It is a fantastic plant, very strong in its growth, easy to cultivate, root system is not comparable to the others I have here...💪 It has an incredible fullness predominating over the others 😏 The productivity is really great being the heaviest I have harvested 😎 Now it's waiting to try it out 👌 Thanks to everyone who enjoyed this girl... And good vibes and trips to all!🙏🙌 👊

Decided ima leave her in vegataive stage till she recovers some more from the lst/hst been using cannacure to help with the mystery pests and deformed leaves have been seeing her start to regenerate and new growth is visible thinking week 7 or 8 till I switch her to 12/12 light schedule to flower bit streaching side branches and smaller side branches off the side branches are forming

Die Woche ist sehr gut verlaufen finde ich, jetzt sitzt sie in dem neuen Topf und kann größer und stärker werden :) sie hat sich nun an das neue Licht gewöhnt. Sie ist auch ein gutes Stück gewachsen und es geht echt zügig:) Anfangs hingen ihre Blätter sehr vermutlich weil es zu trocken dadrin war, seit dem habe ich eine Schale wasser im Schrank zur befeuchtung und sie sieht wieder sehr stark aus :) Auch die Seitenarme kommen sehr schön durch Der Topf sollte etwa 2-3 Liter höchstens haben und ich muss nun in der 7. Woche mit Grow nachdüngen weil sie noch nicht die entsprechende Größe hat ^^ Ich habe auch hier kein enhancer benutzt die Woche. Ich giese mit 2-3 kleinen Shotgläser am Tag Sind ca 0,1 l am Tag

This is my first grow I have haze berry critical and northern lights and white widow automatic the baby’s are critical mush and the 2 seedlings are white widow all from RQS can people give me some useful tips and vote for me

tem dias melhores tem dias piores, estão um pouco sensíveis, talvez muita agua na rega (1l) vou reduzir a ver se melhora. Algumas estiraram ate os 55/60 outras ficaram pelos 25/30 mas estão abertas já e com varios buds ao sol! :)

Plant 1 finally harvested and dried for crimbo. Final weight-plant 1 5.1 oz prime bud(4oz to cure for 1 month),1 for now 😎 🍁🍁🍁 1.2 oz popcorn buds(larf)to make vape liquid 🍁🍁🍁 0.25 oz nice close leaf 🍁🍁🍁 Big thanks to Voost.com LED awesome boards. LIGHT-VOOST vst 120 veg vst 240 flower https://voost.com/ Code- TightNugs 🍁🍁🍁🍁 Breeder-white label purple bud auto #1 🍁🍁🍁🍁 Nutes-advanced nutrients,plant magic,cx horticulture. Easy plant to grow with regular defoilation and lst. Early smoke is what I expected as I have grown b4,a proper bud and as smooth as u like.plant 2 doing well and will be chopped next week. Thanks for looking and happy growing 🤞🏴󠁧󠁢󠁷󠁬󠁳󠁿🍁

Nice week

3RD WEEK VERRY HAPPY ABOUT KALASHNIKOVA AMAZING ERROR UPLOADS PHOTOS ALL THE TIME PLEASE HELP 8 DAYS ALREADY ERROR PHOTOS

Vamos familia ya traigo la sexta semana de floración de estas Lava Cake de Zamnesia. Vaya color, están bastante sanas y están engordando bastante bien, van produciendo tricomas y van formándose las flores correctamente. Ahora seguir añadiendo el ExplotaCogollos de Agrobeta y ya empezamos también la recta final . Temperaturas máximas en 28.5 y mínimas en 26 y una humedad estable en torno al 40%. Os comento que tengo un descuento y para que compréis en la web de Zamnesia de un 20%, el código es ZAMMIGD2023 The discount 20% and the code is ZAMMIGD2023 https://www.zamnesia.com/ Agrobeta: https://www.agrobeta.com/agrobetatiendaonline/36-abonos-canamo Mars hydro: Code discount: EL420 https://www.mars-hydro.com/ Espero que lo disfrutéis, buenos humos 💨💨.

After 21 days in turbo cloner I transplanted 4 Sweet seeds Green Poison into 1 gallon plastic pots filled with Cana coco. Few days later I transplanted another 4 clones into DWC! Stay tuned! Coco feed at 700ppm Dwc feed at 480ppm

C’est la dernière semaines pour ma sweet tangerine tango, j’ai déjà récolté les deux autres.

Nice week. Transition to center mass continues - the frost builds and the aromas are incredible. Purple berry kush - slight touch and the blast of berry kush. I showed it to a non smoker - he smelt it and said - smells like I shouldn’t be here 😂😂😂. Upcoming week will be weening off the finisher and phasing in for a full flush. Divergence on two plants in the tent as they were planted later so will keep the blooming fed.

Sart of week 4 for the two ai transplanted week 3 for the other 2 I’ll transplant them next week Week 4 of veg is over tomorrow OFF WITH THERE HEADS!!

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.

Her final week of flowering start of week ten of flowering will be chopped next Tuesday then I'll post final results. I'm praying for 8 zips I really would like to break my record my biggest autoflower haul has been 7.5 zips dry! Second being 6 and then 5 and half. My average is 4 zips while minimum 1 zip. This girl was hard to keep up with feeding. I was watering it everyday for the last 3 weeks believe it or not. Biggest auto grown wide as fuck. Lst to perfection. Idk what else to say one happy auto grower as always :)

Chimera Cut - Anesia Seeds 124 days of growth and 76 days into flowering, and we’ve finally reached the moment we’ve been waiting for—harvest time! This beauty has exceeded all our expectations with massive buds covered in resin, emitting an intense aroma and showing off an incredible blue hue, exactly like the photo on the seed pack. We couldn’t be happier with the results! We decided not to weigh the wet buds; we’ll wait until they’re dried to get the final dry weight, but we’re confident it’s going to be impressive. A massive thank you to Xpert Nutrients for their outstanding support, top-notch service, and, most importantly, their amazing fertilizers that have allowed us to grow such powerful plants year after year. Without a doubt, your products are the key to our success. An equally huge thanks to Anesia Seeds for providing such incredible genetics. We are beyond satisfied with the results, and we can’t wait to grow more from your amazing seed collection in the near future. Oh, and we’ve already sampled the smoke—this strain is exceptionally strong and flavorful. From the very first hit, it’s clear you’re smoking something premium, top-shelf quality. Truly a connoisseur’s delight! Thank you again to Xpert Nutrients and Anesia Seeds for making this journey so rewarding!🏆

Día 15 (27/01) Ha reaccionado bien al trasplante. A ver como se desarrolla en los siguientes días! Día 16 (28/01) Muestra un buen desarrollo con las primeras ramas formándose Día 17 (29/01) Subo a DLI 40 Muestra un color verde estupendo 😍 Día 18 (30/01) Tras subir el DLI la temperatura en el indoor ha subido a de 22ºC a 26 ºC, de modo que va a acelerar las necesidades hídricas Se sigue desarrollando estupendamente 😁 Día 19 (31/01) Seguimos a buen ritmo Creo que debería haber regado este día... (Visto como estaba de seca al día siguiente...) Día 20 (01/02) Elimino las ramas más inferiores (1er nudo) que siempre suelen quedar débiles en el stretch Riego con 350 ml H2O RO Día 21 (02/02) Empieza a estirarse! 😍 Está sedienta! Riego con 350 ml H2O En una semana a floración! FastBuds 15% DISCOUNT code "NONICK" 2fast4buds.com @fast_buds_official_ @fastbuds.official 💦 BioTabs 15% DISCOUNT code "GDBT420" biotabs.nl/en/shop/ @biotabs_official 🌱Substrate PRO-MIX HP BACILLUS + MYCORRHIZAE @promixmitch @promixgrowers_unfiltered 💡2 x Mars Hydro FC1500 EVO Led Grow Light (2024 NEW FC 1500-EVO Samsung LM301H 150W LED) - https://marshydro.eu/products/fc1500-evo-led-grow-lights/ - https://www.amazon.de/dp/B0CSSGN5D8?ref=myi_title_dp