Week 10 total life Week 5 flowering The stretching stopped and the energy is spent on bud formation. Fertilizer. Plagron Boom 5 ml, power bud 1 ml and green sensation 1 ml Stopped the vita race this week. Happy with the way it's building up it's bud density. leafs and flowers are turning purple and the resin production is great......4 weeks to go...can't wait 😶‍🌫️

So now is the 16th day. This week the weather was rather bad!! Alfa boost has gone all out and couped a little too much N. but she is still young and will cope with it... in my opinion a bit behind but the weather should finally get better and become more consistent. the rain has now quite saturated the soil so that I had to cover the pot with foil to avoid overwatering. I ask for sun and a little dung... roots in the small pot had arrived at the bottom, are OK not lush but healthy and bemyzelt... hope she accelerates the next few days otherwise the bucket was a bit too big. will see.

Hello 👋 🤗 Ripening word-forming element meaning "beyond" (ultraviolet) or "extremely" (ultramodern), from Latin ultra- from ultra (adv. and prep.) "beyond, on the other side, on the farther side, past, over, across," from PIE *ol-tero-, suffixed form of root *al- "beyond." In common use from early 19c., it appears to have arisen from French political designations. As its own word, a noun meaning "extremist" of various stripes, it was first recorded in 1817, from French ultra, shortening of ultra-royaliste "extreme royalist." There’s no specific formula for boiling the roots. It’s just boiling the roots, nothing out of the ordinary. Here’s a simple step-by-step process to boil cannabis roots during harvest for utmost potency; Step 1: Detach the roots from the substrate without spoiling them. Some will break from the root ball but retain as many roots as possible. Note that the technique is only helpful when you leave the roots attached to the plants when you boil them. Step 2: Soak the roots into boiled water for about 45 seconds. The water should be hot, bubbling hot, if you may. Step 3. Hang dry the plants while still attached to the roots and let them dry until you can cure them From here we ensure consistency, 60F/60RH with strict measures to ensure little fluctuations. for the next 4-7 days. (edit: Took 9 days)

Seems to be taking well to being moved to the 5gal pot. Growing a lot faster after the 2nd day in the bigger pot. Watered for the first time since planting in big pot after 5 days with 1L distilled water (Ph 7) mixed with 1/2 tsp. fox farms grow big and 1/2 tsp. big bloom. Since my soil is considered hot soil I wanted to use less than the recommendation on the bottle.

Hoy comienzo con el ciclo de luz de floración 12/12. Las plantas se han desarrollado muy bien hasta ahora, sin mostrar problemas, signos de plagas, ni enfermedades. Estoy evaluando si instalar una red de soporte (Scrog) o no. Personalmente, no lo considero imprescindible, pero he leído que ayuda a sostener las punteras a medida que crecen y evita que las ramas se caigan o se rompan. Sin embargo, dado que las plantas han crecido bien hasta ahora, no estoy seguro si será necesario. Más allá de eso, estoy muy emocionado por comenzar la floración y ver cuánto durará, ya que puede variar entre 8 y 12 semanas. Today I’m starting the 12/12 flowering light cycle. The plants have been developing very well so far, showing no issues, signs of pests, or diseases. I’m considering whether or not to install a scrog net. Personally, I don’t think it’s essential, but I’ve read that it helps support the colas as they grow and prevents branches from falling or breaking. However, since the plants have grown well so far, I’m not sure if it will be necessary. That said, I’m really excited to start flowering and see how long it lasts, as it can vary between 8 to 12 weeks.

I'm in southern Ontario. Spring is in the air! Humidity levels have risen with rainfall, and temperatures are rising outside and inside my tent. I have been leaving my tent door open during the day and semi-closed at night. Plants in tent do not yet smell and I have my air intake/carbon filter, by VIVOSUN, turned off. During the day my small clip-on fan circulates. At night I let her rest in the cooler air and turn the fan off. May 2: Watered with a PH of 6.5, always using a bit of vinegar to PH down. Water included a pinky finger tip amount of crushed and stirred eggshells. Shells had been sitting in the water for 1.5 days. Shells did not enter the medium. Just the water they sat in.

Fast Buds CA (still don't have a clue what CA stands for). Looking better. I gave her an overdose of Recharge and I think it helped bring some green back to the leaves. I'll probably OD her again. Nice little bud sites developing! 😃

I accidentally gave the babies a drink mixed with a shot of dehumidifier chemicals. I mean, there’s stiff learning curves being a first time grower but that is just thick as pig shit territory. It only dawned on me the next day and I rapidly flushed. Think the orange bud is looking a little healthier, but they are both hanging in there. Chemicalicious.

Day 69: Watered each plant with 1.5L with nuts 1379 ppm, 2951us/cm, 2.9 EC (1 purple punch, wedding Cheesecake) 1391 ppm, 2959 us/cm, 2.9 EC (gorilla cookies) 1L 319 ppm, 678 us/cm 0.6 EC (3 strawberry banana and 2 purple punch) (2L each) 3 different feedings for the 10 plants Still flushing all the strawberry banana and 2 purple punch with flawless finisher, 2ml per L. (1st week flawless finisher, 2L each, 2nd week clear water, 150L each pH tap water) Day 71: I've been struggling with the humidity, always around 70%, I can't turn the lights off at the moment. I lost one of the main fans during 2 days, and I found mold on all the tops on one purple punch and on the smaller strawberry banana as well. First timing having this issue! High humidity plus not enough air circulation equals this. Mistakes happen for a reason. Need to start rethinking my whole air circulation, exaustor, fans, etc etc. I removed the infected buds, I used a magnified glass to help me do the job better. I did everything like the book. Already have 3 fans on the tent, let's see how it goes. Humidity between 65-75% Day 73: Watered each plant with 1.5L with nuts 1458 ppm, 3101us/cm, 3.1 EC (2 wedding Cheesecake and 1 gorilla cookies) 283 ppm, 602 us/cm 0.6 EC (3 strawberry banana, 3 purple punch and 1 wedding Cheesecake) (2L each) 2 different feedings for the 10 plants Still flushing, 1st week flawless finisher, 2L each, 2nd week clear water, 150L each pH tap water) Everything running smooth, they are starting to show the colors from the flush I've been doing. Day 75: Watered each plant with 1.5L with nuts 290 ppm, 617 us/cm 0.6 EC (3 strawberry banana, 3 purple punch and 3 wedding Cheesecake) (2L each) Day 77: Watered each plant with 1.5L with nuts 1811 ppm, 3810 us/cm, 3.8 EC (gorilla cookies) 253 ppm, 538 us/cm 0.5 EC (3 strawberry banana, 3 purple punch and 3 wedding Cheesecake) (2L each) Still flushing... Going to cut some of them this week.

i feed with nutes last watering about two days ago my idea is to feed one more time before the two week flush not really sure yet i have at lease a week to figure it out being the end of the plants life cycle is soposed to end in another week idk master growers were yall at?????😅

added some guano tea. plants chugging along just fine. happy growing

Well another week for this adoptepted Gelato. I got simi bad news. The main stem snapped! It Snapped while tying branches down. Trying not to panic, i tried to put the branch back together again nice and tightly with some tape. After securing the branch I gave this plant a good feeding. Im really keeping my fingers crossed with this girl, only time can tell. Let me kno what yall think. If she do not bounce back, I plan to go ahead with the flip and get what I can from the remaining branches...

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.

Hi everyone 🤗. Welcome to a new diary. Cuttings were cut and rooted last week 🙂. Today they were placed in 11 pots in Canna Coco Proffesional +. Green Buzz Liquids is used for the fertilizer 😀👍. Made in Germany 🤗. I looked at the compositions of the individual elements and I am very impressed and excited about him 😎. Greetings go out to Green Buzz Liqudis, and a big thank you for the support 🙏🏻👍. Which training methods I will use will be decided spontaneously each day 😃. I wish you a lot of fun with the diary, stay healthy l and let it grow 🌱. You can buy this Strain at https://thecaliconnection.com/seeds/girls-scout-cookies-34.html You can buy the fertilizer at https://www.greenbuzzliquids.com/ Type: Girls Scout Cookies ☝️🏼 Genetics: GSC Tint Mint 👍 Vega lamp: 2 x Todogrow Led Quantum Board 100 W 💡 Bloom Lamp : 2 x Todogrow Led Cxb 3590 COB 3500 K 205W 💡💡☝️🏼 Soil : Canna Coco Professional + ☝️🏼 Fertilizer: Green Buzz Liquids : Organic Grow Liquid Organic Bloom Liquid Organic more PK More Roots Fast Buds Humic Acid Plus Growzyme Big Fruits Clean Fruits Cal / Mag Organic Ph - Pulver ☝️🏼🌱 Water: Osmosis water mixed with normal water (24 hours stale that the chlorine evaporates) to 0.2 - 0.4 EC. Add Cal / Mag 2 ml per l water every 2 waterings . Ph with Organic Ph - Pulver to 5.8 .

Girls are starting to show pre flower. Thanks goodness the light pollution in the pot patch is 0. Will add some bloom amendments next week, although they got some bone meal not too long ago. Did another foliar spray as next week may be the last time I will be able to deliver nutrients in that manner. NEVER foliar spray buds! Unless you want to get bud rot.

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No se abona con Fertilizante de Veg ya que el super soil aún contiene los nutrientes necesarios para esta etapa, la próxima semana fertilizo con veg (green grow) , se aplicará poda de hojas y se pasarán a floración (4ta semana). Se riega foliar y tierra con knactive cada 5 días, siempre a 0.4 con calmax.