*UPDATE 04/21* Full Biobizz schedule 8th week fertigation for OG Kush Lower leaves gradually come to a chlorotic state due to N movement to the top. An expected outcome due to no N administration since weeks. *UPDATE 03/24* Irrigations for Amnesia Haze @1.8 lts of cal mag treated RODI water @0.3EC pH 6.5 *UPDATE 04/24* Pics uploaded since a long time ago. The Amnesia is already at peak blooming, rather short and to the highest limit of nutrient uptake with significant clawing and dark foliage with nothing else going wrong whatsoever. Nutrient burn is virtually non existent but the plant is clearly in its limits and anything more than that should bring it to halt and burn. Orgatrex is the culprit here. It took some more than needed and it cope rather good:) Testing for this strain has concluded, same goes for the OG Kush which bulks up rather slow. Nutrient administration for both them plants is over from now on. The young one is half a week old. And it ll take the place of one of them along with a BCN Critical from seed stockers.

Obama runtz x gas tax they both are a little taller than all the seedlings as I'm smoking some.of the flower from last grow I'm seeing the more wild plants like this plants mother sister they smoke great but these 2 seedlings have a look to their leaves like some of the wild from the face off og from the gas tax Last grow I overwatered and had to toss them because growth got stunted and a bunch if fungus knats got to the soil. This time I'm trying promix potting soil wish I had tried promix hp but the store close by isn't a hudro store and that's what they had. So this time I'm being very cautious with the watering I'm only useing a spray bottle I'm currently giving 45 spray per solo cup every few days when it dries out. This promix soil seems to hold water decent so the 45 spray there is 0 water coming out the bottom the cup yet. Here soon I think I'm going to double the amount of spray to 90 and start letting the soil get dry dry before watering again. Probably will hold off on any nutes quite yet. I'm going from 24/0 to 20/4 light schedule this week. There getting to the point they won't strech as much is 4 hrs of darkness and I'm rasing the light intensity a little it's been around 150 I'm upping it to around 175. Most likely by the end of the week I'll probably be pushing 200 or close. Hopefully I can get them into the big tent soon At this stage I like to alternate having the fan blowing on them I feel it gives them time to recover and get stronger instead of wind stress. Also every few days I will turn the plants so they are facing away from the light making them grow back towards the light I fell it makes them stronger

Gracias al equipo de Fast Buds 420 por la donación de las semillas y poder inscribirme en el concurso del año. Creada a partir de la genética de la Girl Scout Cookies y la Gorilla Glue #4, seleccionadas a mano y en combinación con nuestra famosa Gorilla Cookies Auto, esta variedad lleva todos los mejores atributos de sus padres al más alto nivel. Este híbrido maravillosamente equilibrado prospera en el interior y en el exterior, y en todo tipo de climas, a la vez que es superresistente a los bichos y las plagas. Es una productora masiva que ofrece a los cultivadores de todos los niveles rendimientos de hasta 650 g/m² de cogollos de primera calidad que no decepcionan en absoluto. Siendo una de las versiones más potentes de esta genética, la Gorilla Cookies FF (Fastflowering) presume de un enorme porcentaje de 29 % de THC que se traduce en montones de resina y terps sabrosos que hacen las mejores extracciones. Es la elección perfecta para los cultivadores de hachís que buscan cepas de gran potencia que produzcan sabores y aromas excepcionales. Consigue aquí tus semillas 😁🌻🚀: https://2fast4buds.com/es/seeds/gorilla-cookies-fast-flowering

Easiest week so far, no problems just growing. I did spray some neem oil on my soil a few days a go to keep pests out of the fox farm soil. Week 4 will bring in topping after the next node grows in, should be 2 or 3 days. Also towards the end of the week after she recovers from topping I will begin LST. Will provide pics throughout the week Posted first vid in real light not my 600 watt LED. Mainly for health purposes. This will be so interesting to see how blueberry will develop after an accidental FIMing lol. Personal Note: Wait to top when there is a full mainstem and not barely new growth. Meaning wait til the new growth has 2 fan leafs spread out, and not when they are just leafs barley sprouted from the main stem. Rookie mistake number 1 so far at the end of week 3. Or maybe time will tell if blueberry will be gracious enough to be a beautiful big buded tree. I read where FIMing can develop up to 4 extra colas and still grow beautifully. Fingers crossed.

. . . Day 21, topping was done yesterday, we entered the 4th week, I did not make any transactions today. Day 24, watering Day 25, I took 2 leaves from each plant Day 26, watering empty (only voodo and 2ml bloom)

Amnesia Haze XXL sieht bis jetzt sehr gut aus und hat eine sehr schöne Farbe die buds werden kräftiger

Seriøst jeg er bare så glad for jeg har fået lov til at få sponsor frø fra KANNABIA, de overrasker mig hverdag jeg står op og kigg Til dem ! Undskyld der er gået halvanden uge siden sidst 🙏🏼🧡🖤☮️💚de bedste hilsner fra jeres Nicogreen 💚💚💚🧡🖤

Have 2 problems with the girls. 1. 3 plants showing signs of cal mag deficiency on lower leaves. 2. 1 plant showing what seems like potassium deficiency. Ph has been perfect all week between 5.8-6.3 I flushed for 1 day with ph water and then added nutes with increased calmag and bud blood since i will be sending into flower in 3 days.

Another week is over, I couldn't update it before because I think the site was having problems... but anyway, the last photos were from June 8th and it's time to harvest. The smell is great and the flowers are very resinous despite being small! Happy growing! 🌱🌱🌱

Que pasa familia, vamos con la segunda semana de floración de estas Gorilla Cookies Fast Flowering, de FastBuds. Agradezco a Agrobeta todos los kits obtenidos de ellos 🙏. Hasta aquí veis que llevan buen progreso y el color que se marcan es espectacular. Vamos al lío, el ph se controla en 6.2 , la temperatura la tenemos entre 22/24 grados y la humedad ronda el 50%. El fotoperiodo a 12-12. Estás próximas semanas veremos cómo avanzan. Agrobeta: https://www.agrobeta.com/agrobetatiendaonline/36-abonos-canamo Hasta aquí todo, Buenos humos 💨💨💨

Everything good! See my comments above

Day 9: installed this Pro Co2 bucket in my grow tent 2 days ago. Really looking forward to see what this addition brings and if Co2 can really improve a run. Only time will tell Day 12: Everything is going good.. Added Foxfarm Acid Lovers dry fertilizer, scratched it into the top inch of soil about a tbsp and a half and watered good. I checked ph the other day and somehow soil ph was all the way up to 7.0 hopefully this FFAL will drop that a little. Also got some trifold poster boards and stapled sheets of mylar to them to reflect more light. 12/2 Ending week 2 gotta say everything is going as good as I could hope this lady is in full affect first time ever growing this strain and I can tell its a good one. Great genetics can't wait to see end result

📆 Semana 5: La planta sigue con su ritmo firme y constante. Los cogollos siguen engordando, ahora con más densidad y compactación. La resina se vuelve aún más abundante, cubriendo prácticamente toda la parte superior y algunas hojas vecinas. El aroma se intensifica y se vuelve más complejo, con notas dulces y un toque terroso que empieza a destacar. La planta mantiene un consumo estable y adecuado de agua y nutrientes, sin mostrar estrés ni señales negativas. La estructura aguanta bien el peso, gracias a una ramificación sólida y entrenudos aún cortos para lo que suele ser una auto XL. La floración sigue en pleno apogeo, y se ve que la calidad apunta alto. Todo sigue marchando como debe, y la cosecha promete ser muy buena. ¡Seguimos creciendo fuerte 💪!

Día 66 (05/08) Cerrado por vacaciones Día 67 (06/08) Mi amigo viene a casa a hacer un riego con 1 Litro de H2O pH 6,5 Día 68 (07/08) Cerrado por vacaciones Día 69 (08/08) Vuelta de vacaciones! A ver como están después de 5 días sin verlas... 😱 Riego con 1 litro de H2O pH 6,5 Añado 3 cm de sustrato nuevo porque se ha compactado y se ven las raíces! 😢 Día 70 (09/08) Riego 500 ml H2O pH 6,55 Eliminación de algunas ramas bajas Día 71 (10/08) Riego 500 ml H2O pH 6,55 Sesión de fotos semanal! Día 72 (11/08) Riego con 1 Litro de Té Vegetativo de Lurpe Solutions. Preparación: 24 horas con bomba de aire (oxigenación) con ingredientes: Green Sunrise 8 ml/L + Insect Frass 16 ml/L + Hummus Lombriz 8 ml/L + Melaza 1 ml/L + Kelp Hidrolizado 0,25 g/L Aplicación foliar Kelp hidrolizado de Lurpe Solutions a 0,25 ml/l 💦Nutrients by Lurpe Solutions - www.lurpenaturalsolutions.com 🌱Substrate PRO-MIX HP BACILLUS + MYCORRHIZAE - www.pthorticulture.com/en/products/pro-mix-hp-biostimulant-plus-mycorrhizae

Day 129 since seed touched soil. Again troubles .... Came to check them and found tent dark. Normally theirs day was in the night, now one day we again had no electricity and everything moved 8 hours, so day is day now .... Humidity spikes as hell. I dont want to make wounds, so no defoliation ... just too big of a risk to damage or bring infection in .... Ground level 99% rh, canopy level - 85, lights level - 80 .... never grew in such hight, i did in 65-70 without problems, but this goes overboard ... Drinking slowed down, will reduce volume by 20% next watering. One more feed left. Keeping sticky pads as prevention and it helped to catch 50 or so bugs and maybe prevent infestation. Gnats mostly .... 10 days till chop !!! Hope no bud rot !!! Happy Growing !!!

Hey everyone 😃. Week after week, both phenotypes become more beautiful and beautiful 😍. Pheno 1 is clearly my favorite color klar. Let's start the week: Flowering day 49 Both plants were checked for health and the trichomes were checked with a microscope. (70% milky, 20% amber and 10% clear. Flowering day 50 Today both were poured with 1.2 l each, of course now without any sewing material so that she would use the rest until the harvest 👍. Flowering day 51 Today both were checked, the humidifier refilled and fresh osmosis water filled into the tank. Flowering day 52 Both were checked for their health and in the end time for mold, everything looks great 😍👍. Flowering day 53 Again 1.2 l per plant were poured and the trichomes checked, it will run out for about 10 days before it comes to harvest. Flowering day 54 The humidifier was refilled and the tent cleaned. Flowering day 55 Again both were carefully checked, osmosis water was filled in the tank, and everything was cleaned. That was the week before last 👍. Next week comes the last update before the harvest update 😎👍. Until then, I wish you all the best, stay healthy and let it grow 🍀👌 You can buy this Strain at : https://sweetseeds.es/de/red-mandarine-f1-fast-version/ Type: Red Mandarine F1 Fast Version ☝️🏼 Genetics: Red Poison Auto®️ (SWS39) X Tangie (California Orange x Hybrid Skunk) 👍 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 House Powder Feeding ☝️🏼🌱 Water: Osmosis water mixed with normal water (24 hours stale that the chlorine evaporates) to 0.2 EC. Add Cal / Mag to 0.4 Ec Ph with Organic Ph - to 5.5 - 5.8 .

. 🌱 : test harvest on day 86, 40,3g, day 88 44,5g, day 90 54g, day 92, 60,6g 💧 : 💡 : 🤔 :

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.