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@Wenz004
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So week 10 starting No 1 (Titan F1)...only synthetic grow...started 2 weeks later in separate tent due to some probs...now see week 7 currently feeding eith the complete hesi starter pack and since one week additionally with Plagron sugar royal, green sensation and power buds No 2 (Cookies gelato) in living soil from florganics...until week 8 only feeded with water....since week 9 additionaly with the three Plagron products as menioned af No1 No 3 (Titan F1) also pure living soil plus water experiment but due to weakness also added the same three Plagron products since middle of week 8 No 4 (Cookies gelato) organic soil light mix from biobizz plus 30% coco...feeded with the biobizz nutrients series...nothing else Tent with No 2, No 3 and No 4 is small...60 x 60 cm ( 2x2)...my goal is 200 gram dry Tent with No 1 is only 40 x 40 cm...here I have expectation 50 - 100 gram dry...let see
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@Zengrower
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The CBD started blooming at the end of last week. She's pretty small compared to the Gorilla Cookies, but she's still got a long way to go before harvest. The LST did the trick and I managed to create a nice even canopy. More pics and video's coming up later this week.
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ScrOG aus rankengitter und weich ummantelten Draht gebunden, konnte Fingerhash machen nach dem einflechten hätte echt Handschuhe anziehen sollen. Bin sehr von den Damen überzeugt. 12 Tage 24h Licht Zyklus und 2 Tage Umstellung seit Woche 11. extrem später Start mit offizieller Blüte dennoch ist die Vorarbeit von den Damen der hammer. Sie haben die Samenbildung sofort eingestellt und diese wieder abgebaut. Hätte damit gerechnet, dass der Blütenstand und die harz/Terpen Produktion nahezu eingestellt werden. Die bananas haben schon Daumen-dicke buds und riechen super süßlich, die Zake besetzen weiterhin fleißig die sonnensegel, riechen etwas zwischen Basilikum-Beeren mit etwas Diesel. Die painkiller (9/9 thc/Cbd) von royal Queen ist als Balkonprojekt Anfang März gestart und bitterlich verkümmert, habe sie seit einigen Wochen mit im Schrank unter gebracht nimmt jetzt einen platzt ein. Hatte sie auch gefimmt, hat sie nicht doll gestört musste sie mehrfach brechen/Knicken damit sie unter den Scrog passt. Rundherum läuft es wieder, nur die bananas haben leichte Mängel, morgen kriegen die beiden eine extra Dosis. 🐝
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Creo que me gustan mucho las semillas automáticas no son plantas muy grandes pero si son rápidas y con buena pinta El equipo de fast buds me sorprendió buena genética yo pensando que serían las más pequeñas y una gorila glue está con unos cogollos bastante chonchos y cristalinos super feliz con mis pequeñas auto... happy grow a todos!
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This girl is coming along really nicely starting to see a bit more too her now. I have up'd the big bud nutrients this week so hopefully it "puts the big in your buds" increasing both their size and quality! It has been about 2 weeks now since I nearly snapped a branch clean off. I strapped and propped the snapped branch to the main stem as soon as it happen but when I check it the next day it had slipped I did worry as I wasn't sure how long it had been apart but I re-strapped it and hoped for the best. So far the branch still looks healthy and I haven't noticed any issues with it at all. The branch looks as if it is healing really well so hopefully she pulls through. Happy growing 🌱
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Flowering started on day 28. I applied a topdressing once with Green House Feeding BioBloom at 1.5 grams per liter Soil. I’ll repeat that in the third week to reach the full dose of 3 grams per liter. I also discovered some thrips, so I reacted immediately by using small nematode sachetsboth on the plant and in the watering solution.
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@Selkot
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I have never treated my girls as poorly as I did during this session... and yet the result amazes me! in 12 weeks, despite all the mistakes i made, they gave me 121g dry; nice! 🎁
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back from holidays and the Quick one has grown so much more than doubled in size since last week! most leaves are fine but some are weird shaped and dark coloured leaves? any advice is appreciated. have fun growing! Day 19 update, flushed the quick one as it had a nitrogen toxicity from being overfed when i was away. still growing new leaves but very droopy from all the water in the medium. Day 20: Posting pictures to show progress! new node appeared, leaves are still full of water and a friend said to let them recover and dry out. il leave all plants for another 3 days before feeding anything :) fingers crossed for harvest time.
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Remember that, however you are played, or by whom, your soul is in your keeping alone. Even though those who presume to play you be kings or men of power, when you stand before God, you cannot say, 'But I was told by others to do thus,' or that virtue was not convenient at the time. This will not suffice. Remember that. Day:18 84°F and 65% RH (VPD) for the vegetative stage. Approximately 1.15kPa(assuming leaf temperature is about 2°F cooler than the air), which falls right into the ideal vegetative sweet spot (0.8kPa to 1.2kPa). At 1.15kPa, plants can draw water and nutrients efficiently without risking stress or wilting. It keeps the leaf pores (stomata) open, allowing for ideal carbon dioxide intake and maximizing vegetative growth. VPD is determined by the leaf's temperature, not just the ambient air. Because leaves usually run 1° to 3°F cooler than room air under bright grow lights, my actual VPD will be slightly lower, closer to the 1.0kPa mark. As she transitions from vegetative growth to flowering, one can gradually lower the humidity (to around 45–60%) and drop temperatures slightly to prevent disease from settling inside dense buds when they appear. Night:6 At 70°F and 60% relative humidity, Vapor Pressure Deficit (VPD) is 0.86 kPa. This is right on the cusp of whats optimal for the vegetative stage. During the nighttime, plants generally close their stomata and undergo cellular respiration rather than photosynthesis. Transpiration slows to a near stop, making VPD less critical at night than during the day. However, maintaining a nighttime VPD between 0.8 and 1.0 kPa is highly beneficial in that it ensures the air is dry enough to prevent powdery mildew or bud rot, but moist enough to keep the plant from undergoing unnecessary stress. This range keeps the environment comfortable for cellular processes and prevents large atmospheric swings. Keeping it all flowing. (Not pushing them yet, these are photoperiods) The optimal soil (root zone) temperature for cellular root respiration and nutrient uptake in cannabis is between 68F & 72F This narrow range balances biological energy production (cellular respiration) with the dissolved oxygen levels in the soil, maximizing plant growth and health. Warmer soils hold significantly less dissolved oxygen. When soil temperature exceeds 74F oxygen depletion occurs, inhibiting cellular respiration almost entirely, At 68-72F root cells generate optimal adenosine triphosphate (ATP) via respiration to power root-tip elongation and the active transport of water and nutrients. Too Hot (Above 78F) Root respiration increases, demanding more oxygen, while the water's oxygen-carrying capacity drops. This creates a prime environment for anaerobic pathogens and Pythium (root rot). Too Cold (Below 60F) Root metabolism and cellular respiration slow to a crawl. This severely impairs nutrient and water absorption, leading to yellowing, wilting, and phosphorus deficiencies. A lot depends on whether it's automatic or photoperiod; with photoperiod, there is not as much of a need to push "hard" as the real countdown only begins once the flower is initiated. Automatics, on the other hand, the chronological "clock" begins ticking the moment the seed germinates. It is of critical importance that the seedling growth gets off to the races, understanding that early growth is like compound interest, which will pay off come harvest. This reality is why getting autoflowers "off to the races" early on yields such exponential benefits. The "compound interest" is directly related to the surface area of the leaves. Larger, faster-growing seedlings process more light and build bigger root networks early on, which translates into an explosion of vertical and lateral growth during their short vegetative window. The margins for error are so thin with autoflowers; this early-stage momentum depends on several critical practices. Seedlings exposed to increased atmospheric CO2 levels early in life will develop at an increased rate. To effectively "extend" or optimize the capacity of Photosystem II (PSII) for increased photosynthetic efficiency. In standard oxygenic photosynthesis, Photosystem II (PSII) is naturally limited to the red-light spectrum, peaking at 680nm. Extending its light-harvesting capacity past 700nm into the far-red region requires bypassing the natural limits of standard chlorophyll a. Adding 730 nm (far-red) LEDs alongside standard red/blue lights has been shown to increase canopy photosynthesis by 20–30% in several crops by acting synergistically with shorter wavelengths. However, the limitation is that excessive, pure IR/Far-red light (without accompanying red light) can trigger the "shade avoidance response," causing plants to grow tall, weak, and spindly rather than robust. Utilizing infrared light (specifically the 700-750 nm far-red range) is a viable method to boost photosynthetic efficiency. It acts as a bridge to allow PSII to utilize a broader spectrum of light, breaking the traditional 700 nm barrier. UVR8-mediated signaling (often in conjunction with CRY proteins) triggers protective mechanisms that maintain the stability of the photosynthetic apparatus (including LHCII and reaction center proteins), thus ensuring that the efficiency of Photosystem II remains higher in UV-B-exposed plants compared to plants lacking this receptor. ΦPSII indictates the rate of electron transfer from water to plastoquinone, which drives the production of ATP and NADPH. There is a close link between ΦPSII and the true rate of CO2 fixation (Φ*co2). ETR stands for Electron Transport Rate. It measures the speed at which electrons are moved through the thylakoid membranes in a plant's chloroplasts during the light-dependent reactions of photosynthesis. Infrared light (particularly Near-Infrared or NIR) improves cellular energy by interacting directly with the electron transport chain (ETC) in mitochondria. This process boosts adenosine triphosphate production, which acts as a metabolic coefficient multiplier by accelerating enzyme activity dramatically. Extend then multiply. Far-Red photons interact with plant photoreceptors to accelerate the plant’s biological "clock" or trigger a shade-avoidance response. Autoflowers don't use the plant's biological clock, although the IR will initiate a shade avoidance and make them stretchy. You can just add equal measures of 660nm-680nm to negate the shade avoidance effect. Replacing nights' "darkness" with a combination of IR+ and 660nm. Because autoflowers don't require a dark period to flower, many growers just blast them with light. 18/6 24/0. However, this ignores the plant's metabolic rhythms, where daytime photosynthesis (light reactions) must be perfectly balanced with nighttime carbon fixation and assimilation (Calvin cycle) to avoid bottlenecking plant development. Cellular respiration is a 24/7 process, but it can only function while the plant has the free oxidative capacity to do so. A 100% photosynthetically active leaf cannot perform cellular respiration. The viral trend of defoliation of every leaf that isn't "getting enough light" is of great detriment overall, putting 100% of the cellular respiratory "workload" and responsibility on the 0/4/6 hours of darkness in sub-optimal conditions for enzymatic activity. Photosynthesis captures nearly 100% of the initial energy as carbon, while cellular respiration is the process that unlocks 90% of that captured energy into usable ATP so the plant can use it. Respiration is considered roughly 30% to 40% efficient. It captures enough of the potential energy in glucose to synthesize around 30 to 38 ATP molecules per glucose molecule. The remaining 60% to 70% of the energy in the sugar is not captured in ATP; instead, it naturally escapes into the environment as heat, which helps regulate plant temperature. In plants, the primary enzymes of the Electron Transport Chain (ETC) and the ATP synthase complexes are typically adapted to function optimally in warmer temperatures (roughly 25°C to 35°C depending on the specific plant strain). As temperatures rise within this physiological range, molecular collisions increase, speeding up respiration and ATP production. The cannabis plant has a branched respiratory pathway. During heat or cold stress, plants activate Alternative Oxidase (AOX). AOX burns sugars to dissipate energy as heat rather than coupling it to ATP production. This pathway actually functions optimally at elevated temperatures to help protect the cell from the damaging build-up of Reactive Oxygen Species (ROS) during heat stress. Enzyme activity generally scales with heat; there is a strict biological limit. If canopy temperatures in a grow room exceed 40°C, the enzymes and their supporting lipid membranes lose stability. Not saying you need to go crazy, just optimize nights the same as we optimize days. Phosphorus is the driving force behind early seedling development. It acts as the "energy hub" of the plant, directly driving cell division, robust root growth, and the creation of DNA. Without an adequate, easily accessible supply early on, the plant's overall growth potential and final yield can suffer permanently. E=MC2 looks like a simple multiplication problem; it describes a fundamental physical truth: mass and energy are the same thing. The equation doesn't just calculate a value; it reveals that mass is effectively "congealed" energy. Energy is just numbers. Energy isn't a physical "substance" you can hold or touch. It is essentially an abstract, calculated number that we assign to a system to predict how it will change, interact, or move. A numerical label we attach to matter to track how it behaves. Because the universe runs on laws of symmetry (specifically, that the laws of physics don't change over time), a single global number must be conserved. We call that number "energy". We don't grow; we facilitate energy conversion. How well a seedling grows is essentially down to how much knowledge one can acquire to increase the level of conversion to occur. Applying knowledge effectively requires intuition, which comes from hands-on experience. A seasoned stoner learns to read subtle signs—like a slight change in leaf turgor (stiffness), subtle color shifts, or the specific texture of the soil—before a textbook diagnosis can be made. Ultimately, growing is the application of botanical science blended with active observation. Knowledge dictates your potential, but adaptability and attentiveness to the plant's immediate environment determine your results. 1.618 nature mathematically optimizes quantum energy transfer and light absorption efficiency within the photosynthetic machinery, as it naturally dictates energy scaling hierarchies and resonance dynamics. External vibration or electromagnetic wave that perfectly matches a plant's natural frequency directly influences plant growth. Low-frequency sound waves and targeted electromagnetic fields stimulate cellular processes and boost photosynthetic efficiency Does it produce better yields? How long is a piece of string? As long as you cut it. But isssss the juice worth the squeeze? The quantum framework of the IVM seems to think so. Good enough for the quantum firmware, good enough for the DNA software. Genetics are not dictated; they are expressed; the rate of that expression is dictated by the environment in which growth occurs. Quantum Coherence in Photosynthesis occurs When a photon of sunlight strikes a leaf, the energy it carries must travel to a reaction center to be converted into chemical energy. This process operates at nearly 100% efficiency. If the energy moved in a traditional "bunching" or random hopping manner, a large portion of it would be lost as heat. Instead, plants utilize quantum superposition. The energy particle (exciton) doesn't just take one path; it exists in a wave state and explores multiple pathways simultaneously. It essentially "chooses" the most efficient route to the reaction center simultaneously. Research shows that molecular vibrations and the specific network arrangements of chlorophyll molecules (like the naturally evolved Chlorophyll A & B ratios) actively protect against energy overflow, optimizing light capture across different light intensities. Enzymes are the biological catalysts that speed up chemical reactions within a plant's cells, allowing them to grow, metabolize, and repair. Rather than relying solely on the classical kinetic energy of molecules colliding, plants use quantum tunneling. Subatomic particles like electrons and protons (hydrogen ions) can literally "teleport" through energy barriers that they normally wouldn’t have the energy to climb over. This makes vital metabolic reactions happen far faster than classical physics could ever explain. Chloryphyll b has peak absorption at 460nm (Blue) and at 647nm(Red). If we take the blue peak wavelength 460nm and a UV-B, UVR8 peak absorption wavelength 285nm, Tryptophan-285 (W285) Sensing protein. 460/285=1.618 Φ If we take chlorypyhll b's Red absorption peak 647nm and a UV-A of 400nm, we get 647/400=1.618 Φ. "Structure of light". The cryptochrome photoreceptor (CRY) is a UV-A/blue light receptor that shares this dual sensitivity with several other biological structures and functions, including significant sequence similarity and a common evolutionary ancestor with DNA photolyase enzymes. These are light-activated enzymes that use blue/UV-A light to repair DNA damage caused by UV-B radiation in plants. Synergistic. But Shhh, it's a secret. Effective quantum efficiency of photosystem II, often denoted as ΦPSII, represents the proportion of light absorbed by Photosystem II (ΦPSII) that is actually used in photosynthetic electron transport. It is a key indicator of how efficiently a plant is using light for photosynthesis, as opposed to losing it as heat or fluorescence. ΦPSII (effective quantum yield of photosystem II) functions primarily as a "multiplier" (a coefficient of efficiency) rather than an additive factor when estimating the overall photosynthetic electron transport rate (ETR). Multipliers are considered far more beneficial than additions because they generate exponential growth, leverage existing resources to their full potential, and create sustainable, self-multiplying capacity, rather than just incremental, linear increases. This fascinating observation is rooted in the intersection of subatomic geometry, fractal scaling, and quantum dynamics. In specific molecular arrangements—such as in conjugated polymer networks or biomolecular architectures—the Golden Ratio (PHI) naturally dictates energy scaling hierarchies and resonance dynamics. Mathematically tied to the fine-structure constant, which defines the strength of the electromagnetic interaction. The Golden Ratio can be mapped geometrically as the Golden Angle (137.5 degrees) in atomic structures, linking the charge of the electron to fundamental quantum constants like Planck's constant. Electromagnetic. The Golden Angle (137.5): This angle is derived from the Golden Ratio (1.618). It is the smaller of two angles created when a circle is divided such that the ratio of the arcs equals the Golden Ratio.
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Vamos familia, actualizamos la cuarta semana de floración de estas NoName de Seedstockers. La temperatura que estuvo entre los 24-26 grados y humedad dentro de los rangos correctos. En cuanto a las plantas las veo verde sano, estiraron bien y ensancharon bastante también. Las flores empezaron a formarse, por el momento todo correcto, os dejé también alguna novedad y un cambio en la sala, agradecer al equipo de seedstockers por hacerme llegar las novedades y a Mars hydro por el nuevo TSW2000. - os dejo por aquí un CÓDIGO: Eldruida Descuento para la tienda de MARS HYDRO. https://www.mars-hydro.com Hasta aquí todo, Buenos humos 💨💨💨
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Hi, everybody. Well, that's the long-awaited day of harvest Bubblelicious Auto. First of all, I want to thank all those who supported me during this time, your support gave me a lot, and also gave me the motivation to do better and more beautiful. 👏 You know what I have encountered problems with smell when growing this marijuana strain because of considerations of privacy and personal security, I couldn't give extra days of life to these plants. So I made a harvest for the 70th day of life of these plants, exactly 10 weeks. When I harvested, I had to move the inflorescences to another place to dry. I put their Bank and Packed in several layers of garbage bag and tightly sealed it with sticky tape. When I came home, I dried the inflorescences, and I prefer to separate the inflorescences from the large branches, and the inflorescences themselves slightly pressed to make them easier to store and they do not crumble during transportation. So the inflorescences are obtained dense and hard as a tree, but do not lose their smell and taste, but the inflorescence should be compressed very gently and gently for several days as they dry. In General I'm okay and I'm safe. The final product gives me pleasure, so I think that my risk was justified. Now in my tent matured 3 plantsNeville Haze Auto. I'm not going to stop, I'm planning to keep growing. However, due to force majeure and weather conditions, my idea of guerrilla cannabis cultivation is at risk. So I don't know what's next. But in any case, soon there will be new interesting diaries. Now my friend has 23 plants for the first week. 10 days. we urgently need to relocate them to new homes or to the outdoor. In General, add to the followers, follow my diaries, it will be interesting.
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Day 100 | 03/04/2022:💧 I am back from my holiday today but I will only be able to harvest them at the end of the week, so I watered them today. but with a reduced 1L each because I still want them to be more on the dry side when I am taking them off Day 105 | 08/04/2022: Today was harvest day and the girls look sooooo dry and yellow omg.. 😅 Maybe that 1L was not enough, but still it's better that they are on the dry side. They just all went so yellow in the last few weeks, obviously they werent getting any nutrients but also I harvested them a bit late
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03-01-2025 Começando um ciclo com as gostosas das fast buds 🤩 após alguns cultivos e várias sementes diferentes, escolhi estas 7 raças que irão habitar a minha tenda de 5x6, com 21 vasos de 12 litros, com o "nitro power" da bio bizz.
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@w33dhawk
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Moin moin liebe Leute erstmal Entschuldigung das ich Woche 8 nicht hoch geladen habe, hab einfach den Kopf zu voll zur Zeit der grow läuft an sich ganz gut alle 2 Tage muss ich die Arme der okto moms neu anpassen mit der Höhe damit die Äste einiger maßen auf gleicher Höhe bleiben. Hab zusätzlich heraus gefunden was die Flecken auf den blättern verursacht ich hab die ganze zeit extract und bat boost gleichzeitig genutzt dabei werden die Zusätze getrennt benutzt (ich depp wieder) extract für vegi phase und in blüte umstellen auf bat boost naja die okto moms leben und gedeihen werde die tage auch auf 12/12 licht plan umstellen und somit ist dann auch die Hälfte des grows schon wieder rum euch noch ein schönen Sonntag meine homies und growmies
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Processing
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@Kushizlez
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Day 19-26 (May 10th - May 17th) (Day 21) Stretch is almost over and the plants still look like they’re in veg. I’m seeing almost zero trichomes and when compared to my other room it’s laughable. At least the sites are starting to fill in a little. One plant is super leggy and stretchy. I’m guessing it’s Jack Herer but won’t know until late flower or harvest. The plant in the far left corner has great structure and thick pistil clumps. I’m guessing it’s either blueberry or the white og. Blueberry has a pretty distinct smell so differentiating all the strains won’t be that hard actually. (Day 24) I’ve been rearranging the plants once in a while just to get all sides exposed to some decent light. I never realized how much I value my LED until this run. The only way I would ever use another hps for flower is if it was one of those 1000w DE lights that all the commercial grows use. Sites are starting to fill in quite a bit now. Trichomes are still non existent though. Even on the archive genetics which is really surprising. (Day 25) Pots somewhat dried out finally. Tomorrow I’m going to leach everything with another 2 liters each and top dress with 15ml of nature’s pride bloom, 10ml of Destiny launch and 5ml of kelp meal. I’m starting to see minor N tox on some of the plants so I will probably give them a full gallon. This tent is largely experimental so I’m going to fuck with these plants pretty heavy to iron out some theories and try some new techniques. (Day 26) When I was watering today I noticed that slurricane, Puro loco and guava cake all hermed. The archives just got too stressed out in early veg I think. When I dug up both plants they were still being choked out by the sponge aerogarden plugs. Puro Loco was leading by far in the trichome department too. The guava cake was from a hermed bagseed so it’s not surprising at all but that kind of pisses me off about the “elite” Archive genetics, especially if you paid 200$ for a 10 pack. Then again, it was still my error and not their genetics. Luckily I didn’t pay a dime for them. Running those was a complete waste of time and space. With proper environment and no seedling stress I’m sure I could have grown some amazing looking stuff. All the European and Canadian genes look fine though. I’m sure they would have filled out a lot more if they weren’t being choked out by hermies. No signs of bananas anywhere else. Hopefully the 4 slurricanes I have outdoor this year will pull through without herming.
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Week 16 – Harvest Today, March 18th, I decided to harvest after getting advice from several people. It turned out to be quite a job just getting the plant out of the tent. Removing the trellis net without cutting it apart was more difficult than expected, but in the end I managed to free the plant intact. After that, I trimmed away everything that wasn’t covered in trichomes. The plan is to use all the sugar leaves and popcorn buds later for edibles, so nothing goes to waste. Next step was taking down the light. I had it zip-tied up, so I had to cut it loose before continuing. Then came the actual harvest cut — I cut the plant at the base. That took a bit of effort, as my pruning shears couldn’t quite get around the thickness of the stem. Once cut, I decided to hang the whole plant intact. My humidity in the tent is relatively low, so this should help slow down the drying process and preserve terpenes better. Seeing the plant from all angles for the first time gave me a different impression — it actually looks like a larger yield than I initially expected. Up until now, the plant has been locked into the trellis, so I’ve only really been able to view it from one angle. Detaching the net pot from the root mass was another small challenge, but eventually I got it done. Now the plant is hanging, and I’ve set up good airflow in the tent. We’ll see what the final yield looks like in about a week. I will be honest and say the result (though I don't know yield) is not what I had hoped for. The trichome development seemed to stall, and I couldn't get the amount of milky ones that I wanted. I think two things came into play: first of all I had the accident later January. Second of all, the plant seemed to struggle at the end. I think it's because I use very hard tap water, and the large quantity of calcium locked out magnesium uptake. Added calmag had no effect (since that's also adding calcium). I can't be certain at the end of the day, but I've bought a RO system for my next grow. Finally, I found a small bud hanging limply from a branch. It was totally dry and must have hung there for a while. Of course I grinded it up and made a small joint, and it got me nice and baked. So it's looking promising! After dry: About 6 days dry time. 70g of a plant is not bad. It's more than double of what I got from the last plant. So in that way the grow has been a success. I got more than I expected, but it's all a bit larfy, sadly. Vaped some and got super high, so no complaints. Smoke was a bit harsh, so gonna let it cure some more before I start smoking it. The high is more cerebral than I usually prefer. It doesn't get you couch locked. Just gets you nice and relaxed with a high that goes more to your head than in your body. It has a strong smell of berries that have been cooked. Very sweet and almost like caramel. Underlying is the diesel smell.