Good week🙂

Did some defoliation. Roots still growing white down to bottom. Raising temps worked with the droopyness. Hope it packs weight i dont think ill get much from the short veg and pot size Week 4.5 added some balls video for my boy Ferenchy. Its smelling like hint of gum!

This one is entering flower beautifully. Just reeks of lemons. and oh boy just like a sativa it likes to stretch. But i also think that stretch has to do with malted barley and aloe vera juice. cant wait to start the pot patch this year.

APROXIMADAMENTE CUARTA SEMANA EMPEZAMOS POR PRIMERA VEZ NUESTRO LST Y UNA LIGERA PODA DE BAJOS. SEGUIMOS CON EL CABLE DE CALOR PUESTO Y TAMBIÉN AÑADIMOS UN CALEFACTOR PARA MINIMIZAR LAS BAJAS TEMPERATURAS

6/29/2024 Day 38 Temp: 84.3 F RH: 49% VPD: 2.08kPa Plant #1 Height: 34” inches Plant #2 Height: 28.5” inches Watered 2 gallons with the normal regiment. Been empty for two days but the soil was good. The branches have healed and started to do the candelabra deal, really cool! Smell is getting stronger everyday. 6/30/2024 Day 39 Temp: 82.8 F RH: 55.3% VPD: 1.70kPa Plant #1 Height: 35” inches Plant #2 Height: 28.5” inches 7/01/2024 Day 40 Temp: 82.8 F RH: 55.3% VPD: 1.70kPa Plant #1 Height: 35” inches Plant #2 Height: 28.5” inches Have to move the plant and tent today. Everything went good. I had to tie the top cola over to get it in the car but it went just fine for me. Now we get to acclimate it to it's new lung room. 7/04/2024 Day 44 Temp: 81.2 F RH: 58.6% VPD: 1.49kPa Normal day with no pics. Everything is good. She keeps taking everything I am throwing at her!

FERMAKOR BARREL MIX – BASE IN USE (Testing on the Fantasy Feast girl we pulled out of another diary https://growdiaries.com/diaries/274722-grow-journal-by-yan402 ) (FERMAKOR BASE SYSTEM KOH VERSION diary https://growdiaries.com/diaries/278391-grow-journal-by-yan402) (Urea & Micros on the way — first week running without them) 🍶💧🍶💧🍶💧🍶💧🍶 💧 30 L Barrel – Current Working Mix 🍶💧🍶💧🍶💧🍶💧🍶 Step 1 – Calcium Nitrate (Part A) 7 L warm water (~35–40 °C) → added 45 g Calcinit, stirred until fully clear. That’s the calcium + nitrogen backbone for the feed. Step 2 – FERMAKOR PK Base (Part B) 15 L water in the main barrel → added 30 ml FERMAKOR PK Concentrate, mixed well. This forms the main P + K part of the formula. Step 3 – Combine Solutions Slowly poured the Calcinit mix into the barrel while stirring — no reaction, still crystal clear. That confirms the mix is stable and precipitation-free. 🌿 Step 4 – FPJ / FFJ Batch Added 30 ml homemade FPJ (fish + veg batch) ≈ 1 ml/L. Color shifted to a light-amber tone — looks alive and active. 🍋 Step 5 – Citric Acid Balance Added 1 tsp citric acid after everything was blended to fine-tune pH and help chelate micros later on. 📦 Step 6 – Top Up & Check Filled to the 30 L mark with plain water → pH tested with drops, showing yellow-green — roughly 5.8 – 6.0 range. Nice clean look, stable smell, no residue. 💧 Current Base Ingredients (Active Mix) Warm Water ≈ 22 L total Calcinit 45 g → N + Ca foundation FERMAKOR PK Base 30 ml → P + K support Citric Acid 1 tsp → Chelation + pH balance FPJ / Fish Emulsion 30 ml → Organic enzyme booster Result: clean amber mix, mild and balanced. I’ll let this version run for a week before adding anything. 👀👀👀👀👀👀 Observations and changes 👀👀👀👀👀👀 27.10.25 VW27 noticed some min burnt tips so I decreased Calcium Nitrate 45 to → 40g, decided to add two more elements micros and Epsom salts just to make sure they got everything, Fetrilon Combi 1 (Micros): 0.5 g, Epsom salts: 8 g 28.10.25 VW27 she seems devoid of any deficiencies, seems ready for the flip to 12/12 02.11.25 VW27 girl is looking good so I decided to stop making daily videos and do a standard once a week update. 09.11.25 aVW28 7 days since flip,stretch in full swing, first pistils showing, leaf color deep and healthy. Slight tip burn early week → gone after pH stabilized. Feed stayed clear, no residue, roots clean and sweet-smelling, did what I hope is a last cleanup and pruning🎥 10.11.25 VW29 added Phosphoric acid pH down to the schedule for flowering stage. 14.11.25 FW1 FERMAKOR PK Micros 40 → 50 ml 23.11.25 FW2 got some burnt tips, observe and act accordingly in case it worsens, diluted by 25% for this week. 05.12.25 FW3 about 2 weeks ago Calcium Nitrate 35 g → 25 g, FERMAKOR PK Micros 50 ml → 60 ml 12.12.25 FW4 Calcium Nitrate 25 g → 20 g, FERMAKOR PK Micros 60 ml → 80ml 16.12.25 FW4 Calcium Nitrate 20 g → 17 g, FERMAKOR PK Micros 80 ml → 110 ml 20.12.25 Calcium Nitrate 17 g → 15 g 26.12.25 Ffj fpj 30 →0ml 🌱💦🌱💦🌱💦🌱💦🌱💦🌱 🌿 Day to day tasks & actions 🌿 🌱💦🌱💦🌱💦🌱💦🌱💦🌱 Fed about 5l a day of #1 and on the weekends I do a pure FERMAKOR PK flush 2l runoff (*RUNOFF reused for tomato plants) 💧💧💧💧💧💧💧💧💧 🌱 Nutrients in 30 L #1 – FERMAKOR (progression kept) 💧💧💧💧💧💧💧💧💧 Calcium Nitrate (Calcinit / Nitcal): 45 → 40 g → 35 g → 25 g → 20 g → 17 g → 15 g = 1.50 g/L → 1.33 g/L → 1.17 g/L → 0.83 g/L → 0.67 g/L → 0.57 g/L → 0.50 g/L = 207 ppm N / 253 ppm Ca → 184 / 225 → 161 / 197 → 115 / 141 → 92 / 112 → 78 / 96 → 69 / 84 PK Concentrate (FERMAKOR Base): 30 → 40 ml → 50 ml → 60 ml → 80 ml → 110 ml = 1.00 → 1.33 ml/L → 1.67 ml/L → 2.00 ml/L → 2.67 ml/L → 3.67 ml/L → balanced 1:1 P:K + light micros (from extract) Home-made FFJ/FPJ (Fish + Veg): 30 ml → 0 ml = 1.00 ml/L → 0.00 ml/L Epsom Salt (MgSO₄·7H₂O): 8 g = 0.27 g/L → ~26 ppm Mg + ~35 ppm S Fetrilon Combi 1 (Micros): 0.5 g = 0.017 g/L → Fe 0.7 ppm · Mn 0.7 ppm · Zn 0.3 ppm · Cu 0.3 ppm · B 0.1 ppm · Mo 0.02 ppm Phosphoric Acid (pH down) + Citric Acid (chelation): as needed → First set pH with phosphoric acid, then add a little citric only if you want extra chelation Target pH: 5.8 – 6.0 (drop test yellow-green) 📦 TOTAL (corrected): Liquids (PK + FFJ/FPJ): 60 → 70 → 80 → 90 → 110 → 140 → 110 ml per 30 L = 2.00 → 2.33 → 2.67 → 3.00 → 3.67 → 4.67 → 3.67 ml/L Solids (CaNO₃ + Epsom + Fetrilon): 53.5 → 48.5 → 43.5 → 33.5 → 28.5 → 25.5 → 23.5 g per 30 L = 1.78 → 1.62 → 1.45 → 1.12 → 0.95 → 0.85 → 0.78 g/L YouTube Link: https://youtube.com/-m8h?si=A7x4Zlr2kj-_ga31

Day 63 Well there’s not much going on. Just watering when dry. They seem to be doing better. They are fattening up a bit more and putting on some density. I can tell by the fact that they’re leaning more. This is a 10 wk strain, but I’m gonna push it a bit longer til the trichomes are in a better range. They have a sweet tropical smell which is quite nice. Not the frostiest buds ever, but we’ll see how it shakes out. The smallest front one is the frostiest of the round. We’re just on autopilot til the end. Probably a week or 2 more and they’ll be ready to come down. Happy Growing 🌱

I went away on vacation to Utah for a week so I wasn't able to update my grow journal at all unfortunately . She really exploded while I was gone she's roughly 14"tall x 17"wide. She is starting to give off a nice dank smell I had the carbon filter off but I switch it back on. The tents humidity will drop back to 35-40RH% because of this. I also switched the bloom lights back on so the temp is also going to rise up higher than 75F during the day. My guess is at night the tent hits a low of 62F but averages around 65F. The co2 bag has some awesome growth and Its Cleary producing co2 because this lady is praying towards her lights ! I 100% recommend using c02 bag for sure even though most places online will say its useless. DAY 40- Added tomato cage to help support it ! it is two feet exactly as of today! *New time lapse* 2/10/20- Took 2 cuttings for clones, she is a cool plant and id like to keep her genetics alive for breeding projects this summer =) lollipoped the bottoms a bit and defoliated the lower fan leaves as well. Temp is back to 80F and 38RH% 2/11/20- Did absolutely nothing but admire this beauty today ;) 2/12/20- Watered with Recharge (double the strength), Cal Mag, and Mammoth P at 6.5 Ph 2/13/20-NFTG mis flower feed

I am starting a auto Opium. Just dropping the seed. Everything is off to a normal start. Seed was scuffed, and dropped in water. 🤞🏻 for a great grow. Thank you Medic Grow, and Divine Seeds. 🤜🏻🤛🏻🌱🌱🌱 Thank you grow diaries community for the 👇likes👇, follows, comments, and subscriptions on my YouTube channel👇. ❄️🌱🍻 Happy Growing 🌱🌱🌱 https://youtube.com/channel/UCAhN7yRzWLpcaRHhMIQ7X4g

Green light is radiation with wavelengths between 520 and 560 nm and it affects photosynthesis, plant height, and flowering. Plants reflect green light and this is why they appear green to our eyes. As a result, some growers think that plants don’t use green wavelengths, but they actually do! In fact, only around 5 – 10% of green light is reflected from leaves and the rest (90 – 95 %) is absorbed or transmitted to lower leaves [1]. Green wavelengths get used in photosynthesis. Chlorophyll pigments absorb small amounts of green wavelengths. Light that doesn’t get absorbed is transmitted to leaves that are shaded out from direct light. This means that leaves at the bottom of the canopy get more green light than leaves at the top. A high proportion of green wavelengths compared to other colors tells lower leaves that they are being shaded out, so they are able to react accordingly. Lower leaves may react by opening or closing their stomata or growing longer stems that help the leaves reach brighter light [1, 2, 3]. When it comes to growing cannabis, many cultivators are interested in the quality of light used for the flowering stage. In many plants, flowering is regulated by two main photoreceptors: cryptochrome and phytochrome. Both photoreceptors primarily respond to blue light but can also respond to green, although to a lesser extent. Green can accelerate the start of flowering in several species (although cannabis has yet to be tested) [1, 4, 5]. However, once flowering has begun, it’s important to provide plants with a “full spectrum” light that has high amounts of blue and red light, and moderate amounts of green, in order for photosynthesis to be optimized. Green light mediates seed germination in some species. Seeds use green wavelengths to decide whether the environment is good for germination. Shade environments are enriched in green relative to red and blue light, so a plant can tell if it is shady or sunny. A seed that senses a shaded environment may stay dormant to avoid poor growing conditions [1]. Some examples of plant species where researchers have documented this response are: ryegrass (a grass that grows in tufts) and Chondrilla (a plant related to dandelion) [1, 6]. Although green wavelengths generally tell plants NOT to germinate, there are some exceptions! Surprisingly, green wavelengths can stimulate seed germination in some species like Aeschynomene, Tephrosia, Solidago, Cyrtopodium, and Atriplex [1, 6, 7]. Of course, light is not the only factor affecting seed germination – it’s a combination of many factors, such as soil moisture, soil type, temperature, photoperiod, and light quality. When combined with red and blue light, green can really enhance plant growth [1, 8]. However, too much green light (more than 50% of the total light) can actually reduce plant growth [8]. Based on the most current research, the ideal ratio of green, red, and blue light is thought to be around 1:2:1 for green:blue:red [9]. When choosing a horticultural light, choose one that has high amounts of blue and red light and moderate amounts of green and other colors of light. Not many studies can be found about the effect of green light on cannabis growth or metabolism. However, if one reads carefully, there are clues and data available even from the very early papers. Mahlberg and Hemphill (1983) used colored filters in their study to alter the sunlight spectrum and study green light among others. They concluded that the green filter, which makes the environment green by cutting other wavelengths out, reduced the THC concentration significantly compared to the daylight control treatment. It has been demonstrated that green color can reduce secondary metabolite activity with other species as well. For example, the addition of green to a light spectrum decreases anthocyanin concentration in lettuce (Zhang and Folta 2012). If green light only reverses the biosynthesis of some secondary metabolites, then why put green light into a growth spectrum at all? Well, there are a couple of good reasons. One is that green penetrates leaf layers effectively. Conversely red and blue light is almost completely absorbed by the first leaf layer. Green travels through the first, second, and even third layers effectively (Figure 2). Lower leaf layers can utilize green light in photosynthesis and therefore produce yields as well. Even though a green light-specific photoreceptor has not yet been found, it is known that green light has effects independent from the cryptochrome but then again, also cryptochrome-dependent ones, just like blue light. It is known that green light in low light intensity conditions can enhance far red stimulating secondary metabolite production in microgreens and then again, counteracts the production of these compounds in high-intensity light conditions (Kim et al. 2004). In many cases, green light promoted physiological changes in plants that are opposite to the actions of blue light. In the study by Kim et al. blue light-induced anthocyanin accumulation was inhibited by green light. In another study it has been found that blue light promotes stomatal opening whereas green light promotes stomatal closure (Frechilla et al. 2000). Blue light inhibits the early stem elongation in the seedling stage whereas green light promotes it (Folta 2004). Also, blue light results in flowering induction, and green light inhibits it (Banerjee et al., 2007). As you can see, green light works very closely with blue light, and therefore not only the amount of these two wavelengths separately is important but also the ratio (Blue: Green) between these two in the designed spectrum. Furthermore, green light has been found to affect the elongation of petioles and upward leaf reorientation with the model plant Arabidopsis thaliana both of which are a sign of shade avoidance symptoms (Zhang et al. 2011) and also gene expression in the same plant (Dhingra et al. 2006). As mentioned before, green light produces shade avoidance symptoms which are quite intuitive if you consider the natural conditions where the plants grow. Not all the green light is reflected from the highest canopy leaves in nature but a lot of it (50-90%) has been estimated to penetrate the upper leaves at the plant level ((Terashima et al., 2009; Nishio, 2000). For the plant growing in the understory of the forest green light is a signal for the plant of being in the shade of a bigger plant. Then again, the plants growing under unobstructed sunlight can take advantage of the green photons that can more easily penetrate the upper leaves than the red and blue photons. From the photosynthetic pigments in higher plants, chlorophyll is crucial for plant growth. Dissolved chlorophyll and absorb maximally in the red (λ600–700 nm) and blue (λ400–500 nm) regions of the spectrum and not as easily in the green (λ500–600 nm) regions. Up to 80% of all green light is thought to be transmitted through the chloroplast (Terashima et al., 2009) and this allows more green photons to pass deeper into the leaf mesophyll layer than red and blue photons. When the green light is scattered in the vertical leaf profile its journey is lengthened and therefore photons have a higher chance of hitting and being absorbed by chloroplasts on their passage through the leaf to the lower leaves of the plant. Photons of PPFD (photosynthetic photon flux density) are captured by chlorophyll causing an excitation of an electron to enter a higher energy state in which the energy is immediately passed on to the neighboring chlorophyll molecule by resonance transfer or released to the electron transport chain (PSII and PSI). Despite the low extinction coefficient of chlorophyll in the green 500–600 nm region it needs to be noted that the absorbance can be significant if the pigment (chlorophyll) concentration in the leaf is high enough. The research available clearly shows that plants use green wavelengths to promote higher biomass and yield (photosynthetic activity), and that it is a crucial signal for long-term developmental and short-term dynamic acclimation (Blue:Green ratio) to the environment. It should not be dismissed but studied more because it brings more opportunities to control plant gene expression and physiology in plant production. REFERENCES Banerjee R., Schleicher E., Meier S. Viana R. M., Pokorny R., Ahmad M., Bittl R., Batschauer. 2007. The signaling state of Arabidopsis cryptochrome 2 contains flavin semiquinone. The Journal of Biological Chemistry 282, 14916–14922. Dhingra, A., Bies, D. H., Lehner, K. R., and Folta, K. M. 2006. Green light adjusts the plastic transcriptome during early photomorphogenic development. Plant Physiol. 142, 1256-1266. Folta, K. M. 2004. Green light stimulates early stem elongation, antagonizing light-mediated growth inhibition. Plant Physiol. 135, 1407-1416. Frechilla, S., Talbott, L. D., Bogomolmi, R. A., and Zeiger, E. 2000. Reversal of blue light -stimulated stomatal opening by green light. Plant Cell Physiol. 41, 171-176. Kim, H.H., Goins, G. D., Wheeler, R. M., and Sager, J. C. 2004.Green-light supplementation for enhanced lettuce growth under red- and blue-light emitting diodes. HortScience 39, 1617-1622. Nishio, J.N. 2000. Why are higher plants green? Evolution of the higher plant photosynthetic pigment complement. Plant Cell and Environment 23, 539–548. Terashima I., Fujita T., Inoue T., Chow W.S., Oguchi R. 2009. Green light drives leaf photosynthesis more efficiently than red light in strong white light: revisiting the enigmatic question of why leaves are green. Plant & Cell Physiology 50, 684–697. Zhang, T., Maruhnich, S. A., and Folta, K. M. 2011. Green light induces shade avoidance symptoms. Plant Physiol. 157, 1528-156. Wang, Y. & Folta, K. M. Contributions of green light to plant growth and development. Am. J. Bot. 100, 70–78 (2013). Zhang, T. & Folta, K. M. Green light signaling and adaptive response. Plant Signal. Behav. 7, 75–78 (2012). Johkan, M. et al. Blue light-emitting diode light irradiation of seedlings improves seedling quality and growth after transplanting in red leaf lettuce. HortScience 45, 1809–1814 (2010). Kasajima, S., et al. Effect of Light Quality on Developmental Rate of Wheat under Continuous Light at a Constant Temperature. Plant Prod. Sci. 10, 286–291 (2007). Banerjee, R. et al. The signaling state of Arabidopsis cryptochrome 2 contains flavin semiquinone. J. Biol. Chem. 282, 14916–14922 (2007). Goggin, D. E. & Steadman, K. J. Blue and green are frequently seen: responses of seeds to short- and mid-wavelength light. Seed Sci. Res. 22, 27–35 (2012). Mandák, B. & Pyšek, P. The effects of light quality, nitrate concentration and presence of bracteoles on germination of different fruit types in the heterocarpous Atriplex sagittata. J. Ecol. 89, 149–158 (2001). Darko, E. et al. Photosynthesis under artificial light: the shift in primary and secondary metabolism. Philos. Trans. R. Soc. B Biol. Sci. 369 (2014). Lu, N. et al. Effects of Supplemental Lighting with Light-Emitting Diodes (LEDs) on Tomato Yield and Quality of Single-Truss Tomato Plants Grown at High Planting Density. Environ. Control Biol. 50, 63–74 (2012).

Started using a fish 5-1-1 (one Tbs /gallon) twice a week with a general 3-2-2 (1oz/gallon). Noticed some holes in leafs starting from underneath, had seen this a little last week and trimmed those leafs off or at least most of them. I notices different leafs were affected and was worried it mite be spider mites. In response I mixed 3 essential oils (Cedar Mint, Peppermint, & Melaleuca Oil) with some water (pH 6.25) but did not check the ph of the mixture in the spray bottle. I sprayed the leaves and underneath the leaves and the surrounding environment in the tent. May have put too many oils in the the spray or perhaps the mixtures pH was way off because when I went to check on them again the leaves looked sick. I haphazardly trimmed off the leafs that were ill looking but left the ones that were not as effected and were not drooping. Hopefully the defoliation will inspire Runtz (one with rocks) to grow more branches/ potential bud sights as well as to inspire Blue Cookies (Middle ) to spread out her branches some more to increase surface area. Team Cream (Left-side) was affected the least from the spray and didn't have to prune more than a leaf or two. Team Cream is definitely consuming the most water of the three, being potted first and was the largest clone initially. She is full of surprises in terms of how I think she'll grow. None the less she is responding to training fairly well. If I'm not mistaken I would assume she has more sativa traits than the other two due to her wanting to grow in hight opposed toeing bushy and branching out. IDK it might be how I trained her /got her. Runtz is second in water consumption and responds to training the best of the three, although some lower branches are taking time to develop. Blue Cookies is consuming the least amount of water and has the most run off. Possibly due to being potted a day or two later as well as being the smallest of the clones at first and also suffered the most nutrient burn durringthe 1st or 2nd week when I was feeding them too much.

Day 36. Girls are flying !!! Was comparing my previous dairies here and they look really good, have in mind, two heavy waves of training involved, each time i had a bag full of leaves ... One more training and i think on day 42 its 24 hours of darkness and FLOWEEEEERRRR ;)) Day 37. Its hard to add anything, because everything going kind off well ;)))) Last night watered them with 6.2 ph, they stop drinking, at least as fast as before, usually my ph is 6.5-6.8, but sometimes i drop to 6.2-6.4 for one feed in a month or so ..SweetSeeds don't like that trick ... Still leaves praying, loads of new grows after each night , just Kushes overgrew others a bit. Will supercrop them soon. Day 39. All is going smooth, they drink biobizz nutes feed in one day, phed water in 2, so you would want to overfeed them, Kushes could eat more 4sure now. Installed last wall fan. Now setup is full... Kind off ;))) need to find exhaust silent and powerfull 5 inch fan ... Day 41. This is official - JUNGLES !!! ;) Change in plans : Killer Kushes are moved to veg/dry tent, Autos started there will come instead of them. Thinking that way ill lower canopy a bit and make more space for rest 8. Tomorrow it will be done together with heavy training for Skunks and Cheeses. They will be sent to flower at the end of next week. Happy Growing !

wow!!!!! she's amazing :) her buds already look stiff, and she's still ripening :) Zamnesia Runtz auto is great for small spaces, I can also smell her amazing scent, I have no doubt that she'll have a great smoke :) the girl will only get 6.3ph water from now on, -washing :) I think she has about 2 weeks left until the finish :) I can't take all the credit for it, my Cat helps me :) watch the video :).

Getting the Veg game on, these are already flipped for about 3 days beautiful structure on all the unicorns.

The tip from a friend to use the Bio Enhancer has absolutely paid off. The plants grow excellently and really soak up the nutrients from the soil. It will soon be time to start flowering, as the plants should not get too big. Added some more LST Clips, unfortunately we broke up 2 braches from the rainbow. She is a very sensitive girl tho.

amended so there is enough for the plant to finish flowering. After the 3rd week they are really perking up and getting that fat structure on the buds. Starting to smell very danky. Can't wait to taste this one under these new grow conditions.

Day 29 - Topped both ladies at the fifth node and removed any growth below. Growth exploded since transplant and first dose of nutrients. Day 30 - Watered both ladies with around 100ml of water. They recovered from the topping and look as healthy as can be. Very happy with progress. Day 32 - Misted both ladies. Will water tomorrow with another dose of light nutrients. Day 33 - Watered both ladies with around 250ml each. Increased dosage slightly from last feed to see how they take it. Day 35 - Both ladies taking the feeding like champs. Vigorous growth showing in both, planning to top them again next week and remove any growth below the topped nodes. Misted to keep them nice and hydrated.

Please help with this issue am Fukin pissed rite off Fukin flies