Day 84 from seed Each auto is in different flowering weeks So post is sorta confusing as my first diary Sorry! Everything seems to be doing good. Just been feeding water since last update. I will have new lights soon 4800 evo from mars hydro 2024 version planning to harvest the GDP before switching the lights out. Day 87 swapped the light to the mars hydro 4800 evo 2024 model running 40-50 percent 12-20 inch from cannopies adjusting them slowly to new light and much higher pffd than before

Day 84 from seed Each auto is in different flowering weeks So post is sorta confusing as my first diary Sorry! Everything seems to be doing good. Just been feeding water since last update. I will have new lights soon 4800 evo from mars hydro 2024 version planning to harvest the GDP before switching the lights out. Day 87 swapped the light to the mars hydro 4800 evo 2024 model running 40-50 percent 12-20 inch from cannopies adjusting them slowly to new light and much higher pffd than before

Light on Spider farmer SF4000 was turned up to 70 percent plant is doing better. Light is still 36 inches above plants in a 2x4 tent. I turned the light to 70% from 50% 3 days later I think I see some nanners starting. Possible light stress? I am going to let it all play out really interested in seeing what happens. I am all about the learning.

К началу 3 недели снизил влажность до 60%. По листу добавил Б52 на 1 литр 1 миллилитр. Опрыскиваю по мере высыхания листьев. полив ежедневный под корень.

Start of week 9 Runtz Muffin got the cut this morning. Put the whole plant to hang dry, i just removed some of the bigger leaves, since plant grew really compact. Drying now for the first 3 days at 56% and 17C, after that 60% and 16C, for at least 8 days. Overall i was really pleased with this strain, Barneys did a great job and you can see their genetics are strong. I will give a weight, taste and smoke update/review once they dry up and got the trim. 10/10 recommended strain!

We have passed the month and we are madly in love with all our autoflowering plants, we have two per strain, one worked with a mainlining adapted according to the characteristics of the plant and one that grows straight, we can't easily give up the main cola. For now we will show you those worked with the techniques that are more interesting to see and later planted earlier to make them finish more or less together with those that will grow straight and fast. Our Do SI Dos worked with the Main Lining is taking on a bonsai appearance that we don't mind at all. This is due to the fact that it is a plant with a low internodal distance, it tends to lignify very quickly because this distance is short and therefore you have to be very delicate. We have succeeded and the plant really looks good, it is small but in flower it will be really beautiful to see. So topping at the third internode, main lining, no pruning until the third internode and topping them so we have multiplied the buds adequately. The application of the techniques is a delicate moment also for fertilization. The topping slows down the growth of the plant a bit and does not make it require all that Grow fertilizer that is normally recommended. So you have to go really slow and understand when to reduce the nitrogen. Better to prepare the soil with fertilizers to mix with the soil probably. The problem is sweeping now that it is going into flowering, the plant has shown the first fluff, declared the sex, and the fertilizer will be of short use indeed. You have to swell. In any case, everything is under control and I will demonstrate it to you during the flowering phase. Wait for the Uncle BreadandBuds and see what he does. Remember the cold temperature makes the girls absorb food much more slowly than in summer so be careful to give the right amount and to dry the plant in maximum 2 days or you risk imbalances. We are still using soil, feeding and all the recommended additives from Plagron 100& organic we have only lowered the amount of grow in this topping phase for the reasons above. ---- Decide on the right soil and calculate your fertilizer schedule based on the soil on the official website. -- www.plagron.com Try a seed of this strain that drives us crazy.. ---- https://www.zamnesia.io/en/10664-zamnesia-seeds-do-si-dos-f1-automatic.html Zamnesia Description // From the team at Zamnesia Seeds comes Do-Si-Dos F1 Automatic. Using consistent and reliable F1 genetics, this strain is not only incredibly easy to grow, but also offers potent and delicious buds. The plants remain small and offer a reliable growing experience that everyone will enjoy. All the best that mother nature can offer is on ---- www.zamnesia.com

Trouble in Paradise! Both experiencing all kinds of trouble. BUT theyre growing and swelling! I put the blame solely on me, i overwatered in the early weeks and really havent had much time to take care of them in time. Also started flowering nutes way too late. Im happy with both of their forms though! small and bushy, thats how i like them. Sad that the deficiencies had to happen, but oh well, theyre gonna pull through i hope! i downed water to 2L from 2.5L just because it takes really low for them to dry out in between and i wanna get fresh batches of nutes in more often. 2L is also enough to get a tiny bit of runoff so no dry spots or anything. Will see how they like it! due to deficiencies, i skipped giving them 2ml/L of bloom and went straight to 3, also added a good dose of calmag. Didnt defoliate besides really effed-up leaves. See you next week!

Heute beginnt die Reise !!! Ich wünsche jedem 🏆 Teilnehmer viel Glück!!! Danke nochmal an Zamnesia and Plagron!!🏆🤞🏼🏆🤞🏼🏆 🌱 Die Papiertuch-Keimmethode 🌱 1️⃣ Material: Feuchtes Papiertuch Samen 🌰 Zip-Beutel 🛍️ 2️⃣ Anleitung: Samen zwischen feuchtes Papier legen (nicht zu nass!) 💧 In einen Zip-Beutel geben, luftdicht verschließen 🛍️. An einem warmen, dunklen Ort lagern 🌡️🌑. 3️⃣ Warten: Nach 2–7 Tagen: Erste Wurzel sichtbar! 🤩 💡 Tipp: Kontrolliere täglich die Feuchtigkeit, damit nichts austrocknet! #Keimung #GrowTip #GreenLife 🌿

Commence à bien sentir

Day 84 from seed Each auto is in different flowering weeks So post is sorta confusing as my first diary Sorry! Everything seems to be doing good. Just been feeding water since last update. I will have new lights soon 4800 evo from mars hydro 2024 version planning to harvest the GDP before switching the lights out. Day 87 swapped the light to the mars hydro 4800 evo 2024 model running 40-50 percent 12-20 inch from cannopies adjusting them slowly to new light and much higher pffd than before

RAW GROW is a tested blend of all 12 RAW Soluble plant nutrients, essential elements and supplements. This blend has been proven to be an optimal all-in-one base “Grow” horticultural fertilizer. RAW GROW is used through out the entire vegetative stage. Derived from: Plant protein hydrolysate, mono potassium phosphate, potassium sulfate, cane molasses, sodium borate, copper sulfate, iron DTPA, magnesium sulfate, manganese sulfate, zinc sulfate and azomite. Also contains non-plant food ingredients: Humic acids derived from leonardite and peat, kelp (ascophyllum nodosum), silicon dioxide derived from diatomite and yucca extract. When you overlap a copper wire to attract ions, it is called ion exchange. Copper wire is often used as a material for ion exchange because it has a high affinity for positively charged ions, such as copper, zinc, and nickel. When copper wire is overlapped or wound into a coil, it creates a surface area that attracts ions and allows them to bind to the wire or gather within the space. This process is used in various applications, such as electroplating, water treatment, chemical separation processes and cultivation. Electrolysis is a chemical process that involves passing an electric current through a liquid or solution containing ions. This process causes the ions to migrate towards the electrodes, where they undergo a chemical reaction. In the context of plant growth, electrolysis is used to increase the availability of your nutrient-rich solution that can be used to feed plants. Electrolysis and nutrient rich reservoirs work well together since your cannabis nutrients are salt based. The process involves passing an electric current through a solution of water and plant nutrients, which causes the water molecules to break down into their constituent parts, hydrogen, and oxygen. The hydrogen ions (H+) then combine with the nutrients in the solution to form a nutrient-rich substance that can be absorbed by the plant roots easier. This will only work in a nutrient rich solution as it requires the salt-based nutrients to engage. This process, known as hydrolysis, provides the plant with a continuous supply of nutrients and oxygen, which can help to increase plant growth and improve yields. By providing the plant with a more efficient method of absorbing nutrients, electrolysis can help to increase the uptake of essential elements such as nitrogen, phosphorus, and potassium. Additionally, electrolysis can help to maintain the pH balance of the growing medium, which is essential for optimal plant growth. One of the key advantages of using electrolysis to increase plant growth is that it allows for greater control over the growing system. This is exactly why this is generally a technique reserved for advanced hydroponics growers. By adjusting the voltage and current levels, cultivators can custom control the nutrient concentration and pH level of the solution, ensuring that the plant receives the optimal amount of nutrients sitting perfectly on potential hydrogen spectrum. Carotenoids absorb light in the blue-green range of the visible spectrum, complementing chlorophyll's absorption in the red range. Carotenoids protect photosynthetic machinery from excess light. They deactivate singlet oxygen, which is a harmful oxidant formed during photosynthesis. Carotenoids quench triplet chlorophyll, which can be harmful to photosynthesis. Carotenoids scavenge reactive oxygen species (ROS), which can damage cell membranes and proteins. Carotenoid derivatives signal plant development and responses to environmental cues. Carotenoids provide precursors for the biosynthesis of phytohormones like abscisic acid (ABA) and strigolactones (SLs). Carotenoids are pigments that give fruits and vegetables their orange, red, and yellow colors. They also act as free radical scavengers to protect plants during photosynthesis. Beta-carotene is the most common provitamin A carotenoid. It's found in orange and yellow fruits and vegetables like carrots, sweet potatoes, and mangos. Other carotenoids include lycopene, lutein, and zeaxanthin. These carotenoids have antioxidant and photoprotective properties. In plants, Vitamin A is found as carotenoids, which are pigments that give plants their color. Vitamin A is a fat-soluble vitamin. Vitamin B plays a vital role in plant growth and development. It acts as a coenzyme in many metabolic reactions, which are the basis for plant growth and maintenance. Vitamin B helps plants metabolize nutrients, which are essential for growth and development. Vitamin B helps plants respond to biotic and abiotic stress. Vitamin B can help plants grow new roots, which can reduce transplant shock. Vitamin B can help plants grow shoots, especially slow-growing plants. Vitamin B1 Also known as thiamine diphosphate, vitamin B1 is a key component of metabolic pathways like glycolysis and the tricarboxylic acid cycle. Vitamin B3 Also known as nicotinamide or niacin, vitamin B3 is a biostimulant that can improve plant growth and yield. Vitamin B6 Vitamin B6 acts as an antioxidant and cofactor, and is involved in plant stress responses. Vitamin C, also known as ascorbic acid, is a vital nutrient for plants that helps with growth and protects them from excess light. Vitamin C acts as a redox buffer, which is important for regulating photosynthesis. Vitamin C helps enzymes that regulate photosynthesis, hormone production, and regenerating antioxidants. Vitamin C is a coenzyme in the xanthophyll cycle, which converts excess energy into heat. This process helps plants protect themselves from too much light. seedlings to young plants can feed on 200-400 PPM, Teenage plants that have a maturing root zone can feed on 350-550 PPM and adults will feed 600-1000 PPM. The more you feed plants and watch them grow you'll get a feel for how much to give them. Less is more when trying to grasp this. High level of CEC in organic soil so I'm watering 5-gallon

Finally done!

Amazing!. The big plant smells so good Drying day 6: they are still moist! A very good drying session is going on over here. The longer the better! Trimmed today after 10 days. Ended up with 80grams pure buds! Super nice chunky buds smells amazing and 8grams of sift from the leaves. I’ll filter the leaves again with my bubble bags

RAW GROW is a tested blend of all 12 RAW Soluble plant nutrients, essential elements and supplements. This blend has been proven to be an optimal all-in-one base “Grow” horticultural fertilizer. RAW GROW is used through out the entire vegetative stage. Derived from: Plant protein hydrolysate, mono potassium phosphate, potassium sulfate, cane molasses, sodium borate, copper sulfate, iron DTPA, magnesium sulfate, manganese sulfate, zinc sulfate and azomite. Also contains non-plant food ingredients: Humic acids derived from leonardite and peat, kelp (ascophyllum nodosum), silicon dioxide derived from diatomite and yucca extract. When you overlap a copper wire to attract ions, it is called ion exchange. Copper wire is often used as a material for ion exchange because it has a high affinity for positively charged ions, such as copper, zinc, and nickel. When copper wire is overlapped or wound into a coil, it creates a surface area that attracts ions and allows them to bind to the wire or gather within the space. This process is used in various applications, such as electroplating, water treatment, chemical separation processes and cultivation. Electrolysis is a chemical process that involves passing an electric current through a liquid or solution containing ions. This process causes the ions to migrate towards the electrodes, where they undergo a chemical reaction. In the context of plant growth, electrolysis is used to increase the availability of your nutrient-rich solution that can be used to feed plants. Electrolysis and nutrient rich reservoirs work well together since your cannabis nutrients are salt based. The process involves passing an electric current through a solution of water and plant nutrients, which causes the water molecules to break down into their constituent parts, hydrogen, and oxygen. The hydrogen ions (H+) then combine with the nutrients in the solution to form a nutrient-rich substance that can be absorbed by the plant roots easier. This will only work in a nutrient rich solution as it requires the salt-based nutrients to engage. This process, known as hydrolysis, provides the plant with a continuous supply of nutrients and oxygen, which can help to increase plant growth and improve yields. By providing the plant with a more efficient method of absorbing nutrients, electrolysis can help to increase the uptake of essential elements such as nitrogen, phosphorus, and potassium. Additionally, electrolysis can help to maintain the pH balance of the growing medium, which is essential for optimal plant growth. One of the key advantages of using electrolysis to increase plant growth is that it allows for greater control over the growing system. This is exactly why this is generally a technique reserved for advanced hydroponics growers. By adjusting the voltage and current levels, cultivators can custom control the nutrient concentration and pH level of the solution, ensuring that the plant receives the optimal amount of nutrients sitting perfectly on potential hydrogen spectrum. Carotenoids absorb light in the blue-green range of the visible spectrum, complementing chlorophyll's absorption in the red range. Carotenoids protect photosynthetic machinery from excess light. They deactivate singlet oxygen, which is a harmful oxidant formed during photosynthesis. Carotenoids quench triplet chlorophyll, which can be harmful to photosynthesis. Carotenoids scavenge reactive oxygen species (ROS), which can damage cell membranes and proteins. Carotenoid derivatives signal plant development and responses to environmental cues. Carotenoids provide precursors for the biosynthesis of phytohormones like abscisic acid (ABA) and strigolactones (SLs). Carotenoids are pigments that give fruits and vegetables their orange, red, and yellow colors. They also act as free radical scavengers to protect plants during photosynthesis. Beta-carotene is the most common provitamin A carotenoid. It's found in orange and yellow fruits and vegetables like carrots, sweet potatoes, and mangos. Other carotenoids include lycopene, lutein, and zeaxanthin. These carotenoids have antioxidant and photoprotective properties. In plants, Vitamin A is found as carotenoids, which are pigments that give plants their color. Vitamin A is a fat-soluble vitamin. Vitamin B plays a vital role in plant growth and development. It acts as a coenzyme in many metabolic reactions, which are the basis for plant growth and maintenance. Vitamin B helps plants metabolize nutrients, which are essential for growth and development. Vitamin B helps plants respond to biotic and abiotic stress. Vitamin B can help plants grow new roots, which can reduce transplant shock. Vitamin B can help plants grow shoots, especially slow-growing plants. Vitamin B1 Also known as thiamine diphosphate, vitamin B1 is a key component of metabolic pathways like glycolysis and the tricarboxylic acid cycle. Vitamin B3 Also known as nicotinamide or niacin, vitamin B3 is a biostimulant that can improve plant growth and yield. Vitamin B6 Vitamin B6 acts as an antioxidant and cofactor, and is involved in plant stress responses. Vitamin C, also known as ascorbic acid, is a vital nutrient for plants that helps with growth and protects them from excess light. Vitamin C acts as a redox buffer, which is important for regulating photosynthesis. Vitamin C helps enzymes that regulate photosynthesis, hormone production, and regenerating antioxidants. Vitamin C is a coenzyme in the xanthophyll cycle, which converts excess energy into heat. This process helps plants protect themselves from too much light. seedlings to young plants can feed on 200-400 PPM, Teenage plants that have a maturing root zone can feed on 350-550 PPM and adults will feed 600-1000 PPM. The more you feed plants and watch them grow you'll get a feel for how much to give them. Less is more when trying to grasp this. High level of CEC in organic soil so I'm watering 5-gallon

101/10 results really happy so far will update with nuggets pictures soon 🌱✨ New Timelapse Video Alert! 🌟 I’m excited to share my latest marijuana grow timelapse on YouTube, showcasing incredible genetics like Square One, Robin Hood, Exotic, and Elev8 in action. 🌿 Watch as these beauties flourish from seed to harvest in 1-litre pots, producing an astonishing 1kg of dry weight! 😱🔥 This grow is all about precision, passion, and next-level results—perfect for growers, enthusiasts, and anyone who loves seeing plants thrive! 🌿💪 👉 Click the link in bio to watch the full video and see the magic unfold! 🎥📲 Don’t forget to like, share, and comment your thoughts—it helps the channel grow! 🚀 🌟 A Huge Thank You to Greenplanet, Atami, and All My Amazing Sponsors! 🌟 I want to take a moment to express my deepest gratitude to each and every one of you for sponsoring my videos, including this one and the exciting projects to come. Your support means the world to me and plays such a vital role in making all of this possible. 🙏🎥 To Greenplanet and Atami, your contributions have truly provided me with the "base nutrients" 🌱 I need to grow, both creatively and professionally. And the "additives" 💡 you bring to the table continue to push my work to new heights! 🌐 Follow me on: 🐦 Grow diaries: 📹 YouTube: