Tatanka Pure CBD in supper soil mix

One week has already passed without any issues. However, what potential impacts might arise if the process is just starting? Day 10. For watering, I use clear tap water that is oxygenated, as this is believed to enhance its quality. During the dark period, I sprayed the flower with a water mixture containing one-quarter a teaspoon of Epsom salt per one litre. I will continue this process until the flower begins to bloom. Day 13. I've continued to water the plant with clear, pH-balanced tap water. The light intensity at the closest point from the lamp to the flower is 305 μmol/m²/s. The flower is developing nicely, and there haven't been any other changes to report. See you next week.

Day 16. I've continued to water the plants with clear, pH-balanced tap water. The light intensity at the closest point from the lamp to the flower is 310 μmol/m²/s. Topping. Day 19. I've continued to water the plants with clear, pH-balanced tap water. Set up ScrOG. The flower is progressing well, with no other updates.

Day 22. As I previously mentioned, I grow plant in my own mixed super soil blend. The bottom third of the pot is filled with super soil, and the top two-thirds are filled with Biobizz All-Mix soil. As I've observed, the Biobizz All-Mix is performing well so far. There's no need to use extra nutrients yet. Avoiding the use of any nutrients to promote maximum organic flower growth. I've continued to water the plants with clear, pH-balanced tap water. The pH level of the runoff water is 6.6. The temperature of the runoff water is 22°C. The flower is progressing well, with no other updates. Day 25. I've continued to water the plant with clear, pH-balanced tap water. The flower is progressing well, with no other updates. Day 26. During crown shaping on Day 26, I accidentally broke a branch. To stimulate the growth of new shoots from dormant buds, I shortened the damaged branch by half, leaving the laterals intact. Day 28. In this watering experiment, I am investigating the effects of carbonated water on root growth in a plant growing in a nutrient-rich substrate. I hypothesize that the dissolved carbon dioxide in the carbonated water will enhance root development. Potential Benefits: Increased CO2 uptake: The carbon dioxide in carbonated water can be absorbed by the roots, potentially boosting photosynthesis and growth. Improved nutrient absorption: The acidity of carbonated water can increase the availability of certain nutrients in the soil, making them more readily absorbed by the plant. Enhanced root growth: Some studies suggest that carbonated water can stimulate root growth, leading to a healthier and more robust plant. Potential Risks: Root shock: The sudden change in pH caused by carbonated water can shock the roots, potentially leading to nutrient deficiencies or even root death. Nutrient imbalances: The increased acidity of carbonated water can disrupt the delicate balance of nutrients in the soil, potentially leading to nutrient deficiencies or toxicities. Reduced microbial activity: The acidity of carbonated water can inhibit the growth of beneficial microorganisms in the soil, which are essential for healthy plant growth. The structure of the topsoil has become looser after watering with carbonated water, possibly due to the effect of gas bubbles separating the soil particles. The pH level of the sparkling water is 5.3. The temperature of the sparkling water is 22°C. The pH level of the runoff water is 6.8. The temperature of the runoff water is 21°C. The temperature of the dark/light time is 20.3/25.2°C. The humidity level of the dark/light time is 58/41% The light intensity at the closest point from the lamp to the flower is 320 μmol/m²/s.

Day 29. I conducted another apical pruning of a branch. This was the final pruning I performed. I have attached comparative images as evidence of the plant's response to CO2 enrichment within 12 hours. Day 30. Over the past Two days, the plant has shown no signs of stress or decline following irrigation with carbonated water, maintaining active growth and development. I've continued to water the plants with clear, pH-balanced tap water. Avoiding the use of any nutrients to promote maximum organic flower growth. The pH level of the water is 6.1. The temperature of the water is 23°C. The pH level of the runoff water is 6.7. The temperature of the runoff water is 22°C. The temperature of the dark/light time is 22.3/27.7 °C. The humidity level of the dark/light time is 57/43% The light intensity at the closest point from the lamp to the flower is 305 μmol/m²/s. In order to focus the plant's energy on bud development, I removed a couple of leaves to reduce competition from other shoots. Day 32. As I previously mentioned, I grow plant in my own mixed super soil blend. The bottom third of the pot is filled with super soil, and the top two-thirds are filled with Biobizz All-Mix soil. As I've observed, the Biobizz All-Mix is performing well so far. There's no need to use extra nutrients yet. Avoiding the use of any nutrients to promote maximum organic flower growth. I've continued to water the plants with clear, pH-balanced tap water. The pH level of the water is 6.1. The temperature of the water is 23°C. The pH level of the runoff water is 6.7. The temperature of the runoff water is 21°C. The temperature of the dark/light time is 21/25.8 °C. The humidity level of the dark/light time is 53/48% The light intensity at the closest point from the lamp to the flower is 325 μmol/m²/s. I trimmed some leaves from the bottom and bent a few branches. Day 34. I've continued to water the plants with clear, pH-balanced tap water. The pH level of the water is 6.1. The temperature of the water is 21°C. The pH level of the runoff water is 6.7. The temperature of the runoff water is 21°C. The temperature of the dark/light time is 21.4/26.6 °C. The humidity level of the dark/light time is 54/48% The light intensity at the closest point from the lamp to the flower is 350 μmol/m²/s. The flower is progressing well, with no other updates.

Day 36. As I previously mentioned, I grow plant in my own mixed super soil blend. The bottom third of the pot is filled with super soil, and the top two-thirds are filled with Biobizz All-Mix soil. As I've observed, the Biobizz All-Mix is performing well so far. There's no need to use extra nutrients yet. Avoiding the use of any nutrients to promote maximum organic flower growth. I've continued to water the plants with clear, pH-balanced tap water. The pH level of the water is 6.1. The temperature of the water is 22°C. The temperature of the dark/light time is 21.2/27.5 °C. The humidity level of the dark/light time is 59/44% The light intensity at the closest point from the lamp to the flower is 360 μmol/m²/s. During the dark period, I sprayed the flower with a water mixture containing one-quarter a teaspoon of Epsom salt per one litre. I will continue this process until the flower begins to bloom. The flower is progressing well, with no other updates. Day 38. I've continued to water the plants with clear, pH-balanced tap water. The pH level of the water is 6.1. The temperature of the water is 22°C. The temperature of the dark/light time is 21.2/24.4 °C. The humidity level of the dark/light time is 57/50% The light intensity at the closest point from the lamp to the flower is 375 μmol/m²/s. The flower is progressing well, with no other updates. Day 40. The photoperiod is being adjusted from 18 hours of light and 6 hours of darkness to a 12-hour light and 12-hour dark cycle, thereby initiating the induction of flowering. I've continued to water the plants with clear, pH-balanced tap water. The pH level of the water is 6.1. The temperature of the water is 22°C. The temperature of the dark/light time is 21.3/26.2 °C. The humidity level of the dark/light time is 57/46% The light intensity at the closest point from the lamp to the flower is 355 μmol/m²/s. To optimise light distribution within the grow tent and encourage more uniform lateral branching, the Screen of Green (ScrOG) was adjusted. The flower is progressing well, with no other updates. Day 42. This experiment aims to investigate the effect of carbonated water on root growth in a plant cultivated in a nutrient-rich substrate. This constitutes the second observation within this experimental record. The hypothesis posits that dissolved carbon dioxide within the carbonated water will stimulate enhanced root development. Potential Benefits: Enhanced CO2 Availability: The dissolved carbon dioxide within the carbonated water may be absorbed by the root system, potentially stimulating photosynthesis and subsequently enhancing overall plant growth. Increased Nutrient Solubility: The acidic nature of carbonated water can potentially increase the solubility of certain soil-bound nutrients, making them more readily available for plant uptake. Stimulated Root Development: Some research suggests that the presence of dissolved carbon dioxide in the root zone may stimulate root elongation and branching, leading to improved root system architecture. Potential Risks: Abrupt pH Change: The sudden decrease in soil pH resulting from carbonated water irrigation may induce root shock, potentially leading to nutrient imbalances, nutrient deficiencies, and in severe cases, root tissue damage. Disrupted Nutrient Balance: The increased acidity can alter the availability of essential nutrients, potentially leading to nutrient deficiencies or toxicities due to an imbalance in nutrient uptake. Inhibition of Beneficial Microorganisms: The acidic environment created by carbonated water may inhibit the growth and activity of beneficial soil microorganisms, such as mycorrhizae, which play crucial roles in nutrient acquisition and plant health. Observations: A decrease in soil compaction was observed in the topsoil following irrigation with carbonated water, potentially attributable to the disruptive effect of escaping carbon dioxide gas on soil particle aggregation. The pH level of the sparkling water is 5.3. The temperature of the sparkling water is 22°C. The temperature of the dark/light time is 22.8/25.5°C. The humidity level of the dark/light time is 59/52% The light intensity at the closest point from the lamp to the flower is 445 μmol/m²/s. The flower is thriving, nothing else to mention.

Day 44. As mentioned earlier, I cultivate plant in my own custom-blended super soil. The lower third of the pot is filled with this super soil, while the upper two-thirds are filled with Biobizz All-Mix. My observations indicate that the Biobizz All-Mix is currently performing well. The plant appear to be thriving without the addition of any supplemental nutrients at this stage. I'm aiming to maximize organic flower growth by avoiding the use of any additional nutrients. Despite previous irrigation with carbonated water, the plant continues to exhibit vegetative growth without displaying any visible stress symptoms, such as leaf chlorosis, wilting, or cessation of growth. I've continued to water the plants with clear, pH-balanced tap water. The pH level of the water is 6.1. The temperature of the water is 22°C. The pH level of the runoff water is 6.6. The temperature of the runoff water is 20°C. The temperature of the dark/light time is 20.8/24.4 °C. The humidity level of the dark/light time is 56/52% The light intensity at the closest point from the lamp to the flower is 480 μmol/m²/s. The flower's development is proceeding favorably, with no other noteworthy changes. Day 46. I've continued to water the plants with clear, pH-balanced tap water. The pH level of the water is 6.1. The temperature of the water is 22°C. The temperature of the dark/light time is 20.1/23.4 °C. The humidity level of the dark/light time is 58/54% The light intensity at the closest point from the lamp to the flower is 520 μmol/m²/s. Set up one more ScrOG. Healthy growth, no updates. Day 48. I've continued to water the plants with clear, pH-balanced tap water. The pH level of the water is 6.1. The temperature of the water is 22°C. The temperature of the dark/light time is 20.1/23.7°C. The humidity level of the dark/light time is 59/57% The light intensity at the closest point from the lamp to the flower is 590 μmol/m²/s. I raised the screen and adjusted the lamp to 75.1 brightness to illuminate a wider area. The flower's development is proceeding favorably, with no other noteworthy changes.

Day 50. I'm currently growing my plant in a unique soil blend. The bottom portion of the pot is filled with my custom-made super soil, while the top two-thirds contain Biobizz All-Mix. So far, the Biobizz All-Mix seems to be providing excellent results. The plant is flourishing without the need for any extra nutrients at this point. My goal is to achieve the largest possible organic flower yield by refraining from adding any additional nutrients. During the dark cycle, I applied a foliar spray containing one-quarter teaspoon of Epsom salt per litre of water. This treatment will continue until the onset of flowering. I've continued to water the plants with clear, pH-balanced tap water. The pH level of the water is 6.9. The temperature of the water is 19°C. The temperature of the dark/light time is 21/25°C. The humidity level of the dark/light time is 65/59% The light intensity at the closest point from the lamp to the flower is 605 μmol/m²/s. The flower's doing great, and that's about it. Day 52. I've continued to water the plants with clear, pH-balanced tap water. The pH level of the water is 6.2. The temperature of the water is 22°C. The temperature of the dark/light time is 21/26.3°C. The humidity level of the dark/light time is 65/59% The light intensity at the closest point from the lamp to the flower is 630 μmol/m²/s. The flower's doing great, and that's about it. Elevated water temperatures may be associated with a reduction in water pH. The flower is exhibiting healthy growth, with no further developments to report. Day 54. The plant has initiated flowering and developed 15 inflorescences. Due to the formation of cannabis flower buds, I ceased using the air-water mist sprayer. Continuous water spraying on cannabis plants during the flowering stage can have several negative consequences: Increased Risk of Mold and Mildew: High humidity created by frequent spraying can provide an ideal environment for the growth of harmful molds and mildews, such as powdery mildew and bud rot. These fungal infections can severely damage the flowers, reducing yield and potentially contaminating the final product. Reduced Trichome Production: Trichomes are tiny, resinous glands on the surface of cannabis flowers that contain cannabinoids like THC and CBD. Excessive moisture can hinder trichome development, leading to a less potent harvest. Stunted Growth: Constant moisture on the plant's surface can disrupt the delicate balance of gas exchange, potentially inhibiting proper growth and development. Attracting Pests: High humidity can attract certain pests, such as fungus gnats and mites, which can further damage the plants. I've continued to water the plants with clear, pH-balanced tap water. The pH level of the water is 6.2. The temperature of the water is 22°C. The temperature of the dark/light time is 22/26.5°C. The humidity level of the dark/light time is 65/59% The light intensity at the closest point from the lamp to the flower is 660 μmol/m²/s. New leaves are turning pale, which means they're getting too much light. Move the light farther away from the plants to protect them and prevent damage. The flower's doing great, and that's about it. Day 56. This day outlines the third observation in an ongoing experiment investigating the impact of carbonated water on the root growth of a plant cultivated in a nutrient-rich substrate. The central hypothesis is that the dissolved carbon dioxide within carbonated water will stimulate enhanced root development. Potential Benefits: Enhanced CO2 Availability: The dissolved CO2 in carbonated water may be directly absorbed by the roots, potentially boosting photosynthesis and overall plant growth. Increased Nutrient Solubility: The acidic nature of carbonated water could increase the solubility of certain soil-bound nutrients, making them more readily available for plant uptake. Stimulated Root Development: Research suggests that dissolved CO2 in the root zone may stimulate root elongation and branching, leading to improved root system architecture. Potential Risks: Abrupt pH Change: Sudden soil pH reduction due to carbonated water irrigation may induce root shock, potentially causing nutrient imbalances, deficiencies, and in severe cases, root tissue damage. Disrupted Nutrient Balance: Increased acidity can alter nutrient availability, potentially leading to deficiencies or toxicities due to imbalanced nutrient uptake. Inhibition of Beneficial Microorganisms: The acidic environment created by carbonated water may inhibit the growth and activity of beneficial soil microorganisms, such as mycorrhizae, crucial for nutrient acquisition and plant health. Observations: A notable decrease in soil compaction was observed in the topsoil following irrigation with carbonated water. This may be attributed to the disruptive effect of escaping carbon dioxide gas on soil particle aggregation. The pH level of the sparkling water is 5.3. The temperature of the sparkling water is 21°C. The temperature of the dark/light time is 21.3/25.8 °C. The humidity level of the dark/light time is 64/59% The light intensity at the closest point from the lamp to the flower is 600 μmol/m²/s. Upon observation, the flower demonstrates continued healthy growth with no further developments to report.

Day 58. The flower continues to develop well and keeps growing taller, but from my previous experience, the flower should soon stop elongating. All available energy should then be redirected towards bud development. Irrigation of the plants has continued using clear, pH-balanced tap water. The pH level of the water is 6.2. The temperature of the water is 22°C. The temperature of the dark/light time is 21/24.6°C. The humidity level of the dark/light time is 57/66% The light intensity at the closest point from the lamp to the flower is 645 μmol/m²/s. Upon observation, the flower exhibits continued healthy growth with no further noteworthy developments. Day 60. As noted, my plant resides in a custom-blended super soil mix. This super soil occupies the lower third of the container, while Biobizz All-Mix fills the remaining two-thirds. Current observations suggest that Biobizz All-Mix is providing adequate nutrition. The plant exhibits vigorous growth without the need for supplementary feeding at this juncture. My objective is to cultivate organically bountiful flowers by abstaining from the introduction of any additional nutrients. I've continued to water the plants with clear, pH-balanced tap water. The pH level of the water is 6.2. The temperature of the water is 22°C. The temperature of the dark/light time is 20/26.5°C. The humidity level of the dark/light time is 66/53% The light intensity at the closest point from the lamp to the flower is 650 μmol/m²/s. The flower's development is proceeding favourably, with no other noteworthy changes. Day 62. I've continued to water the plants with clear, pH-balanced tap water. The pH level of the water is 6.2. The temperature of the water is 22°C. The temperature of the dark/light time is 20/27°C. The humidity level of the dark/light time is 59/51% The light intensity at the closest point from the lamp to the flower is 670 μmol/m²/s. The flower's doing great, and that's about it.

Day 64. As I mentioned, my plant is in a special soil mix that I made myself. It’s in the bottom third of the pot, and the rest is filled with Biobizz All-Mix. So far, it seems like my own super soil mix and Biobizz All-Mix are giving my plant everything it needs. It’s growing really well and doesn’t need any extra food right now. I’m trying to grow the most beautiful flowers organically, so I’m not adding any extra nutrients. I’ve been watering the plants with clear, pH-balanced tap water. The pH level of the water is 6.2. The temperature of the water is 22°C. The temperature of the dark/light time is 20.6/27°C. The humidity level of the dark/light time is 61/49% The light intensity at the closest point from the lamp to the flower is 680 μmol/m²/s. The flower’s doing splendidly, and that’s all the exciting news I have for you! Day 66. I’ve been giving my plants a nice drink of clear, pH-balanced tap water. The pH level of the water is 6.3. The temperature of the water is 19°C. The temperature of the dark/light time is 23/27°C. The humidity level of the dark/light time is 61/50% The light intensity at the closest point from the lamp to the flower is 710 μmol/m²/s. The flower is thriving, and that’s all the exciting news I have for you! Day 68. I’ve been giving my plants a refreshing bath of clear, pH-balanced tap water. The pH level of the water is 6.3. The temperature of the water is 19°C. The temperature of the dark/light time is 23/27°C. The humidity level of the dark/light time is 58/49% The flower is doing great, and that’s all the exciting news I have for you! Day 70. This is the fourth entry in an ongoing investigation into how carbonated water affects the growth of a plant in a nutrient-rich soil. The main idea is that the carbon dioxide in carbonated water will make the roots grow faster. Here are some possible benefits: More Carbon Dioxide: Carbonated water might let the roots take in more carbon dioxide directly, which could help the plant make more food and stay healthy. Easier Nutrients to Get: Carbonated water is a bit acidic, which might make it easier for the plant to get certain nutrients from the soil. Stronger Roots: Research shows that carbon dioxide in the soil can make the roots grow longer and branch out more, which could make the root system stronger. But there are also some possible drawbacks: Sudden pH Change: If you water the plant with carbonated water, the soil pH might drop too quickly, which could shock the roots and make it hard for the plant to get the right nutrients. Imbalanced Nutrients: The acidity in carbonated water might make it harder for the plant to get the right mix of nutrients, which could lead to deficiencies or even damage the roots. Bad Bacteria: Carbonated water might kill off good bacteria in the soil, which are important for getting nutrients and keeping the plant healthy. Here’s what we’ve seen so far: The topsoil got less compacted after we watered the plant with carbonated water. This might be because the carbon dioxide gas in the water broke up the soil particles. The pH level of the sparkling water is 5.8. The temperature of the sparkling water is 22°C. The temperature of the dark/light time is 22/26°C. The humidity level of the dark/light time is 61/50% The flower’s growing like crazy, nothing else to report!

Day 72. As I mentioned, my plant is in a special soil mix that I made myself. It’s in the bottom third of the pot, and the rest is filled with Biobizz All-Mix. So far, it seems like my homemade super soil mix and Biobizz All-Mix are giving my plant everything it needs. It’s growing really well and doesn’t need any extra food right now. I’m trying to grow the most beautiful flowers organically, so I’m not adding any extra nutrients. I’ve been watering the plants with clear, pH-balanced tap water. The pH level of the water is 6.2. The temperature of the water is 22°C. The temperature of the dark/light time is 22/26°C. The humidity level of the dark/light time is 61/55% The most amazing thing about this plant is that it sheds its leaves all by itself, no need to cut them. It’s especially cool when you grow it in a super organic environment. The flower’s doing splendidly, and that’s all the exciting news I have for you! Day 74. I’ve been keeping the plants hydrated with the best tap water around. The pH level of the water is 6.2. The temperature of the water is 22°C. The temperature of the dark/light time is 22/26°C. The humidity level of the dark/light time is 58/50% The flower’s doing splendidly, and that’s about it! Day 76. I’ve been giving my plants a drink of the finest tap water around. The pH level of the water is 6.2. The temperature of the water is 22°C. The temperature of the dark/light time is 22/26°C. The humidity level of the dark/light time is 58/50% The flower is thriving, and that’s all the exciting news I have for now!

As I mentioned, my plant is in a special soil mix that I made myself. It’s in the bottom third of the pot, and the rest is filled with Biobizz All-Mix. So far, it seems like my homemade super soil mix and Biobizz All-Mix are giving my plant everything it needs. It’s growing really well and doesn’t need any extra food right now. I’m trying to grow the most beautiful flowers organically, so I’m not adding any extra nutrients. I’ve been giving my plants a nice drink of clear, pH-balanced tap water. The pH level of the water is 6.2. The temperature of the water is 22°C. The temperature of the dark/light time is 22/26°C. The humidity level of the dark/light time is58/50% This plant is incredible! It sheds its leaves all by itself, no need to chop them. It’s especially cool when you grow it in a super organic environment. The flower’s doing great, nothing else to report. Day 80. I’ve been giving my plants a drink of the finest tap water around. The pH level of the water is 6.2. The temperature of the water is 22°C. The temperature of the dark/light time is 22/26°C. The humidity level of the dark/light time is 58/50% The flower is thriving, and that’s all the exciting news I have for now! Day 82. I’ve been giving my plants a sip of the best tap water in town. The pH level of the water is 6.1. The temperature of the water is 21°C. The temperature of the dark/light time is 23/27°C. The humidity level of the dark/light time is 51/50% Plagron Bat Guano is an awesome organic fertiliser with a perfect balance of phosphorus and potassium, which will be super helpful during the flowering phase. Now, all that’s left is to sprinkle it on the soil and watch the plant go crazy! I’ve sprinkled a tablespoon on the soil. That’s a fantastic idea! The flower’s doing great, nothing else to report! Day 84. This is the fifth instalment in an ongoing investigation into how carbonated water affects the growth of a plant in nutrient-rich soil. The main idea is that the carbon dioxide in carbonated water will make the roots grow faster. Here are some possible benefits: More Carbon Dioxide: Carbonated water might allow the roots to absorb more carbon dioxide directly, which could help the plant produce more food and stay healthy. Easier Nutrients to Get: Carbonated water is slightly acidic, which might make it easier for the plant to extract certain nutrients from the soil. Stronger Roots: Research suggests that carbon dioxide in the soil can make the roots grow longer and branch out more, which could strengthen the root system. However, there are also some potential drawbacks: Sudden pH Change: If you water the plant with carbonated water, the soil pH might drop too quickly, which could shock the roots and make it difficult for the plant to obtain the right nutrients. Imbalanced Nutrients: The acidity in carbonated water might make it harder for the plant to obtain the correct mix of nutrients, which could lead to deficiencies or even damage the roots. Bad Bacteria: Carbonated water might kill off beneficial bacteria in the soil, which are crucial for obtaining nutrients and maintaining the plant’s health. Here’s what we’ve observed so far: The topsoil became less compacted after we watered the plant with carbonated water. This might be because the carbon dioxide gas in the water broke down the soil particles. I’ve been giving my plants a little drink of the finest tap water in town. The pH level of the water is 6.1. The temperature of the water is 21°C. The temperature of the dark/light time is 23/27°C. The humidity level of the dark/light time is 51/50% The flower is doing great, and that’s all the exciting news I have for now!

Day 86. As I mentioned, my plant is in a special soil mix that I made myself. It’s in the bottom third of the pot, and the rest is filled with Biobizz All-Mix. So far, it seems like my homemade super soil mix and Biobizz All-Mix are giving my plant everything it needs. I’m trying to grow the most beautiful flowers organically. I’ve been giving my plants a nice drink of clear, pH-balanced tap water. The pH level of the water is 6.1. The temperature of the water is 21°C. The temperature of the dark/light time is 23/27°C. The humidity level of the dark/light time is 51/47% This plant is amazing! It just drops its leaves all by itself, no need to chop them. It’s especially cool when you grow it in a super organic environment. The flower is thriving, no other exciting news to share! Day 88. I’ve been giving my plants a sip of the best tap water in town. The pH level of the water is 6.1. The temperature of the water is 22°C. The temperature of the dark/light time is 22/26°C. The humidity level of the dark/light time is 62/48% The flower is doing great, and that’s all the exciting news I have for now!