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@gablmo
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Finally flower. They are 4 feet now. What am I going to do? I don't want them to burn into the light.
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Only 3 out of 8 turned out to be females. 5 male ones were culled a week ago. 💀 Today I transplanted them to final - 26L - fabric pots and moved into flowering 4x4 ft tent under Mars Hydro FC 4800 (466W). They get around 650 μmol/m²/s for now - will crank it up in a few days. I used Canna Terra Professional substrate - as always. After they get accustomed to new pots I'll flip them to flower - in about a week. 👌
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@Phileed
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By now I also cut the second Apple strudel so just papaya cookies and banana purple punch are left now, in the meantime the other are drying slowly, the guava is ready for trimming and curing. I’m very curious about the quantity from each plant now. Happy growing!
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Over fed some of them others go very good. Smells already realy good
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DAY 24 // Everything is going well, we did the led a bit higher now, the one special kush I topped before the others is looking perfect. Removed her some leaves for better lightening darker areas tied down and we will see how the lst will work. Other strains been good, we will see when they will get lst.. DAY 28 // Week 4 is gonna end the girls looking pretty bushy. Scrog Planned next week.
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@Manchu
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Mi experiencia con esta variedad, fue realmente buena. una semilla con mucho vigor, muy resistente a plagas, y con sabores y olores exquisitos
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@Fiftysou
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Bientôt la fin, les têtes sont très jolie compacte est plein de trichome.
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Hi everyone, friends! And well back to the Peaky Californian enchanted valley Apical peaks continue to inflate extremely invading the network too! The shoots are increasingly purple ;) how beautiful!
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Topped once, turned off IR @ nights, slowed vertical growth back down, and took off both of the very lowest internodes on each plant. Eisenia fetida Stratiolaelaps scimitus Armadillidium vulgare Red wigglers (Eisenia fetida) are highly beneficial. They are considered an ideal choice for "no-till" or container-based organic growing because they live in the upper layers of soil, feeding on organic mulch rather than the plant's root system. Red wigglers accelerate the breakdown of organic amendments and produce high-quality, nutrient-dense worm castings directly in the root zone. Clover is another exceptional component of an organic rhizosphere, offering a sustainable, self-sustaining alternative to synthetic nitrogen fertilizers produced via the energy-intensive Haber-Bosch process. By forming a symbiotic relationship with Rhizobia bacteria, clover converts atmospheric nitrogen N2 into ammonium NH4, providing a steady, slow-release nutrient source that enhances soil health and reduces environmental impacts. Red clover offers superior nitrogen fixation and biomass production compared to white or yellow clover, making it the premier choice for maximum soil vitality, particularly for improving soil structure and providing a high-volume nitrogen credit for subsequent crops. If it is fully functional and efficient soil, the rhizophagy cycle is superior long-term than any synthetic delivery when it comes to preventing deficiencies, not because it's "better," per se. The medium will require a very high CEC to make it to harvest without re-fertilization. The rhizosphere acts as a dynamic, interactive exchange where plants and soil microbes trade resources based on immediate needs. When a plant lacks a specific nutrient, it changes its physiology and releases specialized chemical cocktails—root exudates—into the surrounding soil. These exudates, which include sugars, amino acids, and organic acids, serve as a "shopping list" to attract specific microorganisms, which in turn return higher levels of desired nutrients. There is nothing in comparison when using synthetic delivery, which can cause plants to stop producing exudates, effectively "starving" the beneficial soil life, over time turning the soil barren and void of microbial life. Responsible use, applying the right amount at the right time, can minimize these negative effects. Relying solely on synthetic fertilizers without replenishing organic matter is what typically leads to exhausted soil. The use of synthetic fertilizers can utilize the Cation Exchange Capacity (CEC) of the soil, but without a robust rhizosphere and active microorganisms, the efficiency of this process is significantly reduced. This makes synthetic growing more difficult to prevent deficiencies overall compared to an efficient organic living soil with a robust rhizophagy cycle, as there is no "one size, fits all" when it comes to different nutrient profiles of strains/genetics, making it trickier to "guess" and prevent creeping deficiencies. CEC does not contribute towards EC. Add more CEC using biochar, problem solved. If you keep pH between 6.3 and 6.7, hydrogen is exudated to cycle the medium's CEC for its needs. Keeping the pH between 6.3 and 6.7 creates an environment where plants release H+ to displace positively charged nutrients (like Ca2+, Mg2+, K+ held on soil particles or within artificial media this cycle through nutrients via the medium's Cation Exchange Capacity (CEC) Microorganisms generate a stable potential of approximately 0.5 V EC. The rhizosphere creates its own food, similarly to chelation, using 1000's of varying combinations to create its own food. Start to finish, just add water. Eventually, more materials will need to be added at the beginning of each new grow, but very attainable to go from seed to harvest without ever fertilizing. ATP is important when it comes to biomass accumulation. Cellular root respiration and cellular respiration are essentially the same biological process, the breakdown of glucose to create usable energy (ATP) in the presence of oxygen, just taking place in different parts of the plant. Synthetic (salt-based) grows have significantly lower levels of total rhizosphere respiration, often referred to as root-zone activity, compared to organic living soil grows. While the plant roots themselves may respire in both systems, the surrounding soil ecosystem in a living soil setup is vastly more active, teeming with bacteria, fungi, and beneficial microorganisms. 2 pools of ATP, it won't double in growth buuuut, but improving root respiration by ensuring high oxygen in the soil is crucial. Good aeration ensures roots can fully utilize glucose to generate the ATP necessary for nutrient uptake, leading to healthier and more productive plants, even if growth isn't exactly doubled. The ATP created using root respiration is dedicated to rootzone growth; the ATP created using regular cellular respiration in a synthetic system would have to dedicate a lot of ATP to the roots when there is little or no root respiration. It's true that there is less of an initial ATP cost in breakdown when nutrients are already in their final form (synthetic), but you lose a solid chunk of ATP when the entire plant is reliant on cellular respiration alone; a large portion of ATP is dedicated to root zones for "forced" nutrient uptake rather than traded. Making it overall less efficient, even if the initial cost of breakdown is higher. Not sure if I butchered that but one can hope It makes sense. Oxygen is of critical importance when growing in living soil compared to synthetic soil because it supports the metabolic needs of the microbial, fungal, and insect ecosystem, rather than just the root respiration required by the plant itself. While synthetic grows can survive in lower-oxygen environments with precise mineral feeding, living soil systems rely on aerobic microbes to decompose organic matter (microbial mineralization) to create plant-available nutrients, which is an oxygen-intensive process. While a specific fair percentage is difficult to guess, my experience points to a massive, compound difference between the two methods and the amount of oxygen required. All the ATP spared is used on more biomass, not only that, but the extra root respiration can achieve a much higher CO2 compensation point naturally than you could with synthetic and atmospheric CO2 alone. As a plant grows faster and increases in size, its demand for nutrients to support that growth increases, requiring a higher rate of nutrient uptake. As plants enter phases of rapid vegetative/floral growth, their metabolic demand for nutrients increases exponentially. Without a robust buffer zone—whether in the soil (cation exchange capacity) or in a hydroponic reservoir—deficiencies will occur rapidly because the instantaneous demand for specific nutrients can quickly exceed the rate of supply. A growing body of evidence suggests that organic living soil provides superior long-term soil health and environmental benefits compared to synthetic fertilizers, which are often criticized for promoting a cycle of dependency and degradation. While synthetic fertilizers offer short-term convenience and high yields, they often come at the expense of long-term soil health, sustainability, and increased corporate control over growers/ farmers. Organic living soil, while slower and requiring more care to establish, creates a sustainable, resilient, and, ultimately, more fertile environment. We don't really grow; we facilitate energy conversions, and energy is just numbers. Because the universe works the same way today as it did yesterday, there is a single, fundamental mathematical quantity that remains constant. We call this quantity energy. You cannot put "energy" under a microscope. You observe matter and forces (like heat, motion, or light), but energy is just a scalar number calculated to help predict how these things will change and interact. When an object falls, or when a battery powers your phone, matter shifts and changes form. Through it all, the universe ensures the "total score" of the numbers remains exactly the same. Once all water is removed, approximately 95% to 97% of a plant’s dry matter consists of carbon, oxygen, and hydrogen. These three elements form the structural backbone of all plants. NPK & all the rest 3-5%. Indigenous Amazonians created, or at least significantly enhanced, the fertile, dark soil known as Terra Preta de Índio (Portuguese for "Indian Black Earth") by incorporating biochar and other organic materials into the soil. This anthropogenic (human-made) soil technique, which dates back roughly 2,500 to 8,000 years, allowed ancient civilizations to flourish in regions with naturally poor, acidic, and nutrient-poor tropical soils.
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This plant is Definitely a weird one growing one fingered leaves. Light penetration is perfect so I didn't have to train. Unfortunately 3 weeks of her life she grew under the older plants, and didn't get much if any light exposure. The buds would have been phenomenal had I got 3 more weeks out of her
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week intel: its time to harvest some of plants the ones that is mature enough. indica dominant plants will done first always so we should harvest them first because my base nutrients and one of boosters was salt based, i'll do flushing this week to get some relieve to plants in the last days stresses : flushing Drought stress via watering only one time with flushing this week feeding: day 1 : i flushed them with Advanced Nutrients Flawless finish and adjusted ph day 3 : no more feeding from now on day 5 : no more feeding from now on guide of the week : i harvest in 2 parts : first i harvest top of the branches and will let the lower buds to ripe another week then ill harvest the second wave. indica dominant plants will get done 1 or 2 weeks sooner than sativa dominant plants that will often takes more than 8 weeks so be aware to harvest them sooner. my dry and cure style is this: 3 days of hanging upside down to get water activity lower to around 0.6 in 50% humidity and 26 C temp (i know its a little high but we are in a hot summer right now and i cant get it lower even with air conditioner) and then after 3 days of drying i remove leaves and stalks, trim buds and move them to jar for the rest of their life :D . and in the first 4 days of curing i open the jar door and let hem get some fresh air in the jar for about 5 minutes and close the jar door again, after 4 days of curing like that buds are smokable but they will get better as they getting cured about 1 month. im happy as hell with this harvest :D.
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@UDUDUDUDU
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I wonder if da centipied likes itz new home' I cleaned up a bit and found da critter, figured give her a new home witt KobrA yeap still free of any additives like ? racing fuel ?
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Soaked the seeds in water with hydrogen peroxide 10 drops per 200 ml. GHS gave root first both varieties, CG waited 3 days and decided to add a second seed, after 24 hours both gave root :) Solucion - local Argentinian manufacturer. Coconut substrate - Plagron. Water : 110 ppm + 0.5 (HV+HM+HM)=350 ppm. Wanted to twist the sprout with a Lemon Orange spiral because it stretched out, but broke it in half :( 26.06 - 2 Marshmallow and Milky Dreams. P.S. the biggest one is Milky Dreams. Puse las semillas en remojo en agua con peróxido de hidrógeno 10 gotas por 200 ml. GHS dio raíz primero ambas variedades, CG esperó 3 días y decidió añadir una segunda semilla, después de 24 horas ambos dieron raíz :). Solucion - productor local argentino. Sustrato de coco - Plagron. Agua : 110 ppm + 0,5 (HV+HM+HM)=350 ppm. Quise retorcer el brote con una espiral de Naranja Limón porque se estiraba, pero lo rompí por la mitad :( 2 Marshmallow y Milky Dreams. PD: el más grande es Milky Dreams. Замачивал семена в воде с перекисью водорода 10 капель на 200 мл. GHS дал корень первым оба сорта, CG ждал 3 дня и решил добавить вторую семечку, через сутки оба дали корень :) Solucion - местный Аргентинский производитель. Кокосовый субстрат - Plagron. Вода : 110 ppm + 0.5 ( HV+HM+HM)=350 ppm Хотел скрутить росток спиралью Лемон Оранж, потому что он вытянулся, но сломал его пополам :( 2 Marshmallow и Milky Dreams P.S. самый большой это Milky Dreams
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Original Sensible Seeds - Frosted Guava 🍈 Enjoy - Week 3 🌻 - 25-26 grad Celsius - 50-55% humidity level - 20l Air-Pot (75% BioBizz All-Mix, 25 % BioBizz Worm Humus) - RO-water (PH 6,3) Day 17 🌸 - Defoliation Sanlight Evo 3-60 100%: about 1000-1300 PPFD Spider Farmer Glow30 12h/12h on
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@ValtripOG
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Comienza a verse la resina y esos tonos blancos de esta bella planta
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Sorry for the delayed post I honestly forgot I started this one lol...they’re doing great I had some of those biodegradable starter pots that I used n prolly let them stay in too long tbh but now they’re both in their new homes! One is all coco and the other is top-half coco/bottom-half soil..thanks for reading/looking
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I was finally able to sex them all. 1 Male/Hermie, and the rest have beautiful white pistles forming. They are starting to go through a stretch now as well. I also ordered some more grow lights 3 Mars Hydo TS1000's. I can't wait for those to arrive.)
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@MrGrow
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04.06.2023 🌱 136 giorni dal seme 🌼 64 giorni di fioritura 📈 ph 6.0 💦 2.5 litri/48h Siamo arrivati al capolinea ragazzi✌️🏻 I tricomi stanno iniziando a diventare ambrati, ma sono ancora molto pochi. Ho intenzione di aspettare ancora 4 5 giorni, fare un'annaffiata con acqua e ghiaccio per dargli l ultimo forte stress termico, e poi 48 h di buio prima di tagliare. In questi ultimi giorni sto annaffiando solo con acqua, le foglie stanno rapidamente cambiando colore e appassendo leggermente. Credo che la pianta stia prendendo tt i nutrimenti da esse. Prossimo aggiornamento con il raccolto✌️🏻 A presto ragazzi🙏💚