my dry and cure style is this: 4 days of hanging upside down to get water activity lower to around 0.6 in 50% humidity and 26 C temp (i know its a little high but we are in a hot summer right now and i cant get it lower even with air conditioner) and then after 4 days of drying i remove leaves and stalks, trim buds and move them to jar for the rest of their life :D . and in the first 4 days of curing i open the jar door and let hem get some fresh air in the jar for about 5 minutes and close the jar door again, after 4 days of curing like that buds are smokable but they will get better as they getting cured about 1 month. buds are one of the hardest as fucking rocks type of buds! very dense , compact , sticky , smelly , amazing at every aspect growing stage was 56 days and flowering stage was 75 days total (harvested tops at day 64th) the total weight of dry buds was : (plant #1 & #3 top buds 56 G + lower buds 22 G ) 78 G + (plant #2 top buds 47 G + lower buds 18 G ) 55 G + (plant #4 top buds 120 G + lower buds 67 G ) 187 G = 367 G

Итог : 6 автоцветов Палатка 1.2 х 1.2 м Свет 600 Ват 775г общий урожай 1.3грамм на ват Шишки мокрые - уже очень плотные, прям очень, как камень. Думаю сухой вес порадует))

120x240 1200watt Very strong and hardy plants, the potential of which remains a mystery to me. The automatic watering system will help me find out their maximum. Stress and training are tolerated very well, the genetics are very stable and interesting.

Was Easy Going No Issue Smaller side but didnt do much just let her go little over water @ Times from all the Rain was having... but she handled it

My three Bubble OG plants are looking fantastic, especially that tallest one! It's reaching for the sky and makes me think the others might have a little sibling rivalry going on. I can't wait to see how huge it gets.

Purple urkle is a beast! She’s producing trichromes all over shining for the world to see! Got sweet and deep gassy aromas coming off her too. like a candy shop already! A few weeks to go and we’re done! Stay tuned! It’s always exciting from here!

Coloquei as duas plantas no fundo da sala , a luz parece está sendo suficiente, estao com um bom desenvolvimento e as cores das folhas sugerem que está tudo bem.

DAY 49: seeing harvests from other grows of these strains, I wonder why am still going strong on the bud building ?. They are more than happy to carry on further at this point it seems with only a small covering of browning pistils on the FFT#1 showing out. She isn't the fattest buddies yet but hopefully this week will finish her off nicely. FFT#5 is very nice looking now and has so.e.beautiful sized colas across her wide span. She is very hemmed in by the others around her but has easily managed to push some serious buds to the canopy top to create so e rock solid, sweet smelling buds. She is feeding g a hell of a pot on the water now with approx 10L per 2 days. Hungry girl. FFT#7 Is still the biggest sister here and now with very nice packed out colas at every point I look. I will be very surprised if she isn't the highest yield of the whole run. It is a great strain to work with and watch grow. The smell off her as with the others is a fruity hit and rushes out of the tent when i open up. I think another week at least to find her sweet spot for harvest.

Red Hot Cookies has responded beautifully to the flip to flower, tge leaves are praying and the growth has exploded

This plant seems to have grown much denser and better than my first plant. I just got the ac infinity ventilation setup with controller 69 for my 2x2, still trying to learn, hopefully grow #3 goes even better. Stay tuned

This is the whole flowering cyclus posted in one week.

Busy week so just the pic from day 14 Will be Ulloa Dino vídeo soon

Had mold at the very end so ended chopping then down early. Delicious smell. Smells like vomit or piss and gets stronger as they continue to cure.

This weeks focus is balancing ph of my homemade Texas Tea nutrient and creating the perfect “Tropical” environment for my babies to thrive in. Incorporated Advanced nutrients up/down to assist with ph also helped lower the PPM. They are loving the vegetation box I built!

Week 4

today Day 22 and Hilde still goes well 🙏 Speedrun video 21 Days 😉 Day23 was cloudy an alot of rain 😩 Day24 was cloudy and alot of rain 😳 Day25 there was sun and not too hot 🙏

0.23v tuned to 7.83Hz Plants exposed to the Schumann resonance often show greater resistance to stress factors such as drought, diseases, and pests. It is possible that these natural electromagnetic waves strengthen plants' immune systems and increase their ability to resist disease. Pretty neat, in the afternoon when the tent hovers around 84F the plants are 🙏, can visually see in time around 10 minutes after I opened the tent the temp had dropped to 76 pressure was lost, she is still chilling but she doesn't quite have that perk anymore. *Salinity3.5% - 100ml H2O=100g The concentration of salt in a solution 3.5%= 3.5g in 100ml. Growing well. Not going to top or do any training, I'll let the plant do its own thing, she is constructing foundations now for what she senses ahead. Smart girl. ✨️ Let her, do her thing, let me do mine. The voltage that is needed for electrolysis to occur is called the decomposition potential. The word "lysis" means to separate or break, so in terms, electrolysis would mean "breakdown via electricity. Green hydrogen is hydrogen produced by the electrolysis of water, using renewable electricity. The production of green hydrogen causes significantly lower greenhouse gas emissions than the production of grey hydrogen, which is derived from fossil fuels without carbon capture. Electrolysis of pure water requires excess energy in the form of overpotential to overcome various activation barriers. Without the excess energy, electrolysis occurs slowly or not at all. This is in part due to the limited self-ionization of water. Pure water has an electrical conductivity of about one hundred thousandths that of seawater. Efficiency is increased through the addition of an electrolyte (such as a salt, acid or base). Photoelectrolysis of water, also known as photoelectrochemical water splitting, occurs in a photoelectrochemical cell when light is used as the energy source for the electrolysis of water, producing dihydrogen . Photoelectrolysis is sometimes known colloquially as the hydrogen holy grail for its potential to yield a viable alternative to petroleum as a source of energy. The PEC cell primarily consists of three components: the photoelectrode the electrolyte and a counter electrode. The semiconductor crucial to this process, absorbs sunlight, initiating electron excitation and subsequent water molecule splitting into hydrogen and oxygen. Water electrolysis requires a minimum potential difference of 1.23 volts, although at that voltage external heat is also required. Typically 1.5 volts is required. Biochar, a by-product of biomass pyrolysis, is typically characterized by high carbon content, aromaticity, porosity, cation exchange capacity, stability, and reactivity. The coupling of biochar oxidation reaction (BOR) with water electrolysis constitutes biochar-assisted water electrolysis (BAWE) for hydrogen production, which has been demonstrated to reduce the electricity consumption of conventional water electrolysis from 1.23v to 0.21v. Biochar particles added to the electrolyte form a two-phase solution, in which the biochar oxidation reaction (BOR) has a lower potential (0.21 V vs. RHE) than OER (1.23 V vs. RHE), reducing the energy consumption for hydrogen production via biochar-assisted water electrolysis (BAWE). BAWE produces H2 under 1 V while eliminating O2 formation: key word "eliminating". Air with a normal oxygen concentration of around 21% is not considered explosive on its own; however, if a flammable gas or vapor is present, increasing the oxygen percentage above 23.5% can significantly increase the risk of ignition and explosion due to the enriched oxygen environment. The addition of ion mediators (Fe3+/Fe2+) significantly increases BOR kinetics. Air: Nitrogen -- N2 -- 78.084% Carbon Dioxide -- CO2 -- 0.04% Hydrogen in homosphere H -- 0.00005% Hydrogen "GAS" H2 in homosphere - 0% "Nitrogen, oxygen, and argon are the three main components of Earth's atmosphere. Water concentration varies but averages around 0.25% of the atmosphere by mass. Carbon dioxide and all of the other elements and compounds are trace gases. Trace gases include the greenhouse gases carbon dioxide, methane, nitrous oxide, and ozone. Except for argon, other noble gases are trace elements (these include neon, helium, krypton, and xenon). Industrial pollutants include chlorine and its compounds, fluorine and its compounds, elemental mercury vapor, sulfur dioxide, and hydrogen sulfide. Other components of Earth's atmosphere include spores, pollen, volcanic ash, and salt from sea spray." Although the CRC table does not list water vapor (H2O), air can contain as much as 5% water vapor, more commonly ranging from 1-3%. The 1-5% range places water vapor as the third most common gas (which alters the other percentages accordingly). Water content varies according to air temperature. Dry air is denser than humid air. However, sometimes humid air contains actual water droplets, which can make it more dense than humid air that only contains water vapor. The homosphere(where you live) is the portion of the atmosphere with a fairly uniform composition due to atmospheric turbulence. In contrast, the heterosphere is the part of the atmosphere where chemical composition varies mainly according to altitude. The lower portion of the heterosphere contains oxygen and nitrogen, but these heavier elements do not occur higher up. The upper heterosphere consists almost entirely of hydrogen, cool. 78%nitrogen as N2, a far too stable bond to be used by organisms. 20%oxygen 0.04%co2 0.00005% hydrogen When lightning strikes, it tears apart the bond in airborne nitrogen molecules. Those free nitrogen atoms N2 nitrites then have the chance to combine with oxygen molecules to form a compound called nitrates N3. Once formed, the nitrates are carried down to the ground becoming usable by organisms. Will it react with the oxygen in the air spontaneously, the answer is no. The mixture is chemically stable indefinitely. A mixture with air near the release point can be ignited, but if this does not happen then when its concentration gets below 4% it will be unable to carry a flame. Taking a small detour into chemistry here, a key concept to understanding the health impact of nitrogen-based compounds is knowing the difference between nitrates and nitrites. What Are Nitrates and Nitrites? A nitrite (NO2) is a nitrogen atom bonded to only two nitrogen atoms. Very strong bond A nitrate (NO3) is a nitrogen atom bonded to three oxygen atoms. Weaker bond The optimal pH for nitrate (NO3-) depends on the process and the type of bacteria involved. Nitrification The optimal pH for nitrification is between 7.5 and 8.6 Nitrification is the process of oxidizing ammonia to nitrate and nitrite Nitrosomonas has an optimal pH between 7.0 and 8.0 Nitrobacter has an optimal pH between 7.5 and 8.0 Nitrification ceases at pH

Legend Timestamp: 📅 EC - pH: ⚗️ Temp - Hum: 🌡️ Water: 🌊 Food: 🍗 pH Correction: 💧 Actions: 💼 Thoughts: 🧠 Events: 🚀 Media: 🎬 D: DAY, G: GERMINATION, V: VEGETATIVE, B: BLOOMING, R: RIPENING, D: DRYING, C: CURING ________________________________ 📅 D49/V42 - 03/01/24 ⚗️ EC: 1.1 pH: 7.0 🌡️ T: 23 °C H: 58% 🌊 🍗 💧 💼 Made LST and some HST 🧠 🚀 ________________________________ 📅 D50/V43 - 04/01/24 ⚗️ EC: 1.1 pH: 6.8 🌡️ T: 23 °C H: 58% 🌊 🍗 💧 💼 Continuing LST 🧠 🚀 🎬 Added 2 pics ________________________________ 📅 D51/V44 - 05/01/24 ⚗️ EC: 1.1 pH: 6.8 🌡️ T: 23 °C H: 58% 🌊 🍗 💧 💼 Some LST and defolation 🧠 🚀 🎬 ________________________________ 📅 D52/V45 - 06/01/24 ⚗️ EC: 1.1 pH: 6.8 🌡️ T: 23 °C H: 58% 🌊 Added 10L 🍗 Added CalMag 💧 💼 🧠 I need to wait for the clones 🚀 🎬 ________________________________ 📅 D53/V46 - 07/01/24 ⚗️ EC: 1.1 pH: 6.8 🌡️ T: 23 °C H: 58% 🌊 Added 5L 🍗 Added Grow A-B 💧 💼 🧠 🚀 🎬 Added Time lapse video ________________________________ 📅 D54/V47 - 08/01/24 ⚗️ EC: 1 pH: 6.8 🌡️ T: 23 °C H: 58% 🌊 🍗 💧 💼 Defolation 🧠 🚀 🎬 Added Time lapse video ________________________________ 📅 D55/V48 - 09/01/24 ⚗️ EC: 1.1 pH: 7.2 🌡️ T: 23 °C H: 58% 🌊 🍗 💧 💼 🧠 pH is too high 🚀 🎬

Hi