Eccoci di nuovo qui!!! Super eccitato per questa nuova collab con Spliff Seed, che mi ha dato l’opportunità di testare questa nuova genetica e di condividere i progressi con tutti voi!!! Come sempre partiamo nei bicchieri per poi travasare.. Questa volta verrà svolto tutto sotto la Lumatek Zeus 465 ProC, mi aspetto molto da questo ciclo!! Genetica che inizialmente mi aveva colpito per la resina che aveva ma una volta grindata e fumata mi ha lasciato senza parole: - Sapore intenso con retrogusto dolce sembra uno sciroppo!!! - Effetto devastante corporeo ti manda direttamente sul divano! La consiglio a tutti per la facilità di coltivazione!!! Grazie a tutti per il supporto ❤️🍀🔥

17.05. I don't have anything special to say, of course the weather is terrible... it's 6-7 at night, 15-16 during the day, so they're inside... the temperature inside is 20-21 during the day, at night from 15 to 17 when it's this cold... the plants were exactly 3 weeks old yesterday, today they entered the fourth week and most likely they will wait inside for the fifth week as well because the weather is terrible and there is no point in transplanting yet. Stay High!

What's in the soil? What's not in the soil would be an easier question to answer. 16-18 DLI @ the minute. +++ as she grows. Probably not recommended, but to get to where it needs to be, I need to start now. Vegetative @1400ppm 0.8–1.2 kPa 80–86°F (26.7–30°C) 65–75%, LST Day 10, Fim'd Day 11 CEC (Cation Exchange Capacity): This is a measure of a soil's ability to hold and exchange positively charged nutrients, like calcium, magnesium, and potassium. Soils with high CEC (more clay and organic matter) have more negative charges that attract and hold these essential nutrients, preventing them from leaching away. Biochar is highly efficient at increasing cation exchange capacity (CEC) compared to many other amendments. Biochar's high CEC potential stems from its negatively charged functional groups, and studies show it can increase CEC by over 90%. Amendments like compost also increase CEC but are often more prone to rapid biodegradation, which can make biochar's effect more long-lasting. biochar acts as a long-lasting Cation Exchange Capacity (CEC) enhancer because its porous, carbon-rich structure provides sites for nutrients to bind to, effectively improving nutrient retention in soil without relying on the short-term benefits of fresh organic matter like compost or manure. Biochar's stability means these benefits last much longer than those from traditional organic amendments, making it a sustainable way to improve soil fertility, water retention, and structure over time. Needs to be charged first, similar to Coco, or it will immobilize cations, but at a much higher ratio. a high cation exchange capacity (CEC) results in a high buffer protection, meaning the soil can better resist changes in pH and nutrient availability. This is because a high CEC soil has more negatively charged sites to hold onto essential positively charged nutrients, like calcium and magnesium, and to buffer against acid ions, such as hydrogen. EC (Electrical Conductivity): This measures the amount of soluble salts in the soil. High EC levels indicate a high concentration of dissolved salts and can be a sign of potential salinity issues that can harm plants. The stored cations associated with a medium's cation exchange capacity (CEC) do not directly contribute to a real-time electrical conductivity (EC) reading. A real-time EC measurement reflects only the concentration of free, dissolved salt ions in the water solution within the medium. 98% of a plants nutrients comes directly from the water solution. 2% come directly from soil particles. CEC is a mediums storage capacity for cations. These stored cations do not contribute to a mediums EC directly. Electrical Conductivity (EC) does not measure salt ions adsorbed (stored) onto a Cation Exchange Capacity (CEC) site, as EC measures the conductivity of ions in solution within a soil or water sample, not those held on soil particles. A medium releases stored cations to water by ion exchange, where a new, more desirable ion from the water solution temporarily displaces the stored cation from the medium's surface, a process also seen in plants absorbing nutrients via mass flow. For example, in water softeners, sodium ions are released from resin beads to bond with the medium's surface, displacing calcium and magnesium ions which then enter the water. This same principle applies when plants take up nutrients from the soil solution: the cations are released from the soil particles into the water in response to a concentration equilibrium, and then moved to the root surface via mass flow. An example of ion exchange within the context of Cation Exchange Capacity (CEC) is a soil particle with a negative charge attracting and holding positively charged nutrient ions, like potassium (K+) or calcium (Ca2+), and then exchanging them for other positive ions present in the soil solution. For instance, a negatively charged clay particle in soil can hold a K+ ion and later release it to a plant's roots when a different cation, such as calcium (Ca2+), is abundant and replaces the potassium. This process of holding and swapping positively charged ions is fundamental to soil fertility, as it provides plants with essential nutrients. Negative charges on soil particles: Soil particles, particularly clay and organic matter, have negatively charged surfaces due to their chemical structure. Attraction of cations: These negative charges attract and hold positively charged ions, or cations, such as: Potassium (K+) Calcium (Ca2+) Magnesium (Mg2+) Sodium (Na+) Ammonium (NH4+) Plant roots excrete hydrogen ions (H+) through the action of proton pumps embedded in the root cell membranes, which use ATP (energy) to actively transport H+ ions from inside the root cell into the surrounding soil. This process lowers the pH of the soil, which helps to make certain mineral nutrients, such as iron, more available for uptake by the plant. Mechanism of H+ Excretion Proton Pumps: Root cells contain specialized proteins called proton pumps (H+-ATPases) in their cell membranes. Active Transport: These proton pumps use energy from ATP to actively move H+ ions from the cytoplasm of the root cell into the soil, against their concentration gradient. Role in pH Regulation: This active excretion of H+ is a major way plants regulate their internal cytoplasmic pH. Nutrient Availability: The resulting decrease in soil pH makes certain essential mineral nutrients, like iron, more soluble and available for the root cells to absorb. Ion Exchange: The H+ ions also displace positively charged mineral cations from the soil particles, making them available for uptake. Iron Uptake: In response to iron deficiency stress, plants enhance H+ excretion and reductant release to lower the pH and convert Fe3+ to the more available form Fe2+. The altered pH can influence the activity and composition of beneficial microbes in the soil. The H+ gradient created by the proton pumps can also be used for other vital cell functions, such as ATP synthesis and the transport of other solutes. The hydrogen ions (H+) excreted during photosynthesis come from the splitting of water molecules. This splitting, called photolysis, occurs in Photosystem II to replace the electrons used in the light-dependent reactions. The released hydrogen ions are then pumped into the thylakoid lumen, creating a proton gradient that drives ATP synthesis. Plants release hydrogen ions (H+) from their roots into the soil, a process that occurs in conjunction with nutrient uptake and photosynthesis. These H+ ions compete with mineral cations for the negatively charged sites on soil particles, a phenomenon known as cation exchange. By displacing beneficial mineral cations, the excreted H+ ions make these nutrients available for the plant to absorb, which can also lower the soil pH and indirectly affect its Cation Exchange Capacity (CEC) by altering the pool of exchangeable cations in the soil solution. Plants use proton (H+) exudation, driven by the H+-ATPase enzyme, to release H+ ions into the soil, creating a more acidic rhizosphere, which enhances nutrient availability and influences nutrient cycling processes. This acidification mobilizes insoluble nutrients like iron (Fe) by breaking them down, while also facilitating the activity of beneficial microbes involved in the nutrient cycle. Therefore, H+ exudation is a critical plant strategy for nutrient acquisition and management, allowing plants to improve their access to essential elements from the soil. A lack of water splitting during photosynthesis can affect iron uptake because the resulting energy imbalance disrupts the plant's ability to produce ATP and NADPH, which are crucial for overall photosynthetic energy conversion and can trigger a deficiency in iron homeostasis pathways. While photosynthesis uses hydrogen ions produced from water splitting for the Calvin cycle, not to create a hydrogen gas deficiency, the overall process is sensitive to nutrient availability, and iron is essential for chloroplast function. In photosynthesis, water is split to provide electrons to replace those lost in Photosystem II, which is triggered by light absorption. These electrons then travel along a transport chain to generate ATP (energy currency) and NADPH (reducing power). Carbon Fixation: The generated ATP and NADPH are then used to convert carbon dioxide into carbohydrates in the Calvin cycle. Impaired water splitting (via water in or out) breaks the chain reaction of photosynthesis. This leads to an imbalance in ATP and NADPH levels, which disrupts the Calvin cycle and overall energy production in the plant. Plants require a sufficient supply of essential mineral elements like iron for photosynthesis. Iron is vital for chlorophyll formation and plays a crucial role in electron transport within the chloroplasts. The complex relationship between nutrient status and photosynthesis is evident when iron deficiency can be reverted by depleting other micronutrients like manganese. This highlights how nutrient homeostasis influences photosynthetic function. A lack of adequate energy and reducing power from photosynthesis, which is directly linked to water splitting, can trigger complex adaptive responses in the plant's iron uptake and distribution systems. Plants possess receptors called transceptors that can directly detect specific nutrient concentrations in the soil or within the plant's tissues. These receptors trigger signaling pathways, sometimes involving calcium influx or changes in protein complex activity, that then influence nutrient uptake by the roots. Plants use this information to make long-term adjustments, such as Increasing root biomass to explore more soil for nutrients. Modifying metabolic pathways to make better use of available resources. Adjusting the rate of nutrient transport into the roots. That's why I keep a high EC. Abundance resonates Abundance.

W19 (Harvest) 6-6 Last day before harvest. 7-6 Harvest day! Installed a humidifier outside the tent, set to 55% aiming for a 60% humidity inside the dry tent. 17-6 After 10 days of drying she is ready to be trimmed. While posting this a couple of months later i found out that i totally forgot to make pictures and video's of the trimmed buds 😅 End result #1: 37 Grams of dried buds. 35.84 Grams of dried trim and very small buds, into the freezer. I would describe pheno 1 as normal frosty, almost stone like buds, smells chemical with hints of dish soap (i really like it!) I cant describe the taste but it was very tasty out of the box, before the cure, very sad i only had 37 grams of it haha. End result #2: Around 70 grams of dried buds. 43.23 Grams of dried trim and small buds, into the freezer for bubble hash. I would describe pheno 2 as very frosty buds, little bit fluffy, smells very gassy, with a nice sour taste after curing a couple of months. Very interesting strain, i will definitely grow it again! I have some trim and small buds saved up from different strains and i will be posting a diary of the full process making hash of them! If you are interested in me making bubble hash feel free to follow me as i will make some in the next month, this way you keep notified!

Geruchlich kann ich leider bei ihr noch nichts entdecken. Sehr viele Blütennarben die sich schon gebildet haben.

Hi people. Week 2 of vegetation going on, everything is great at this point, the ladies are very strong e almost ready to start the LST Training. Good week to everyone. :-) Cheers!

Plant started drooping in the last couple of days. I'm not completely sure but think it's probably from over watering so I'll keep an eye on it over the next few days. Gave the plant another big defoliation and took off all the small stuff that I don't think will become decent buds. Going away for nine days next week so I'm trying to get the water right. UPDATE: left the plant for 24 hrs and it continued to droop. Definitely under watering. Gave it 3 l litres and it's looking normal now.

Hier sind Bilder von meinem ersten Grow nach fast 10 Jahren Pause . Ich habe mich an das System gehalten wo mir damals von anderen Growern gezeigt wurde . Die Samen wurden in die gequollen chiffis eingesetzt die ich dann in Bechern mit abgeschnittenen Flaschen als deckeln platziert habe . Ich habe selbst eine grow Box gebaut als Test ob ich überhaupt wieder in das Hobby einsteigen werde war unklar .

Tak nwm co k tomu napsat , holky vypadají den ode dne šťastnější, a já vlastně taky , protože se zdá, že jsou zdravé ,a pěkně pokračují v nakvétání , momentálně jsme ukončili třetí týden květení viz poslední fotky , je tam 2x Mimozz, ty vzadu, mají už krásné čepičky ,takže je přede mnou krásná a nádherná defoliace na pár 10tek minut ,snad neobjevím LOS BANÁNOS 🍌, ta jedna ve předu je Cherrytini, ta nakvétá trošku pomalej ,takže na defo je u ni ještě čas. Tož ať sa vám daří felas,a jestli se vám to líbí tak že dekuji 👌🤝

Flower day 22, I hope the stretch is finally over.. these girls are giants! So far they have just been given P.H water and 1 top dress of some Dr Forest bloom 2-8-4 dry amendments mixed with some bokashi, canna pro soil and some worm castings that I watered in using molasses. Loving how easy this grow is going, hopefully it stays that way until harvest :)

the buds are getting thicker and the odour more intense. it's my first almost buds and i'm really impressed by her performace. she's currently still getting biobizz top-max and she seems to like that and lots of sun. :)

Girls are looking stunning, first round with the cropsalt nothing else PH 5.8, no fluctuations, DTW. It been a slow transition to flower but this could also be due to flippin’ early, in a weeks time when I see more pistils and flower development I’ll be switching over to Bloom nutes. Temps/RH are on point 80/60 has been my range for this one.

2nd week in the big tent, not overly happy with the progress , some plants are coping better than others, seem to be getting curling/yellowing leafs? hoping that by next week they will be in full swing, one night the heater cut out and the room went down to 13c, don’t suppose that will have helped

BCN Power Plant Week 16 11L Pot LED: SP250 (245W) for Flow. Stage Canna COCO Mineral Nutrients: 👇 Flawless Finish: 2 ml/L

Well we thought something was wrong with our white widow being that from one day to the other she was crooked and looking Ill.. so we cut her way before time.. BUT (bud hehe) after closer inspection it was a block of in the autopot.. so she prolly could have bounced back..

4/9/25 This plant is beyond frosty. Stacking up super nicely. Seems like she will yeild quite a bit. My only gripe is that she has like no smell at all. Using the foil as a soil cover is working quite nicely. the top soil is getting filled with roots quite well. Top dressed 1tsp of Bloom 1tsp microbe charge 1tsp bloom

#AutoWhiteRussian breed by Outstandingly Awesome Team #DivineSeeds #DivineSeedsSquad #DivineSeedsBreedingCompany Yo!!! This Lil Beauty popped open in under between 16-18 hours of Germination using this Wet Papertowel Method, this New Heat Mat, Baked potato ToGo Container and Regular Tap Water Helped Tremendously! Heck Yeah Growmies and Growmets!!! She's looks Amazingly Great in her 2nd week of Veg! Let's Grow!!! DivineSeeds: #AutoWhiteRussian Origin:Afghanistan Type:Indica/ Sativa/ Ruderalis Flowering:65 days THC:24 % Harvest:400-600 g/m2 Height:100-150 cm https://divineseeds.net/ https://instagram.com/divine.seeds?igshid=osxe2v7en33v I love and Appreciate Everyone!!! Thanks Again Team! Cheers Famz!!! Much Props and Much Topz!💯

Week 2 flower is over and things are looking great I really love the future harvest development range always pushing your plants to the max with @adyfutureharvestuk @Hydroprowashington with the best stuff about make sure you follow them on Instagram Cant wait to see how these finish up and if anyone can recommend any beans if should try next time feel free to drop me a message anytime or contact me on my IG @Washingtonblazers Thanks as always to my sponsors @Anesiaseeds @divineseeds @HydroproWashington and my newest one @inseediousseeds And @HydroproWashington for the awesome range of Nutrients see you'd next week team

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