Week 3

Week 2

Flower week 4 Only Water !!! 💧💧💧

Day 45 and day 20 of flower- I removed a lot of leaves and thing about to remove some more

My new 600 white ballast came in, so I'm back to 2 600 watt lights, happy about that. I did a little Platt training on my clones to get them to bush out so they won't grow so tall next time. Cleaned up all the small popcorn shoots underneath. That wasn't getting any light.

Flower Week 3

New Diary new genetics Hope it goes well doing a mix of genetics, hope they finish around the same time 2 Lemon Cherry Cookies Auto 1 Royal AK Auto First day in water, will move next directly into 9L pots

Tag 24 !

🌈💐🍬🌈💐🍬🌈💐🍬🌈💐🍬🌈 Hi and welcome to another grow again from Kannabia this time it's a Feminized photoperiod, Candy Cream Go fast, my plan is to veg and manifold under 24hr light until my sweet "little"Runtz Auto is done. 🌈💐🍬🌈💐🍬🌈💐🍬🌈💐🍬🌈 💭❗💭❗💭❗💭❗💭❗💭❗💭 ❗Events"&thoughts worth noting❗ 💭❗💭❗💭❗💭❗💭❗💭❗💭 29.11.24(GW1) Prepared the substrate by washing out the old nutrients and planted the seed. 03.12.24(GW1) The little one germinated 🎉🎉🎉 04.12.24(VW1) Decided to switch to Veg out of practical reasons so I can update both diaries in one go. 10.12.24(VW1) increased TriPartMicro to 20ml and GreenBuzzBloom to 20ml. 18.12.24(VW3) Started the manifold process topped trimmed and defoliated filled the pot up to the nodes I kept for extra support and to keep things dry(📸) 22.12.24(VW3) Topped her one more time (📸) 01.01.25(VW5) broke a branch the other day, she seems unfazed. 04.01.25(VW5) increase TriPartMicro to 40ml and observe how she reacts after her next feed. 06.01.25(VW5)Did the last topping for 12 tops since one branch is "missing" 15.01.25(VW6) Had to dry her out 10-15.01.25 because of fungus gnats so she didn't grow as much as I would like but it's back to normal now and as soon as she gets some height I can place sticky traps to control the mofos. 17.01.25(VW7) Pruned the bottom nodes so I can put sticky traps and water and feed without getting future bud sites wet and moldy(took pics), increased TriPartMicro to 60ml from 40ml. 23.01.25(VW8) Seems to have lost more than a week of growth unfortunately, a whole week with out water was a bit too much apparently just to control those mofos (fungus gnats) I’m hoping this is the last week of 24 hour light schedule. 26.01.25(VW8) Increase GreenBuzzBloom to 30ml and TriPartMicro to 70ml WIP 💭❗💭 ❗💭❗💭❗💭❗💭❗💭 🐝🌼🐝🌼🐝🌼🐝🌼🐝🌼🐝🌼 🌼Day to day tasks & actions🌼 🐝🌼🐝🌼🐝🌼🐝🌼🐝🌼🐝🌼 22.01.25(VW7) fed with (*1) 5l 23.01.25(VW8) no water no feed. 24.01.25(VW8) fed with (*1) 5l 25.01.25(VW8) fed with (*1) 5l 🌼🐝🌼🐝🌼🐝🌼🐝🌼🐝🌼🐝🌼 🍶💦🍶💦🍶💦🍶💦🍶 💦Nutrients in 30l(*1) 💦 🍶💦🍶💦🍶💦🍶💦🍶💦🍶💦🍶 💦TriPartMicro:15ml*20ml*40ml*60ml*70ml 🍶TriPartBloom: 0ml 💦 Fermented🌿juice:0ml 🍶GreenBuzzBloom: 15ml*20ml*30ml 💦Cal-Mag: 60ml 🍶buxXtrade citric acid Ph- 💦🍶💦🍶💦🍶💦🍶💦🍶💦🍶💦 ⚙️✂️⚙️✂️⚙️✂️⚙️✂️⚙️ ✂️Tools & equipment ✂️ ⚙️✂️⚙️✂️⚙️✂️⚙️✂️⚙️✂️⚙️✂️⚙️ ✂️➡️2xMarsHydroSP3000 ⚙️➡️MarsHydro150mmVentilatorACF ✂️➡️Trotec (big) dehumidifier ⚙️➡️Small no name dehumidifier ✂️➡️Kebab stainless skewers 3 (LST) ⚙️➡️wire+roast beefskewers(LST) ✂️➡️trimming scissors.(HST) ⚙️➡️Waterproof vacuum cleaner for ✂️spills. ⚙️✂️⚙️✂️⚙️✂️⚙️✂️⚙️✂️⚙️✂️⚙️ 🍭🍦🍬🌈🍭🍦🍬🌈🍭🍦🍬🌈🍭 CandyCreamGoFastKANNABIA 🍬🌈🍭🍦🍬🌈🍭🍦🍬🌈🍭🍦🍬 Species:70%Indica+- 30%Sativa+- Indica Cream x Auto Indica Cream Flowering period: Short Yield:High Scent:Low Seed:Feminized Effect:Relaxing THC:20 % Features:For beginners, Good for extractions, Moisture resistant,Pest resistant Flavor:Sweet Complete cycle:46-49 days Indoor Average height:180cm Yield:550 gr/m2 Outdoor Average height:180cm Yield:600 gr/plant 🌈🍭🍦🍬🌈🍭🍦🍬🌈🍭🍦🍬🌈

Last week was a short one, decided to chop them on day 80. Both plants weigh at 800g wet, hoping to get a bit over 100g dry. They could probably go for another week to get fatter, but I was feeling ready looking at the trichomes. Hope the dry slow, I can't get RH above 50% so hoping that won't be so bad.

Placing a dehumidifier or humidifier in the grow box turned out to be ineffective when both devices have their own automated settings. For instance, a humidifier set to 55% humidity works within a ±5% range, meaning it waits until the humidity drops below 50% to turn on and runs until it hits 60%. Since its sensor refreshes every 30 seconds, it might show 54% one moment and jump to 61% the next—not exactly stable at 55%. The dehumidifier behaves similarly. To achieve more consistent results, it’s better to rely on a hygrometer inside the grow box and use “dumb” devices that simply turn on when powered. Connecting these devices to smart outlets provides more precise control. For manual control, I maintained around 55% humidity by turning the humidifier and exhaust fan on and off via phone. Most moisture and aroma are released during the first three days, then taper off. The common rule of “when thin branches snap, it’s dry” led me to overdry my buds. A more reliable method is to monitor the hygrometer. When humidity stabilizes after the initial rise, wait one more day and then jar the buds. Rehydrating Overdried Buds: Overdried buds can be revived with a small piece of mandarin (or orange) peel, about 2.5x2.5 cm. Thoroughly wash the peel (even sanitize it if needed), cut a square, and place it on top of the buds in the jar. In my experience, this brought the humidity from 46% to 62% within 4 hours. Afterward, burp the jars for 15 minutes and monitor the hygrometer. If the humidity drops below 55%, return the peel for a few more hours. Once stable at 60-62%, remove the peel and continue curing, burping the jars twice daily for 15 minutes. As for humidity packs like Integra Boost or Boveda, I used them because I had some lying around. These packs are designed for 12 grams of product, so they don’t make a big difference in larger jars. If you burp jars daily and gently rotate the buds, they’re not really necessary. Trimming and Results: After 7 days of drying, I decided to trim dry this time. It turned out to be somewhat more convenient—everything gets covered in resin anyway, but the remaining leaves easily fall off, speeding up the process. I went for a tight trim, removing as much as possible. During the process, I felt disappointed seeing how little remained on the branches. The buds turned out airy and small, and I started cursing American genetics halfway through the trim. However, when it came to weighing, the results were surprisingly decent. Considering the buds' poor appearance, they’re not going to impress anyone visually, so it might have been easier to shred everything and use it for extraction. I don’t have extraction equipment, so I’ll make cannabutter from the trim, and the buds can rest in jars for now. Takeaways: Use a proper hygrometer for humidity control, not built-in sensors on humidifiers or dehumidifiers. Overdried buds can be easily rehydrated with citrus peel. Daily burping and rotation are sufficient for curing without humidity packs. Dry trimming can be faster and more convenient but may highlight issues with bud density. Despite underwhelming appearance, high resin content makes the strain great for extraction.

Sie sind gut in der Blüte angekommen. Dünger wird verarbeitet und es sind keine Mängel erkennbar. Ich bin sehr zufrieden, die drei Oreoz haben schon gut was ausgehalten. Ich bin gespannt wo die Reise hingehen wird. Sie sind in der 2. Blüte Woche und hatten 8 Wochen in der Vegetativen.

Ok so we're on day 44 of flower and she smells amazing packed full of frost. one pheno will be done a week early of the 55 day harvest time. The other pheno is way behind and will be 7-14 days past the 55 day harvest time. One pheno has far spaced out nodes with foxtailed buds. The others nodes are much closer together forming bigger colas..

Our little Do Si Dos has started to flower, the main lining has given it a very nice bonsai look, there are a good number of buds that are coming up. The plant is an exemplary with a very short internodal distance, the mini brunches were growing and becoming lignified quickly. It probably won't produce a lot of grass but it will be very beautiful to look at, full of resin and flower quality for sure. I deal with the image of cannabis and the eye also wants its part, what can I say. We are still using soil, feeding and all the recommended additives from Plagron 100% organic. We have moved on to the flowering start schedule that keeps the same Power Roots additives - Sugar Royal, Pure Zym and adds the flowering stimulant dear in my house for obvious reasons of Biscotti. Of course the basic fertilizer is now Alga Bloom. The Green Sensation when the flowers are already a bit swollen, do not start immediately. The Power Buds must immediately stimulate the start and development of the buds. ---- 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

Harvest Time! Meine absolute Lieblingszeit beim Growen! Nachdem die Lady ca. 1 Woche ohne Wasser war, wurde sie unten am Stamm abgeschnitten. Daraufhin hab ich mir erst mal die Pflanze angeschaut, ob sich irgendwo Schimmel gebildet hat. Gott sei Dank blieb sie davon befreit. Die Pflanze an sich wog etwa 320 g. Die kleineren Triebe wurden abgeschnitten, und die Buds daraufhin nass getrimmt. Die Blüten weisen einen Mix von Grau/Lila/Grün auf. Sehr schönes Erscheinungsbild! Die Buds bringen (inkl. Stängel) etwa 192 g auf die Waage. Der nasse Trim etwa 45 g (Tara von etwa 5g wurde hier abgezogen). Bin natürlich gespannt wie viel trocken auf die Waage kommt und vor allem wie sie am Ende schmeckt :D Die nächsten Wochen kommt dann ein smoke Review inkl. Trockengewicht! Vielen Dank fürs mitverfolgen und bis zum nächsten Mal! Gruß Wulle

Ph 6 water for 24, will be moving to paper towel so far so good Planted 22/01/25 #3 #4

0.23v tuned to 7.83Hz 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. ✨️ I'm just the hvac guy. 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." "salt from sea spray" like in the air, in the air? cool. 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. Just run me a hose up to the heterosphere or top of my tent as I call it, and I'm good. 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 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 plants. 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. There’s a big difference between Hydrogen gas and naturally-released Hydrogen atoms. Because “science” conducted experiments within labs it is the commonly held notion Hydrogen is H² within the atmosphere. Nothing could be further from the truth. Hydrogen gas itself turns liquid when compressed H², and when pressure conditions change the hydrogen converts back to a gas H at the speed of light, this abrupt almost instantaneous expansion is what gives hydrogen gas its bad rap. Cool, H2O, I'll just separate the 2H from O, and put 2H back in fresh H2O using O2. "How do you fertilize your plants? Oh I conjure lightning bolts for my nitrogen" lol, cool.

0.23v tuned to 7.83Hz 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. ✨️ I'm just the hvac guy. 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." "salt from sea spray" like in the air, in the air? cool. 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. Just run me a hose up to the heterosphere or top of my tent as I call it, and I'm good. 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 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 plants. 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. There’s a big difference between Hydrogen gas and naturally-released Hydrogen atoms. Because “science” conducted experiments within labs it is the commonly held notion Hydrogen is H² within the atmosphere. Nothing could be further from the truth. Hydrogen gas itself turns liquid when compressed H², and when pressure conditions change the hydrogen converts back to a gas H at the speed of light, this abrupt almost instantaneous expansion is what gives hydrogen gas its bad rap. Cool, H2O, I'll just separate the 2H from O, and put 2H back in fresh H2O using O2. "How do you fertilize your plants? Oh I conjure lightning bolts for my nitrogen" lol, cool.

The first week of vegetation is here, and it’s been a bit of a mixed start for my two plants.🌱 One of them is looking a little droopy, while the other has developed slightly yellow leaves. I’m not entirely sure what’s causing these issues, but I’ve decided to give both plants their first dose of nutrients to help prevent further damage and hopefully get them back on track. I’ve been checking on them daily and keeping a close eye on their progress. I’m staying hopeful that they’ll bounce back and show improvement by next week.🌱

The first week of vegetation is here, and it’s been a bit of a mixed start for my two plants.🌱 One of them is looking a little droopy, while the other has developed slightly yellow leaves. I’m not entirely sure what’s causing these issues, but I’ve decided to give both plants their first dose of nutrients to help prevent further damage and hopefully get them back on track. I’ve been checking on them daily and keeping a close eye on their progress. I’m staying hopeful that they’ll bounce back and show improvement by next week.🌱