken, and all the DNA from its microorganisms is extracted and sequenced. Specialized software then analyzes this genetic data to provide a comprehensive picture of your soil's living ecosystem.
What the Results Tell You:
This report is a deep dive into your soil's health, helping you:
Assess Soil Health: It shows the diversity of beneficial microbes vital for a healthy soil.
Predict Disease Risk: You can detect the presence of pathogens before a disease outbreak occurs.
Enhance Fertility: It identifies microbes that improve nutrient cycling, making your fertilizers more efficient.
3 Carbon Test
Total Carbon, Soil Organic Carbon and Total Nitrogen : The Total Carbon (Tot C) analysis measures all of the carbon in a sample using complete oxidation of carbon to CO2 using high temperature combustion (1100°C). When soils have no carbonate minerals, Tot C is equivalent to the soil organic carbon (SOC). However, in soils containing high levels of carbonates (minerals and lime), a significant portion of Tot C may be in the inorganic form. The soil inorganic carbon (SIC) is measured using an additional pressure calcimeter methodology on samples with a pH above 6.5. The measured SIC is subtracted from the Tot C and soil organic carbon (SOC) is reported. The Total Nitrogen includes the organic (living and non-living) and inorganic (or mineral) forms of nitrogen ammonium (NH4+) and nitrate (NO3-) found in soil. The Total Nitrogen is determined following the DUMAS combustion
Water Analysis
We test your water to check its physical, chemical, and biological properties. This gives you a clear report on mineral levels, pH, and if any harmful bacteria or metals are present. It's the best way to make sure your water is safe and clean for whatever you need it for.
Air Quality Diagnostics
Air Quality Diagnostics by agar plating is a simple, cost-effective method to measure the number of viable microorganisms—like bacteria, yeast, and mold—in the air.
How It Works:
A petri dish with a nutrient-rich gel (agar plate) is left open to the air. Airborne microbes settle onto the surface and are then incubated. Over time, each microbe grows into a visible colony.
What the Results Tell You:
The number of colonies is counted to determine the amount of Colony Forming Units (CFUs) per volume of air. This tells you the concentration of microbes in the air, which helps:
Identify contamination sources.
Assess overall indoor air quality.
Monitor the effectiveness of air filtration.
3 Exclusive Consultations
My business thrives on data, and so should yours. We're not just offering 3-hours of consultation time; we're offering the key to your empire's future. Decipher the data from your ecosystem, and you'll be light-years ahead into the future.
*Consultation may be split up into 15/30 min blocks. We are here for your growth.