Lampe bei ca. 75% DLI~40 Der Abstand der Buds gefällt mir mega👍🏽 Würde jetzt schon die Sorte weiter empfehlen. Die Sorte selber geht aber spät in die Blüte könnte aber auch an topfgröße etc. Liegen. Vom Stretch merkt man was aufjedenfall. Sonst machen sich leichte cal mag Probleme sichtbar konnte aber bis jetzt gut gegen steuern. In dieser Woche aber kein Training mehr jetzt soll sie sich voll und ganz auf die Blüten. Ende der Woche nochmal Bio Blom gegeben

So far so good happy with the results, had to give them a nice hair cut. Had some issues with heat inside my tent but I managed to solve it. Feeding them every 24 hours, they are ready for flowering . So exited let's see how things go 😁

Zwei entwickeln sich prächtig und machen das LST super mit die dritte wächst so langsam vor sich her

Seeds are still not ready yet. Probably need about another 2 weeks

Last week of veg, slowly settling into the new schedule of automated feeding and the warming weather. I am in desperate need of an accurate and efficient temp controller, the ones I have are a simple on/off thermostat and the changes in speed are too dramatic.

After 14 days of germination and seedling phase I finally put 3 of the plants in my Homebox with the SANLight Evo 4-80. DLI 16 - measured with Photone iOS App.

Flo +48 ca grossit tellement 😍😍 c'est le début des pop corn sur les têtes l'odeur est démente

not sure where the dry weight thing went but i dont fill in wet weight. who even weighs there whole plant? dry yield is 269gram of pure bud. Grown in a 22liter pot with biobizz lightmix soil and greenhousefeeding bio line this smells so hard that my neigbor called the cops. she even smelled it in her apartment so its game over for me because off this plant. never came across such a weed smelling strain in the 8 years that im growing. hope to be back in 6 months or so.

Transplant from a 2 gallon into a 25 liter Hercules pots . No rush .I marked with three yellow crosses for the plant that was transplanted second

Day 98 They doing fine. The slow girl is getting interesting. Her frostiness is changing suddenly and getting thicker in this two days.

She has returned with two 2 tops Lets hope she turns purple! She is so strong 💪 and stable im impressed with Kannabia Genetics ! I LOVE YOU KANNABIA GENETICS! 😍😘 Check out my Cannabis Community, please👇like👇, follow, comment, and subscribe to my YouTube channel👇. ❄️🌱🍻 https://www.youtube.com/@DutchF4rmer Join our cannabis community community for weekly giveaways 👌 (Discord Server) https://discord.gg/VMu6rH4a7V It will be appreciated! ❤️ Happy Growing 🌱🌱🌱

Okay so pk boost and as with everything else in this grow, it’s a week behind what it really should be, so I may have hit the tropicanna poison with a PK Boost too late, where as, for the orange hill special and frosted guava it’s probably a little early but hey ho - you gotta compromise with the Autopot system if you are growing multiple strains that are really quite different in terms of gene pool. Edit: okay so it’s 4 days later and it ALMOST looks like a different plant! Its colours are coming out now. As you can see, some of the side branches pistols are turning orange and there is even some colour turning up at the edges of the swollen calyxes. I don’t think I will get too much light penetration to be honest, due to the fact that it’s too crouded in there - it’s so easy to forget how big they get when you first veg them! (Particularly as it’s my first grow in months and first photo grow in years!) Next time I will just make sure I germ the seeds at the same time - although, it wasn’t really my fault, per sé. This is definitely the most advanced plant for sure…then the NYC diesel. Edit: so I noticed that my tall tower fan broke AGAIN and so I decided to buy a clip on I think it’s an 8” one that rotates - it’ll probably stop rotating after a while but the reviews say 18 months in after having bought the product, it still works fine, just doesn’t swivel. Tbh, it’s cheap enough to if it breaks then I can just replace it - it should def last longer than a tower fan that’s been flooded with 10-15l of water! Twice! So I can’t say I’m hugely shocked… For now, iv taken the fan that is a clip on that I was using for the extraction of my drying tent - it’s surprisingly powerful for such a small USB powered fan tbf!

Once again she passes my expectations, late to the show with trichome production. I'm surprised there is purple on the bud, maybe Purpinator does work. I thought I could see hints under the grow lights and thought my eyes were deceiving me, I was just being hopeful. But nah 2 of the 3(under the UV) have developed a beautiful tone of purple. I was never going to bother with a deep freeze but maybe the whole bud will change given conditions, that would be something, fingers crossed. 🤔 was a little skeptical that reducing temps humidity would change density, but it does, buds are solid something I've not been able to achieve before. Rule of thumb is never to surpass 60% RH in the flowering phase and try to progressively reduce it down to 40% in the last 2–3 weeks before harvest. The plant will react as it seeks to protect its flowers, responding by producing denser buds and a higher concentration of resin. Cannabis plants are sensitive to sudden temperature changes, especially in the flowering stage. Extreme heat or cold can impact bud density and overall yields. In nature as a defense mechanism from cold, the plant sensing sudden dips in temperature will attempt to remove the pockets of air within the bud, it achieves this by compacting itself in doing so to better protect itself from cold snaps which are normally indicators in nature that worse weather is on the way. Terpene levels are the highest just before the sun comes out. Ideally, you want as many terpenes present in your plants as possible when you harvest. Cannabis plants soak up the sun during the day and produce resin and other goodies at night. The plant is at its emptiest from "harvest undesirables" so to speak right before the lights on. Boiling cannabis roots during harvesting slows down the drying process. When you boil cannabis roots, it shocks the plant, closing the stomata on the leaves. This prevents massive moisture loss through the leaves, leaving only the floral clusters actively losing moisture at a reduced pace. I've always run a strict 60/60 and it took almost twice as long to dry to a snap than previous grows where I didn't boil for what it's worth. Chlorophyll is good for the plant but not for you. When you harvest the buds, even after you flush them, if you flush them, they’re still filled with chlorophyll. Freshly cut buds are greener than dried buds because they still contain loads of chlorophyll. However, when rushed through the drying process, the buds dry but retain some chlorophyll, and when you smoke it, you will taste it. Chlorophyll-filled buds are smokable, but they aren’t clean. Slow drying gives the buds enough time and favorable conditions to lose the chlorophyll and sugars, giving you a smoother smoke. How the plant disposes of the chlorophyll and sugars by a process of chemically breaking them down and attaching the decomposed matter once small enough to water molecules which then evaporate back into the ether. Time must be given to the process to break down the chlorophyll and sugars. Think of it like optimizing the environment for decay. All the nutrients it could ever need are in abundance, it eats nutrients based on its demand for growth, which is dictated primarily by available light. Plant growth and geographic distribution (where the plant can grow) are greatly affected by the environment. If any environmental factor is less than ideal, it limits a plant's growth and/or distribution. For example, only plants adapted to limited amounts of water can live in deserts. Either directly or indirectly, most plant problems are caused by environmental stress. In some cases, poor environmental conditions (e.g., too little water) damage a plant directly. In other cases, environmental stress weakens a plant and makes it more susceptible to disease or insect attack. Environmental factors that affect plant growth include light, temperature, water, humidity, and nutrition. It's important to understand how these factors affect plant growth and development. With a basic understanding of these factors, you may be able to manipulate plants to meet your needs, whether for increased leaf, flower, or fruit production. By recognizing the roles of these factors, you'll also be better able to diagnose plant problems caused by environmental stress. Water and humidity *Most growing plants contain about 90 percent water. Water plays many roles in plants. It is:* A primary component in photosynthesis and respiration Responsible for turgor pressure in cells (Like the air in an inflated balloon, water is responsible for the fullness and firmness of plant tissue. Turgor is needed to maintain cell shape and ensure cell growth.) A solvent for minerals and carbohydrates moving through the plant Responsible for cooling leaves as it evaporates from leaf tissue during transpiration A regulator of stomatal opening and closing, thus controlling transpiration and, to some degree, photosynthesis The source of pressure to move roots through the soil The medium in which most biochemical reactions take place Relative humidity is the ratio of water vapor in the air to the amount of water the air could hold at the current temperature and pressure. Warm air can hold more water vapor than cold air. Relative humidity (RH) is expressed by the following equation: RH = water in air ÷ water air could hold (at constant temperature and pressure) The relative humidity is given as a percent. For example, if a pound of air at 75°F could hold 4 grams of water vapor, and there are only 3 grams of water in the air, then the relative humidity (RH) is: 3 ÷ 4 = 0.75 = 75% Water vapor moves from an area of high relative humidity to one of low relative humidity. The greater the difference in humidity, the faster water moves. This factor is important because the rate of water movement directly affects a plant's transpiration rate. The relative humidity in the air spaces between leaf cells approaches 100 percent. When a stoma opens, water vapor inside the leaf rushes out into the surrounding air (Figure 2), and a bubble of high humidity forms around the stoma. By saturating this small area of air, the bubble reduces the difference in relative humidity between the air spaces within the leaf and the air adjacent to the leaf. As a result, transpiration slows down. If the wind blows the humidity bubble away, however, transpiration increases. Thus, transpiration usually is at its peak on hot, dry, windy days. On the other hand, transpiration generally is quite slow when temperatures are cool, humidity is high, and there is no wind. Hot, dry conditions generally occur during the summer, which partially explains why plants wilt quickly in the summer. If a constant supply of water is not available to be absorbed by the roots and moved to the leaves, turgor pressure is lost and leaves go limp. Plant Nutrition Plant nutrition often is confused with fertilization. Plant nutrition refers to a plant's need for and use of basic chemical elements. Fertilization is the term used when these materials are added to the environment around a plant. A lot must happen before a chemical element in a fertilizer can be used by a plant. Plants need 17 elements for normal growth. Three of them--carbon, hydrogen, and oxygen--are found in air and water. The rest are found in the soil. Six soil elements are called macronutrients because they are used in relatively large amounts by plants. They are nitrogen, potassium, magnesium, calcium, phosphorus, and sulfur. Eight other soil elements are used in much smaller amounts and are called micronutrients or trace elements. They are iron, zinc, molybdenum, manganese, boron, copper, cobalt, and chlorine. They make up less than 1% of total but are none the less vital. Most of the nutrients a plant needs are dissolved in water and then absorbed by its roots. In fact, 98 percent are absorbed from the soil-water solution, and only about 2 percent are actually extracted from soil particles. Fertilizers Fertilizers are materials containing plant nutrients that are added to the environment around a plant. Generally, they are added to the water or soil, but some can be sprayed on leaves. This method is called foliar fertilization. It should be done carefully with a dilute solution because a high fertilizer concentration can injure leaf cells. The nutrient, however, does need to pass through the thin layer of wax (cutin) on the leaf surface. It is to be noted applying a immobile nutrient via foliar application it will remain immobile within the leaf it was absorbed through. Fertilizers are not plant food! Plants produce their own food from water, carbon dioxide, and solar energy through photosynthesis. This food (sugars and carbohydrates) is combined with plant nutrients to produce proteins, enzymes, vitamins, and other elements essential to growth. Nutrient absorption Anything that reduces or stops sugar production in leaves can lower nutrient absorption. Thus, if a plant is under stress because of low light or extreme temperatures, nutrient deficiency may develop. A plant's developmental stage or rate of growth also may affect the amount of nutrients absorbed. Many plants have a rest (dormant) period during part of the year. During this time, few nutrients are absorbed. Plants also may absorb different nutrients as flower buds begin to develop than they do during periods of rapid vegetative growth. 432 Hz is said to be mathematically consistent with the patterns of the universe. Studies reveal that 432 Hz tuning vibrates with the universe’s golden mean PHI and unifies the properties of light, time, space, matter, gravity and magnetism with biology, the DNA code and consciousness. When our atoms and DNA start to resonate in harmony with the spiraling pattern of nature, our sense of connection to nature is said to be magnified. Another interesting factor to consider is that the A=432 Hz tuning correlates with the color spectrum while the A=440 Hz is off. Audiophiles have also stated that A = 432 Hz music seems to be non-local and can fill an entire room, whereas A=440 Hz can be perceived as directional or linear in sound propagation. Once you adopt the idea that sound (or vibration in general) can have an equalizing and harmonizing effect (as well as a disturbing effect), the science of harmony can be applied to bring greater harmony into ones life or a tune to specific energies. There is a form of absolute and of relative harmony. Absolute harmony can for example be determined by the tuning of an instrument. The ancients tuned their instruments at an A of 432 Hz instead of 440 Hz - and for a good reason. There are plenty of music examples on the internet that you can listen to in order to establish the difference for yourself. Attuning the instrument to 432 Hz results in a more relaxing sound, while 440 Hz slightly tenses up to body. This is because 440 Hz is out of tune with both macro and micro cosmos. On the contrary, 432 Hz is in tune. To give an example of how this is manifested micro cosmically: our breath (0,3 Hz) and our pulse (1,2 Hz) relate to the frequency of the lower octave of an A of 432 Hz (108 Hz) as 1:360 and 1:90. It is interesting to note that 432 Hz was the standard pitch of many old instruments, and that it was only recently (19th and 20th century) the standard pitch was increased. This was done in order to be able to play for bigger audiences. Bigger audiences (more bodies) absorb more of the lower frequencies, so the higher pitch was more likely to “cut through”. One of the oldest instruments of the world is the bell ensemble of Yi Zeng (dated 423 BC), tuned to a standard F4 of 345 Hz which gives an A= 432 Hz. The frequency of 345 Hz is that of the platonic year! Similarly many old organs are tuned in an A=432 as well; for example: St. Peter’s Capella Gregoriana, St. Peter’s Capella Giulia, S. Maria Maggiore in Rome. Maria Renold’s book “Intervals Scales Tones and the Concert Pitch C=128 Hz” claims conclusive evidence that 440 Hz and raising concert pitch above scientific “C” Prime=128 Hz (Concert A=432 Hz) disassociates the connection of consciousness to the body and creates anti-social conditions in humanity. The difference between concert pitch A=440 Hz and Concert A=432 Hz is only 8 cycles per second, but it is a perceptible difference of awareness in the human consciousness experience of the dream we share called existence.

D123 04.05.2025 It‘s „Harvest Day“ stunning contest never expected such a huge plant with so many buds plagron and the zamnesia breed really did there job. Let’s hope the best for the contest more detailed bud images after the dry trim in about 2 weeks D136 Today was dry trim day looks and smells amazing harvested a stunning 69g out of one plant with 100W only in a 2x2 two tent with 2 other plants aside, great job @zamnesia and @plagron

Start week

So, I started another Northern Lights auto grow, because it is very beneficial for my wife with Autism, where some strains make her a little anxious, Northern lights has a relaxing and calming effect on her. She has been put in soil on the end of day 3. The soil mix used is 5L of Plagron Promix (non-fertil.), 5L of Coco and 1L of perlite in a 11L Gronest pot. I kept 1L of the soil aside, and mixed the rest up with 7 tblsp of organic living soil fertilizer by Ecostyle. I made a potsized hole in the soil, and added the 1L unfertilised soil into the hole to accommodate the seedling through here first weeks of life. Day 4 & 5: No sign of her wanting to pop out just yet.

Week 4 has passed✔️ They double in size every week😳 We are now in the preflowering stage they seems to be happy with the LST & Topping✂️ Next week i will cut the nitrogen & start with the bloom nutrient🔥 Take care 💚

Bulking up quickly and nicely