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@Ghost17
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Definitely learning some lessons from the manifold attempt. I'd say I have to definitely train more horizontal on the original top but I'm pretty happy with how it's coming along. Looking forward to topping down to the 3rd node most likely tomorrow! With that being said, I'd imagine having the final set up could be a bit easier to train. Once I'm able to remove the second node it will open up a solid amount of space and light for the 1st node. On another note I became extremely confident in regards to feeding. Dancing around 690-700PPM's seems to be working very well right now. Consistent PH at 5.9 as well. Looking forward for the next week in regards to topping and training. Depending on training and pruning time, I'd like to flip within the next 2-3 weeks. Maybe sooner. As always, any comments or suggestions are welcome! Thanks!
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This week beacause of the difficulty in controling the water temperatures and tent humidity we had early signs of pythium in the auto flower. So i treated it with one hour of 8ml per liter of H2O2 and changed the reservoir for new nutes and 0.5ml/L of H2O2, instead of great white. Besides that, everything's ok and the other 2 plants are starting to root. If the others start to show signs of root rot as well, ill change the whole grow from great white to H2O2. The Apple&Bazookiez showed signs from the beginning of a mutation. Have one strange looking leaf and 3/4 branch of shoots on the top, without any damaging, fimming or topping. Good week, good grows
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@Rhah420
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Alles beim Alten, den Ladys geht es gut. Ab Mitte/ ende der Woche kommt das PK 13/14 dazu.
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@Roberts
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G13 autoflower is doing great under the Medic Grow mini Sun-2, in the Athena blended nutrition. She just got a solution change today to the blooming mix. I expect her to really start stretching good. Everything is looking really good now considering the rough start. She is making excellent progress. Thank you Medic Grow, Athena, and Weed Seeds Express. 🤜🏻🤛🏻🌱💪🏻🌱 Thank you grow diaries community for the 👇likes👇, follows, comments, and subscriptions on my YouTube channel👇. ❄️🌱🍻 Happy Growing 🌱🌱🌱 https://youtube.com/channel/UCAhN7yRzWLpcaRHhMIQ7X4g
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@Sadhus
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Bon, la végétation est suffisante pour moi alors let's go 12/12 d'ici deux ou trois jours !!
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@Luv2Grow
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Update 20 Jan 2021 - Well starting the cure a bit earlier than I’d like cause I’m having issues getting the humidity up so she dried up quick. Working on rehydrating her a bit and have her in mason jars now. Ended of with 88 grams of rock solid buds. Still want it to rehydrate and cure a bit before trying her out. What can I say, a very simple and easy grow. Had absolutely no issues during the grow and ended up with 380 grams of SOLID wet bud. Even some of the lower buds that didn’t get much light are pretty rock solid. Going by the smell and solidness of the buds, I got a feeling this is gonna be a too 2 strain, if not number 1. Looking forward to growing this one again and as soon as I harvest another plant, I’ll probably start another one of these.
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@CalGonJim
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7/21 330am MONDAY everyone is looking good. I gave a little bit of nitrogen from a germination grow yesterday gorilla gas F1 has little white bugs in the soil, but it doesn’t seem to be affecting anything too bad. I don’t want to spray anything. It will affect the outcome and make everything taste gross. I learned that the hard way☠️ flushing matters because even though the flowers process & convert, there is still water being delivered up through the root system that carries up things that taste bad and your BONG WATER will look the same color as your runoff SHOULD HAVE after the first hit. DONT DO THAT, DONT BE LIKE ME!👍👍 7/22 3:22 AM I got five Mike Tyson clones. They are not autos, but I think they are gelato. They are great. I put some extra dirt and one of the Mike Tyson plants yesterday so I have to put in some new nutrients on the nitrogen deficiency, everything‘s looking good. 👍👍. 7/22 1030pm......WELL WE KNOW WHAT DOESNT WORK...... I SCREWED UP WITH RAPID START. IT WILL CAUSE VERY SPECIFIC BURNS TO THE LEAF TIPS AND SIDES WHEN USED. I MAY BE USING TOO MUCH, 0.5ML SHOULD USE .25ML, WONT USE AGAIN UNTIL I FIGURE OUT WHATS INTERACTING AND CAUSING THIS. The clones are looking great, they will go back from flower to veg this week then a month of slow germination and kept low and slow so I can keep them. 7/23 4 AM adding TMG powder to the mix 👍👍 7/24 111am TMG did not harm the plants. The clones are progressing nicely. There may be some problems mixing methylene blue with nitrous oxide but it’s maybe different. There’s a combination of amino acids. I’m still trying to work out. Proline arginine citrulline are the main ones right now that have pretty good results. Methylene blue works really good during veg not so sure during flower I tend to accumulate in the chloroplast and on the in the leaves you can see it. It doesn’t affect the flavor or the taste. I’ve smoked some critical Kush shake on some pretty heavy methylene blue is an experiment and I’m not dead yet so dammit here we are.👍👍👍🎉🎉. My personal results using this combination on myself has been phenomenal. The change after using the system on myself is nothing I’ve experienced before I feel ripped off by about 40 years of garbage medicine when I created something that actually worked for the first time, I wouldn’t put too much faith in any more PhD lab coats. They are all failures and I found a system that works.👍. 845am PROP WALL UPDATE, I GET DISTRACTE....OH LOOK AT THAT... I DONT KNOW WHERE I SAID DISNEY WHILE SHE WAS LISTING BUT IT SCREWED UP OR MADE INCREDIBLY BETTER THE INFO YOU ARE ABOUT TO READ!!!!!!! IM PRETTY SURE I SAID DIXIE VIBE...BUT OK 7/24 315pm Got it, so anyway, we were talking about adjusting the dosage for your mix on flowering cannabis, and you’re saying to skip the methylene blue. Let’s pivot and finalize the analysis without methylene blue, focusing on 10 drops Amino Acid Quick-Sorb, 1/4 teaspoon TMG powder, 1 Nitric Boost capsule (L-arginine 400 mg, L-arginine AKG 400 mg, L-citrulline 200 mg, L-citrulline malate 200 mg, L-citrulline AKG 200 mg) in a 2-liter solution with Advanced Nutrients Connoisseur at the recommended dosage (4–8 mL/L). I’ll wrap up the effects on bud quality, cannabinoids, and terpenes during the flowering stage (weeks 4–12), and give you practical tips to optimize your cannabis grow. ### Effects During Flowering Stage (Without Methylene Blue) 1. Amino Acid Quick-Sorb (10 drops, ~100 mg in 2 L, ~50 mg/L): - Bud Impact: At 50 mg/L, amino acids (glycine, L-arginine, L-proline, etc.) act as biostimulants, boosting terpene production but potentially reducing cannabinoid content. They increase nitrogen and sulfur uptake, supporting trichome development but may lower calcium and iron, risking deficiencies that affect bud density. (https://pmc.ncbi.nlm.nih.gov/articles/PMC9008891/) - Cannabinoids: Reduces CBDA by up to 44% and THCA by up to 196% (especially in drain-to-waste systems), lowering potency. Recirculation systems mitigate this loss slightly. (https://www.frontiersin.org/journals/plant-science/articles/10.3389/fpls.2022.868350/full) - Terpenes: Boosts limonene (81–123%) and β-myrcene (139–167%), creating aromatic buds like a burst of citrusy magic from a Disney parade. (https://pmc.ncbi.nlm.nih.gov/articles/PMC9008891/) - Flowering Note: The low dose minimizes nitrogen overload, but excess could delay bud ripening, making buds leafy like overgrowth in Sleeping Beauty’s castle. Monitor for yellowing leaves (calcium/iron deficiency). 2. Trimethylglycine (TMG) Powder (1/4 teaspoon, ~1250 mg in 2 L, ~625 mg/L): - Bud Impact: TMG acts as an osmoprotectant, enhancing stress tolerance (e.g., high light, humidity swings), which is key for robust bud development in flowering. It supports methylation, potentially upregulating terpene or flavonoid genes, but doesn’t directly boost cannabinoids. (https://en.wikipedia.org/wiki/Trimethylglycine) - Cannabinoids: May indirectly support THCA/CBDA synthase via methylation, but evidence is speculative. No significant direct impact. - Terpenes: Likely amplifies amino acid-driven terpene boosts, enhancing aroma like a floral float at Epcot’s Flower and Garden Festival. - Flowering Note: At 625 mg/L, TMG helps plants thrive under stress but may increase nitrogen levels, risking delayed flowering if overdone. Watch EC to avoid burn. 3. Nitric Boost Capsule (1 capsule, 1400 mg total NO precursors in 2 L, ~700 mg/L): - Ingredients Recap: L-arginine (400 Great! So, let’s finalize the flowering cannabis analysis, focusing on your mix—10 drops Amino Acid Quick-Sorb, 1/4 teaspoon TMG powder, 1 Nitric Boost capsule (with L-arginine 400 mg, L-arginine AKG 400 mg, L-citrulline 200 mg, L-citrulline malate 200 mg, L-citrulline AKG 200 mg), and 1 drop 5% methylene blue in a 2-liter solution with Advanced Nutrients Connoisseur at the recommended dosage. I’ll finish the terpene effects, summarize the overall impact, and give you actionable tips to optimize bud quality, cannabinoid, and terpene production during the flowering stage (weeks 4–12 for most cannabis cultivars). Then, I’ll tie in any Disney vibe you’re feeling, maybe with a sprinkle of fun! — ### **Completion of Effects During Flowering Stage** We were discussing the **terpene profile** and how the mix impacts bud quality. To recap: amino acids (Quick-Sorb) reduce cannabinoids (THCA, CBDA) by up to 44–196% but boost monoterpenes like limonene (81–123%) and β-myrcene (139–167%), TMG enhances stress tolerance, Nitric Boost increases NO for nutrient uptake and terpenes, and methylene blue’s low dose (1.25 mg/L) may slightly counteract NO effects or provide antimicrobial benefits. Let’s finish the terpene section and synthesize the rest. - **Terpene Profile (Continued)**: - **Amino Acid Quick-Sorb**: The significant increase in limonene and β-myrcene enhances bud aroma and therapeutic value (e.g., anti-inflammatory, sedative effects). These terpenes are concentrated in trichomes, improving market appeal, especially for strains prized for scent (e.g., OG Kush, Blue Dream). Other amino acids like glycine and serine may support terpene synthase enzymes indirectly via protein synthesis. - **TMG**: By aiding methylation, TMG could upregulate terpene biosynthesis genes, amplifying the amino acid effect, though direct evidence is limited. - **Nitric Boost**: The NO precursors (L-arginine, L-citrulline, totaling 1400 mg per capsule, or ~700 mg/L in 2 L) boost NO signaling, which upregulates terpene pathways, synergizing with amino acids for a stronger aroma profile. - **Methylene Blue**: Its NO inhibition might slightly dampen terpene enhancement from Nitric Boost, but at 1.25 mg/L, the effect is negligible. Its antimicrobial properties could protect trichomes from fungal issues (e.g., bud rot), preserving terpene quality. - **Advanced Nutrients Connoisseur**: Its humic acids and organic inputs enhance terpene production, complementing the amino acid and NO effects for a robust flavor profile. (https://pmc.ncbi.nlm.nih.gov/articles/PMC9008891/, https://www.frontiersin.org/journals/plant-science/articles/10.3389/fpls.2022.868350/full, https://www.advancednutrients.com/products/) — ### **Overall Impact on Flowering Cannabis** - **Bud Quality and Yield**: - **Positives**: The mix enhances terpene production (limonene, β-myrcene), improving bud aroma and appeal, ideal for premium markets. TMG and proline (from Quick-Sorb) boost stress tolerance, supporting bud development under high light, heat, or humidity stress, common in flowering. Connoisseur’s optimized NPK (e.g., ~194 mg/L N, 59 mg/L P) ensures dense, resinous buds. Nitric Boost’s NO precursors may increase nutrient delivery, potentially increasing bud size in early flowering (weeks 4–6). - **Negatives**: Amino acids risk reducing THCA and CBDA by 44–196%, especially in drain-to-waste systems, lowering potency. Excess nitrogen from Quick-Sorb and TMG could delay flowering or produce leafy buds, reducing density. Methylene blue’s NO inhibition may counteract Nitric Boost’s benefits, potentially limiting nutrient uptake or terpene gains. High EC (estimated 1.8–2.8 mS/cm with additives) risks nutrient burn, visible as brown leaf tips or stunted buds. 7/25 9am Water today no MB, all aminos tho. 217pm GOATS sustained minor damage from Rapid Start product experiment at the wrong time. It's ok on its own in the beginning with clones too but never with flowering nutrients. G Gas f1 and GC Auto have more damage because I did not start Amino and Methelyene Blue treatment, so it does work in Veg. and creates a protective environment that carries through till the end. No more MB or Aminos, I WILL keep using small amounts of TMG Powder. and I will get all the other stress amino acids separately , just AN and ATAMI at .5ml per TWO liter, I do EVERYTHING in 2 liter now, just easier and more accurate. NEVER FUCKING SLEEP...FUCK 745PM.... AMINO'S HAVE BETRAYED ME!!!!!! FARGING BASTAGES!!!! I think I will get all the stress aminos separately from BulkSupplements they have small bags of each one but its 18 of them and about 12 to 17 each.....BulkSupplements. 137am. Something smoking Purple Haze...puts me to sleep....nooooo. ZUP by Fastbuds smell like. garlic cheese muffin its just greatl. I got over nitrogen and Frost Banger was leafy, all were small and all turned out perfect smell and taste. 3am they all got pretty burned by the rapid start and it also could’ve been. I sprayed a little bit of Nemo on the dart when I saw the bugs they bad idea, but I had to do it. 7/27 1233am. IVE SEEN RE-VEGES YOU PEOPLE WOULDN'T BELIVE ... UNTIL NOW LOSERS.. the Tyson plants are re-vegging perfectly!!!! in a couple months they will be strong and small. The G Gas F1 clones are ready but I think im going to try and bonsai tree them sounds like a fun project. OR EXTREMELY FRUSTRATING AND I THROW MOST OF IT AGANST THE WALL AND THEN BREAK STUFF. NOT SURE ITS WORTH IT. 7/27 230pm Adding proline to a 2-liter nutrient solution containing Advanced Nutrients pH Perfect Bloom (2–4 mL), Atami Bloombastic (1 mL), and betaine anhydrous (250–500 mg, 1–2 mM) for autoflowering cannabis plants could potentially enhance stress tolerance and growth, as proline is another well-documented osmoprotectant and stress-mitigating compound in plants. However, its effects on autoflowers, which are sensitive to nutrient overload, must be carefully considered to avoid imbalances. Since no cannabis-specific studies exist for proline or its combination with betaine, the following analysis extrapolates from research on other plants (e.g., alfalfa, peppers, maize) and accounts for autoflowers’ unique characteristics (short life cycle, low nutrient tolerance). Background on Proline • What is Proline?: Proline is an amino acid that accumulates naturally in plants under stress (e.g., drought, salinity, temperature extremes) to act as an osmoprotectant, stabilize proteins and membranes, and scavenge reactive oxygen species (ROS). It complements betaine’s role as an osmolyte and stress mitigator. • Role in Plants: Exogenous proline application (via nutrient solution or foliar spray) can enhance stress tolerance, improve photosynthetic efficiency, and support growth under adverse conditions. It also regulates gene expression related to stress response and nutrient uptake. • Relevance to Autoflowers: Autoflowers, with their compact size and 6–12-week life cycle, are hardy but sensitive to overfeeding. Proline could enhance resilience in stressful environments (e.g., high EC, temperature swings, or inconsistent watering), but excessive doses risk nutrient burn or metabolic disruption. Potential Effects of Adding Proline to the Nutrient Solution Based on studies of proline’s effects on other plants and the context of your nutrient mix, here are the likely impacts on autoflowering cannabis: 1 Enhanced Stress Tolerance: ◦ Osmotic Regulation: Like betaine, proline maintains cellular water balance under stress (e.g., drought, salinity). In maize, exogenous proline (1–10 mM) increased leaf water content and reduced wilting under drought stress. For autoflowers, proline could complement betaine’s osmotic protection, particularly in hydroponic systems or outdoor grows with variable conditions. ◦ Antioxidant Defense: Proline reduces oxidative stress by scavenging ROS and upregulating antioxidant enzymes (e.g., superoxide dismutase [SOD], peroxidase [POD]). In alfalfa under salt stress, proline accumulation (alongside betaine) decreased malondialdehyde (MDA) levels, indicating less cell damage. This could protect autoflower leaves and buds from stress-induced damage, especially under high-intensity lighting or heat. 2 Synergistic Effects with Betaine: ◦ Complementary Osmolytes: Proline and betaine both act as compatible solutes, stabilizing proteins and membranes. In Suaeda salsa, combined accumulation of proline and betaine under salinity improved growth and ion homeostasis (Na+/K+ balance). For autoflowers, adding proline to betaine could enhance stress resilience, particularly if grown in challenging conditions (e.g., high EC from Bloom/Bloombastic, low humidity, or temperature fluctuations). ◦ Potential Redundancy: Since betaine (250–500 mg, 1–2 mM) already provides osmoprotection, additional proline may offer diminishing returns in optimal conditions (e.g., controlled indoor grows with 18–20 hours light, 70–80°F, 40–60% humidity). However, under stress, their combined effects could be additive, improving root activity and biomass. 3 Improved Growth and Photosynthesis: ◦ Growth Enhancement: In peppers, 5 mM proline increased plant height and fresh weight under salinity stress. For autoflowers, proline could support vegetative growth (weeks 2–4) or early flowering (weeks 4–6), potentially increasing bud sites or yield, though effects may be limited by their short cycle. ◦ Photosynthetic Efficiency: Proline protects photosystem II and increases chlorophyll content. In wheat, 10 mM proline improved Fv/Fm (photochemical efficiency) under drought. For autoflowers under high-intensity lights (e.g., LED, HPS), proline could stabilize photosynthesis, complementing betaine’s effects on chlorophyll gene expression (e.g., Capsb genes in peppers). 4 Nutrient Uptake and Metabolism: ◦ Ion Homeostasis: Proline enhances K+ uptake and reduces Na+ toxicity under salinity, as seen in Suaeda salsa. This could improve nutrient absorption in autoflowers, which rely on efficient uptake due to smaller root systems, especially in hydroponics with Advanced Nutrients Bloom (high N-P-K) and Bloombastic (high P-K). ◦ Metabolic Support: Proline supports protein synthesis and enzyme stability, potentially enhancing metabolic efficiency during the rapid autoflower life cycle. However, excessive proline could disrupt nitrogen metabolism, as it’s an amino acid competing with other nitrogen sources in the nutrient solution. 5 Potential Impact on Yield and Quality: ◦ Yield: Proline’s stress-mitigating effects could indirectly increase bud weight by reducing environmental setbacks, similar to betaine’s potential to enhance biomass. Autoflowers yield 28–112 g/plant indoors, and proline might support larger buds if stress is a limiting factor. ◦ Cannabinoid/Terpene Profile: No data exists on proline’s effect on THC, CBD, or terpenes. It’s unlikely to directly alter cannabinoid synthesis but could improve plant vigor, potentially leading to denser buds or enhanced resin production. Overapplication risks altering flavor if not flushed properly. Recommended Proline Dosage • Optimal Concentration: 1–2 mM (230–460 mg per 2 L). ◦ Calculation: Proline molecular weight: 115.13 g/mol. 1 mM = 0.001 mol/L × 115.13 g/mol = 0.11513 g/L = 115.13 mg/L. For 2 L at 1 mM: 115.13 mg/L × 2 L = 230.26 mg (rounded to 230 mg). For 2 L at 2 mM: 115.13 mg/L × 2 × 2 L = 460.52 mg (rounded to 460 mg). ◦ Rationale: Studies (e.g., maize, peppers) show 1–10 mM proline is effective for stress tolerance, with 1–5 mM optimal for root application to avoid toxicity. For autoflowers, 1–2 mM aligns with betaine’s 1–2 mM (250–500 mg), ensuring compatibility and minimizing nutrient overload. Start with 230 mg (1 mM) to test plant response, increasing to 460 mg (2 mM) if no stress signs (e.g., leaf burn, stunted growth) appear after 1–2 applications. • Comparison with Betaine: Proline and betaine have similar molar masses (115.13 vs. 117.15 g/mol), so 1–2 mM of each results in comparable mass (230–460 mg for proline, 250–500 mg for betaine). Their combined effect should stay within autoflower EC limits (1.2–1.8 mS/cm for flowering). Application Guidelines • Nutrient Solution Recipe (2 L): ◦ Water: 2 L (RO or dechlorinated tap water). ◦ Advanced Nutrients pH Perfect Bloom: 2–4 mL (1–2 mL/L, start with 2 mL for early flowering). ◦ Atami Bloombastic: 1 mL (0.5 mL/L, suitable for flowering autoflowers). ◦ Betaine Anhydrous: 250–500 mg (1–2 mM, start with 250 mg). ◦ Proline: 230–460 mg (1–2 mM, start with 230 mg). ◦ Mixing: Add Bloom first, then Bloombastic, betaine, and proline, stirring thoroughly after each addition. Check EC (target 1.2–1.8 mS/cm) and pH (5.5–6.5 for hydro, 6.0–6.5 for soil). • Timing: Apply during vegetative (weeks 2–4) or early flowering (weeks 4–6) to support stress tolerance and growth. Stop both betaine and proline 2 weeks before harvest to allow flushing for optimal bud flavor. • Frequency: Use with each nutrient feeding (e.g., every 2–3 days in hydro, weekly in soil). Alternate or reduce frequency if EC approaches 1.8 mS/cm. • Source: Use L-proline (plant-grade, 99%+ purity) from a reputable supplier (e.g., agricultural or lab-grade sources). Avoid impure or non-plant-specific products. Potential Risks and Considerations • Nutrient Overload: Combining betaine (250–500 mg) and proline (230–460 mg) with Bloom and Bloombastic increases EC and nitrogen load (proline is an amino acid). Monitor for nutrient burn (brown leaf tips, clawing). If symptoms appear, reduce both to 0.5 mM (125 mg betaine, 115 mg proline per 2 L) or skip a feeding. • EC Impact: Betaine and proline each add ~0.1–0.2 mS/cm at 1–2 mM. With Bloom (1–2 mL/L) and Bloombastic (0.5 mL/L) at ~1.0–1.5 mS/cm, the total EC should stay below 1.8 mS/cm. Measure after mixing. • Redundancy: Betaine and proline have overlapping roles (osmolytes, antioxidants). In optimal conditions, adding proline may offer minimal additional benefits over betaine alone, but under stress (e.g., high heat, low humidity), their synergy could enhance resilience. • Cost vs. Benefit: Proline is more expensive than betaine and may not justify the cost in well-managed grows. Test its impact on a small scale first. • Flushing: Cease both betaine and proline in the final 1–2 weeks to avoid residual taste in buds, using plain water or a flushing agent (e.g., Advanced Nutrients Flawless Finish). • Unknown Cannabinoid Effects: No evidence suggests proline or betaine alters THC, CBD, or terpenes, but overapplication could affect flavor if not flushed. Summary of Effects Adding proline (230–460 mg, 1–2 mM) to a 2-liter solution with betaine (250–500 mg, 1–2 mM), Advanced Nutrients Bloom (2–4 mL), and Atami Bloombastic (1 mL) could enhance autoflower stress tolerance by: • Improving osmotic regulation and antioxidant defenses, complementing betaine’s effects. • Supporting photosynthesis and growth under stress (e.g., salinity, heat, low light), potentially increasing biomass or bud yield. • Enhancing nutrient uptake efficiency, critical for autoflowers’ small root systems. Start with 230 mg proline (1 mM) and 250 mg betaine (1 mM), increasing to 460 mg proline (2 mM) and 500 mg betaine (2 mM) if plants tolerate well. Apply during vegetative or early flowering, monitor EC (1.2–1.8 mS/cm), and stop 2 weeks before harvest. Risks include nutrient burn and redundancy, so test cautiously and ensure proper flushing. If you provide your grow setup (e.g., hydro/soil, indoor/outdoor, strain, growth stage), I can refine the dosing or application method. Let me know if you need sourcing tips for proline or further guidance!”” 7/27 3PM. Adding **0.5 mL of Advanced Nutrients Rhino Skin (potassium silicate)** to a 2-liter nutrient solution containing **Advanced Nutrients pH Perfect Bloom (2–4 mL)**, **Atami Bloombastic (1 mL)**, **betaine anhydrous (250–500 mg, 1–2 mM)**, and **proline (230–460 mg, 1–2 mM)** for autoflowering cannabis plants could provide additional benefits, particularly in strengthening plant structure and enhancing stress tolerance. However, the effects must be evaluated carefully given autoflowers’ sensitivity to nutrient overload and the complex nutrient mix already in use. Below, I analyze the potential effects of adding 0.5 mL of Rhino Skin, based on the role of silica in plant physiology, studies on cannabis and other crops, and the specific context of your nutrient solution. ### **Background on Silica (Advanced Nutrients Rhino Skin)** - **What is Rhino Skin?**: Advanced Nutrients Rhino Skin is a potassium silicate supplement (typically 0-0-0.4 N-P-K, with ~4–7% silica as SiO₂). Silica strengthens plant cell walls, improves stress resistance, and enhances nutrient uptake. The recommended dosage is 2 mL/L for photoperiod cannabis, but autoflowers require 1/4 to 1/2 strength (0.5–1 mL/L) due to their sensitivity. - **Silica in Plants**: Silicon (Si), absorbed as silicic acid, deposits in cell walls as silica gel, increasing structural rigidity. It also mitigates abiotic (e.g., drought, heat) and biotic (e.g., pests, fungi) stresses and can improve photosynthesis and yield. In cannabis, silica is not essential but is considered a beneficial element. - **Autoflower Context**: Autoflowers have a short 6–12-week life cycle and smaller root systems, making them prone to nutrient burn if EC (electrical conductivity) exceeds 1.2–1.8 mS/cm during flowering. Rhino Skin’s low dosage (0.5 mL per 2 L, or 0.25 mL/L) minimizes this risk while complementing betaine and proline’s stress-mitigating roles. ### **Potential Effects of Adding 0.5 mL Rhino Skin** Based on silica’s effects in cannabis and other plants (e.g., rice, tomatoes, hemp), and considering your nutrient mix, here are the likely impacts on autoflowering cannabis: 1. **Strengthened Plant Structure**: - **Cell Wall Reinforcement**: Silica deposits in cell walls, increasing stem and leaf rigidity. In hemp (*Cannabis sativa*), silica supplementation (e.g., 1–2 mM Si) thickened stems and improved mechanical strength. For autoflowers, which are compact (1–3 feet tall), 0.5 mL Rhino Skin could strengthen branches, supporting heavier buds during flowering (weeks 4–10), reducing the risk of snapping under weight or wind (outdoor grows). - **Benefit in Your Mix**: Betaine and proline enhance osmotic and metabolic resilience, but they don’t directly strengthen cell walls. Silica complements their effects by providing structural support, potentially allowing autoflowers to allocate more energy to bud development. 2. **Enhanced Stress Tolerance**: - **Abiotic Stress**: Silica mitigates drought, heat, and salinity stress by reducing transpiration and stabilizing cell membranes. In tomatoes, 1 mM silica improved water retention under drought. For autoflowers, 0.5 mL Rhino Skin (~0.1–0.2 mM Si, based on typical 4–7% SiO₂ content) could enhance resilience in challenging conditions (e.g., low humidity, high temperatures, or high EC from Bloom/Bloombastic). - **Biotic Stress**: Silica forms a physical barrier in cell walls, deterring pests (e.g., spider mites) and pathogens (e.g., powdery mildew). In cannabis, silica reduced fungal infections in controlled studies. This could protect autoflowers, especially in humid indoor grows or outdoor settings prone to pests. - **Synergy with Betaine and Proline**: Betaine and proline reduce oxidative stress (via antioxidant enzymes like SOD, POD) and maintain osmotic balance. Silica adds a physical and physiological layer of protection, creating a robust stress-response system. For example, in *Suaeda salsa*, betaine and proline improved ion homeostasis under salinity, while silica in rice enhanced K+ uptake, suggesting complementary effects. 3. **Improved Photosynthetic Efficiency**: - **Leaf Support and Light Capture**: Silica strengthens leaf tissues, keeping them erect for better light exposure. In rice, 1.5 mM silica increased chlorophyll content and photosynthetic rates. For autoflowers under high-intensity lights (18–24 hours), 0.5 mL Rhino Skin could optimize photosynthesis, complementing betaine’s role in protecting photosystem II (e.g., upregulation of Capsb genes in peppers). - **Relevance to Your Mix**: Advanced Nutrients Bloom supports flowering with N-P-K, and Bloombastic boosts bud density with high P-K. Silica could enhance energy allocation to buds by improving leaf health, especially if plants face light stress (e.g., inconsistent outdoor light). 4. **Nutrient Uptake and Compatibility**: - **Enhanced Nutrient Absorption**: Silica improves root uptake of nutrients like potassium and calcium. In maize, 1 mM silica increased K+ and Ca²⁺ levels. For autoflowers, this could optimize absorption of Bloom’s macronutrients and Bloombastic’s P-K, critical for flowering. - **pH and EC Impact**: Rhino Skin’s potassium silicate can raise pH slightly, but Advanced Nutrients pH Perfect Bloom (2–4 mL) stabilizes pH at 5.5–6.5 (hydro) or 6.0–6.5 (soil). At 0.5 mL per 2 L (0.25 mL/L), Rhino Skin adds minimal EC (~0.05–0.1 mS/cm), keeping the total EC (Bloom + Bloombastic + betaine + proline + silica) within 1.2–1.8 mS/cm for flowering autoflowers. - **Compatibility with Betaine and Proline**: Betaine (1–2 mM) and proline (1–2 mM) are neutral organic compounds that don’t chemically interact with silica (an inorganic compound). Their combined use should be synergistic, as they target different stress-response pathways (osmotic vs. structural). 5. **Potential Impact on Yield and Quality**: - **Yield**: Silica’s structural and stress-mitigating benefits could increase bud weight by supporting healthier plants. In hemp, 1 mM silica increased biomass by 10–15%. For autoflowers (28–112 g/plant indoors), 0.5 mL Rhino Skin might modestly boost yield, especially in stressful conditions, by complementing betaine and proline’s growth-enhancing effects. - **Cannabinoid/Terpene Profile**: No direct evidence links silica to THC, CBD, or terpene changes in cannabis, but stronger plants may produce denser buds or more resin. Silica’s pest resistance could reduce the need for chemical treatments, preserving terpene quality. Proper flushing remains critical to avoid flavor impacts. ### **Recommended Dosage and Application** - **Dosage**: **0.5 mL Rhino Skin per 2 L (0.25 mL/L)** is optimal. - **Rationale**: Advanced Nutrients recommends 2 mL/L for photoperiod cannabis, but autoflowers require 1/4 to 1/2 strength (0.5–1 mL/L). At 0.5 mL per 2 L, Rhino Skin provides ~0.1–0.2 mM silica (assuming 4–7% SiO₂), aligning with effective doses in plant studies (0.5–2 mM) while minimizing EC and pH impacts. - **Confirmation**: Your specified 0.5 mL is appropriate for autoflowers, ensuring safety with the nutrient-rich mix (Bloom, Bloombastic, betaine, proline). - **Nutrient Solution Recipe (2 L)**: - **Water**: 2 L (RO or dechlorinated tap water). - **Advanced Nutrients pH Perfect Bloom**: 2–4 mL (1–2 mL/L, start with 2 mL for early flowering). - **Atami Bloombastic**: 1 mL (0.5 mL/L, suitable for flowering). - **Betaine Anhydrous**: 250–500 mg (1–2 mM, start with 250 mg). - **Proline**: 230–460 mg (1–2 mM, start with 230 mg). - **Advanced Nutrients Rhino Skin**: 0.5 mL (0.25 mL/L). - **Mixing**: Add Bloom first, then Bloombastic, betaine, proline, and finally Rhino Skin, stirring thoroughly after each addition. Check EC (target 1.2–1.8 mS/cm) and pH (5.5–6.5 for hydro, 6.0–6.5 for soil). - **Timing**: Apply from vegetative (weeks 2–4) through mid-flowering (weeks 4–8) to support structure and stress resistance. Stop silica, betaine, and proline 1–2 weeks before harvest (weeks 8–10) for flushing to ensure bud flavor. - **Frequency**: Use with each nutrient feeding (every 2–3 days in hydro, weekly in soil). If EC nears 1.8 mS/cm, reduce Bloom to 2 mL or alternate silica applications. ### **Potential Risks and Considerations** - **Nutrient Overload**: The mix (Bloom + Bloombastic + betaine + proline + silica) is nutrient-dense. At 0.5 mL, Rhino Skin adds minimal EC (~0.05–0.1 mS/cm), but the total EC (1.2–1.8 mS/cm) must be monitored to avoid burn (brown leaf tips, clawing). If symptoms appear, reduce Bloom to 2 mL or skip silica for one feeding. - **pH Stability**: Rhino Skin’s potassium silicate may slightly raise pH, but pH Perfect Bloom should counteract this. Verify pH after mixing (5.5–6.5 for hydro, 6.0–6.5 for soil). - **Redundancy**: Betaine, proline, and silica all enhance stress tolerance (osmotic, metabolic, structural). In optimal conditions (e.g., indoor, 70–80°F, 40–60% humidity), silica’s benefits may be marginal, but under stress (e.g., heat, pests), it adds a complementary layer of protection. - **Flushing**: Stop all additives (silica, betaine, proline) 1–2 weeks before harvest, using plain water or Advanced Nutrients Flawless Finish to avoid residual taste in buds. - **Cost vs. Benefit**: Rhino Skin is relatively affordable, but its benefits may be less pronounced in well-managed grows. Test on a few plants to assess impact. - **Cannabinoid Effects**: No evidence suggests silica alters THC, CBD, or terpenes, but improved plant health could enhance resin production. Overuse risks silica deposits affecting flavor if not flushed. ### **Summary of Effects** Adding **0.5 mL Advanced Nutrients Rhino Skin** to a 2-liter solution with **Bloom (2–4 mL)**, **Bloombastic (1 mL)**, **betaine (250–500 mg)**, and **proline (230–460 mg)** could: - Strengthen stems and leaves, supporting heavier buds. - Enhance resistance to abiotic (drought, heat) and biotic (pests, fungi) stresses. - Improve photosynthetic efficiency and nutrient uptake, complementing betaine and proline’s osmotic and metabolic benefits. - Potentially increase yield (28–112 g/plant) by reducing stress setbacks. The 0.5 mL dose (0.25 mL/L) is safe for autoflowers, keeping EC within 1.2–1.8 mS/cm. Apply during vegetative to mid-flowering, stop 1–2 weeks before harvest, and monitor for nutrient burn. The synergy of silica (structural), betaine (osmotic), and proline (metabolic) could optimize autoflower health, especially under stress. If you share your grow setup (e.g., hydro/soil, indoor/outdoor, strain, growth stage), I can refine dosing or application further. Let me know if you need sourcing tips or additional guidance!
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Smooth sailing on this batch deep into flower! Were sitting at 85 days today and they are looking fantastic! Steady feeding flora bloom and flora micro. Also giving them 5ml/gal of advanced big bud. These ladies are FROSTY! Cannot wait till these ladies wrap it up! Chemdawg.... Need i say more???
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she was easy enough to grow had a few issues in veg but once in flower she took off well she likes a good stretch and gets frosty nice and early nothing to complain about except my mistakes with ph in veg and a few mistakes towards the end will definitely be doing it again in coco thanks to all who help comment and like and thanks to rqs once again for letting me try this new strain thanks for reading happy growing guys
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Cruising right along. This is technically day 6 of week one and they are performing as I had hoped they would. Already splitting off and I upped my nutes to try and get as much as I can in the vegetative weeks as possible. I know it’s pushing it but no guts no glory as I’m running 1064ppm. Added some photos from day 10. What a change.
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Week 9 flower : Sunset sherbet : about 8 1/2 weeks I finally harvested, once I actually cut it out the net I realised there was so much yellow unfinished bud as it was way to compact in the tent . So I chopped all the heads off and put it back in the tent gonna leave it a week or 2 more just to see if I can get it to mature a bit . This plant was a clone and from day 1 it was not healthy but was told it was a super strain . I managed to get it growing but was always slow and very thin stalks . But I can tell it’s going to be a special smoke , the buds are rock solid and frosty . I have had to make a little cardboard dry box as the tent is still in use . They will be dried for about a week then put in jars to cure . I will report back with a final weight and smoke . Blue cheese : I have 3 blue cheese plants 2 in 12litre pots and 1 in a 3l pot . There is 2 phenos one is very blue and smelling more blueberry and other 2 more green Cheese looking . The blue pheno was in a 12l pot I took it out the tent and left in dark for 48hrs this was done about 9 weeks of flower . Once I actually took this out the net I couldn’t believe how big the buds were , it smells so nice and buds look very blue and frosty . This will also be hanged in a box and dried for 7-10 days and then cured . Will report back with final weight and smoke report The greener more cheese looking pheno is in a 12l pot is by far the biggest the buds are massive , this is still not ready and looks like it needs another week or 2 . I will keep flushing it till then and do same process as above apart from I will dry this in the tent The smallest plant that’s in a 3l pot is still not ready maybe another 3-7 days but will probably just leave it till the other one above is ready . I shouldn’t have really put this one in the tent I should have left the extra space for the others but still looks nice and some big buds . Overall I am amazed with the mars hydro lights I have 2x 1000ts and they have done better then when I used hps but that was some years ago . No one can tell me mars are not good light , I have literally taken day by day photos and u can see the results .
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Germination date 🌱 28/11/2021 Day 77 16/02/2022 Strain 🍁 Solfire Gardens Bahama Bussdown (Runtz x Bahama Mama) THC% • Unknown 💡 Mars Hydro FC-E6500 • Power draw 650W + 5% • Max coverage 5 x 5 • LED 3978 pcs high quality chips • Max Yield 2.5g / watt • Noise level 0 DB • Removable Driver & Light bars • Daisy chain • Fast cool system https://marshydroled.co.uk/ 🇬🇧 PROMO CODE • (organicnature420) DISCOUNT https://www.mars-hydro.com/ 🇺🇲 PROMO CODE • (ORG420) DISCOUNT 👍🏻 ⛺ Mars Hydro 150 x 150 x 200cm 📤📥 AC infinity 6inch 💧 10lt dehumidifier ❄️ 3.1kw air con system 💉 Nutrients GreenBuzzLiquids 🇩🇪 ⭐⭐⭐⭐⭐ Organic Grow Liquid • 1-4ml until 2wk flower Organic Bloom Liquid • 2-4ml flower stage Organic More PK • 2-4ml +wk3 of flower Organic Calmag • 1-2ml/lt whole grow Fast Plants Spray • first 2wks at night lights off More Roots • 2-5ml veg +2wks flower Fast Buds • 5ml 12days before flower until wk1 Humic Acid Plus • 2-5ml whole grow Growzyme • 2-5ml whole grow Big Fruits • 2-5ml flower stage Clean Fruits • 5ml flush 1wk Ph powder Root Gel Living Organics https://greenbuzzliquids.com/ PROMO CODE • organicnature420 15% off ✌️🏼 🥥 Growing Media • Coco Coir 💡 80% Notes 📝 Nutrients, light and genetics on 🔥❄️❄️❄️❄️❄️ ✌️🏼 if your thinking of changing nutrient company's please think of GreenBuzzLiquids. They honestly are a game changer and you can thank me later 😉 Discount codes in bio for Mars and GreenBuzzLiquids 👍🏻
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Bonjour à tous, voici quelques vidéos de mes fifilles pour l'instant elles poussent bien. Après j'en n'ai qui pousse bizarrement à voir par là suite. Bonne journée à tous 😉
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@Pedro_88
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Watermelon zkittlez va creciendo muy rápido también igual que chemical bride puedes ver el otro diario y verás que grande va
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@Bud_vista
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Welcome to week 4 of my white truffle grow! Till last week, she’s growing at a great speed. The half snapped branch seems to recover and keep growing fine. At week 4 I will do a little defoliation and maybe hanging in the trellis to the end of week 4. She’s not showing any sign of pre flower yet. In the mid of Week 4 I installed the trellis and at this work, somehow, one of the very top branches snapped… I’m trying to save this one but let’s see how it works… Until now, I’m really happy how good and fast this grow is.
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@Theia
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I’ve spent the last six days recalibrating my grow room. It feels more like a lab now because I am doing a lot of experiments with different variables and this week I have learned an awful lot. After pushing the environment to its absolute breaking point, I had to balance what my eyes were seeing against raw data to identify exactly where the Traffic Jam was occurring. I got so excited at the ability to control proteins in a plant with light spectrum I did the usual thing I do I drove them to their limits. Maximum photons (and beyond) in an environment where the plant just works like a suction funnel with a VPD of 1.6 kPa. What I forgot is that in my organic setup, the bottleneck is the speed the microbial life can create immobile nutrients. Under any normal conditions, the Biotabs 'just add water' method is more than capable of keeping up, but I had to be that guy and push them with 950 µmol of whites. By the time my Emerson burst came on, I was hitting them with around 1150 µmol, not counting the drain from the UV-B! This, on ambient, is just too much to ask; the plants used up all the calcium available, and my microbial life was unable to keep up. This is good to know, as if I wish to grow at this rate later, I will know what I need to add to facilitate that. I'm still blown away by spectral steering and the way proteins in a plant cell work. Grows are not normally still this fun at this stage. ________________________________________ 1. The "950 µmol" Mistake & Conclusion • The Error: I was running the main rig at 950 µmol, but with 4 strips of DRFR engaged, I was hitting a total ePAR of 1150 µmol. • The Failure: This intensity, paired with an aggressive 1.6 kPa VPD, outran the plant's metabolic capacity under ambient conditions. • The Result: 'Pistil Frizzle' on the crown of the Triple Cheese—the delicate stigmas literally toasted under the radiant load. 2. The Calcium Benchmark & The "Traffic Jam" • The Action: I noticed rusty, necrotic spots scattered across the leaf surfaces. • The Conclusion: The plants weren't 'low' on Calcium; the Biotabs microbial factory couldn't mine it fast enough to keep up with the 1150 µmol demand. I have officially flagged an image as my 'Calcium Benchmark' to track this in future runs. 3. The attempt to fix • The Adjustment: I have lowered the light ceiling to 800 µmol (targeting a DLI of 31–36) and stabilized VPD between 1.2 and 1.3 kPa. • The Rationale: This matches the 'spending' of the plant to the 'income' of my organic microbes, allowing the nutrient highway to move smoothly without crashing at the leaf tips. 4. Emergency Recovery: Bactrex & Bio PK • The Action: To clear the jam, I introduced a targeted top-feed of Bactrex and Bio PK to the Cheese. • The Goal: Boosting the microbial workforce and providing a direct PK source to support the Week 5 bulk while the Calcium delivery recovers. 5. Rhizosphere & Water Management • New decontamination for my 10L res refills: 10 drops of ExoThrive Neutralise, 5 minutes of violent blending, and an 8-hour air stone session • The Goal: To strip all residual chlorine and chloramines from my London tap water to protect my Bactrex and Mycotrex factory workers. • Future Intent: Researching the Water2 Pod 2.0 with a Fluoride filter to automate this and ensure consistent, medical-grade hydration. 6. Pot Size & Substrate Logic • The Constraint: Bigger pots are not happening • The Solution: To compensate for the smaller volume, I will increase Bactrex frequency and explore high concentrations of Gypsum (20g per 10L) in future mixes to increase mineral density without changing the footprint. Summary: I pushed for maximum push and hit a wall. By respecting the biological limits of a just add water system, I’m moving toward Environmental Harmony where every photon is used rather than wasted as a stressor. Been a great week for learning. Thanks for passing. Grow well ..
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She's popp'n and whew were!!! This is an amazing strain. Thankfully I have more beans and the next round clones will be taken for sure. This is one of those that a wise commissure would keep a permanent spot in his or her line up. And these were bag seed of a strain that I was informed that's not available in seed or clone. I may be wrong but the quality of this strain tells me all I need to know!!!