Good

Day 43- 23/01/22 looking good hopefully they gonna come out better than my last run!!!!

Plant is doing good. Values are average of the day. DATE - EC(us/cm) 20250326 ~1000 20250327 ~1000 20250328 ~1000 20250329 ~1000 20250330 ~1000 20250331 ~1000 20250401 ~1000 DATE - PH 20250326 ~6 20250327 ~6 20250328 ~6 20250329 ~6 20250330 ~6 20250331 ~6 20250401 ~6 DATE - ORP (mV) 20250326 # 20250327 # 20250328 # 20250329 # 20250330 # 20250331 # 20250401 # DATE - °C - RH% (Tent Temp/RH) 20250326 22.7 61 20250327 23.2 52 20250328 24.9 46 20250329 25.0 45 20250330 24.0 48 20250331 23.7 53 20250401 24.1 47 DATE - °C (Reservoir) 20250326 # 20250327 # 20250328 # 20250329 # 20250330 # 20250331 # 20250401 # DATE - CF 20250326 # 20250327 # 20250328 # 20250329 # 20250330 # 20250331 # 20250401 #

Seedling managing 93F 30%RH, around 20 DLI. Vpd is in the 3's. No I don't recommend. Signum Magnum. "A great sign appeared in the sky a woman clothed with the sun with the moon under her feet and on her head a crown of twelve stars. Sing ye to the Lord a new canticle: because He has done wonderful things. Glory to the Father, and to the Son, and to the Holy Spirit As it was in the beginning, and now, and ever shall be, world without end." The plant nutrient nitrogen exists in forms with both positive and negative charges. Ammonium (NH4+)(immobile in soil)(Cation) has a positive charge, while nitrate (NO3-) (highly mobile in soil)(Anion)has a negative charge. Nitrogen is unique among plant nutrients in that it can exist in both positively charged (ammonium, NH₄⁺) and negatively charged (nitrate, NO₃⁻) forms in the soil. This makes it a special nutrient. In that it is responsible for providing balance for reactionary trade offs when it comes to ph. Because ph itself in the medium will always slowly drift towards acidicity, such is nature. 80% of nitrogen should be nitrate and no more than 20% ammoniacal nitrogen. Ca, mg, and K are the big 3 cations related to soil composition, pH & base saturation. When nitrogen is in the form of ammonium, it can compete with calcium, magnesium, and potassium for absorption sites in the plant root. This competition can lead to a reduction in the uptake of these other essential nutrients. Nitrogen, particularly in its nitrate form (NO3-), can increase soil acidity, which can also affect the availability of calcium, magnesium, and potassium. The form of nitrogen applied (ammonium vs. nitrate) can influence its interactions with other nutrients. Ammonium nitrogen can have a more pronounced negative effect on the uptake of calcium, magnesium, and potassium compared to nitrate nitrogen. Common forms of ammonium nitrogen include ammonium ion (NH4+), urea, and ammonium compounds like ammonium nitrate, ammonium sulfate, and ammonium phosphate. Common forms of nitrate nitrogen include potassium nitrate (KNO3), sodium nitrate (NaNO3), calcium nitrate (Ca(NO3)2), and ammonium nitrate (NH4NO3). Phosphorus is an essential plant nutrient, and its availability in the soil is strongly linked to the presence of oxygen. Plants primarily absorb phosphorus as phosphate (PO4), and oxygen is a key component of this molecule. Furthermore, the availability of phosphorus in the soil can be impacted by factors like soil aeration and temperature, which in turn affect the oxygen supply to the roots. Phosphorus uptake in plants is most critical during the early stages of growth, particularly within the first few weeks of plant development. Young plants actively growing tissues have a high demand for phosphorus. They may absorb up to 75% of their total phosphorus requirements within the first few weeks of vegetative growth, with up to 51% of uptake happening overnight, primarily in the first few hours or early nightfall. ⑨Anaerobic root respiration, or respiration without oxygen, is detrimental to plants because it's less efficient and produces toxic byproducts, leading to reduced energy production, nutrient uptake issues, and ultimately, root damage and plant stress. ⑨Anaerobic respiration, unlike aerobic respiration, doesn't utilize oxygen as the final electron acceptor in the electron transport chain. This results in a significant drop in the amount of energy (ATP) produced, which is necessary for various plant functions, including growth, nutrient uptake, and maintenance of cellular processes. ⑨In the absence of oxygen, plants produce byproducts like ethanol and lactic acid during anaerobic fermentation. These byproducts can be toxic to the roots and inhibit their function, ⑨When oxygen is depleted in a medium, the pH tends to decrease (become more acidic) due to the production of metabolic byproducts. This is particularly relevant in biological systems where aerobic respiration relies on oxygen as the final electron acceptor. ⑨When oxygen is scarce, plants may switch to anaerobic respiration. This process produces carbon dioxide (CO2) as a byproduct. ⑨CO2 dissolves in water to form carbonic acid (H2CO3). This acid lowers the pH of the medium, making it more acidic. ⑨Anaerobic conditions can impair a plant's ability to regulate its internal pH, leading to a drop in cytoplasmic pH and potentially cellular acidosis. ⑨The change in pH can also affect the availability of certain nutrients to the plant, as pH influences the solubility of micronutrients like iron, manganese, zinc, copper, and boron. ⑨The lack of oxygen in the plant medium leads to a decrease in pH due to the production of carbon dioxide during anaerobic respiration and impaired pH regulation within the plant. In plant cells, cellular acidosis, a drop in the internal pH of the cytosol, is a significant stress response, particularly during conditions like flooding or hypoxia. This acidification can be triggered by a decrease in oxygen levels, leading to the production of metabolic byproducts like lactic acid and CO2. The plant's ability to tolerate and recover from these conditions depends on its cellular mechanisms to regulate pH and mitigate the effects of acidosis. When plants are subjected to low oxygen environments, such as those experienced during flooding, anaerobic metabolism, which produces lactic acid and ethanol, becomes the primary source of energy. This can lead to a build-up of these acidic metabolites in the cytosol, causing a drop in pH. OXYGEN Atomic oxygen (single oxygen atom, O) is the lightest form of oxygen, as it has the lowest mass of the oxygen molecules. Oxygen also exists as a diatomic molecule (O2) and an allotrope called ozone (O3), which have higher masses due to the number of oxygen atoms combined. Atomic Oxygen (O): This refers to a single oxygen atom, which is the most fundamental form of oxygen. Molecular Oxygen (O2): This is the common form of oxygen we breathe, consisting of two oxygen atoms bonded together. Ozone (O3): This is an allotrope of oxygen, meaning it's a different form of the same element, consisting of three oxygen atoms bonded together. Since atomic oxygen has the fewest oxygen atoms, it naturally has the lowest mass compared to O2 or O3. Ozone (O3) Lifespan: Ozone has a relatively long lifespan in the stratosphere, particularly at lower altitudes. For example, at 32 km in the middle latitudes during spring, ozone has a lifetime of about 2 months. Oxygen (O) Lifespan: Atomic oxygen, on the other hand, has a much shorter lifespan. At the same altitude, its lifetime is about 4/100ths of a second. Ozone-Oxygen Cycle: The ozone-oxygen cycle involves the rapid exchange between atomic oxygen (O) and ozone (O3). UV radiation can split molecular oxygen (O2) into atomic oxygen (O), which then reacts with O2 to form ozone (O3). Ozone can also be photolyzed by UV radiation, creating atomic oxygen again, which can then react with O3 to reform O2. Dominant Form: The partitioning of odd oxygen (Ox) between ozone and atomic oxygen favors ozone in the lower stratosphere. This means that a much larger proportion of odd oxygen exists as ozone than as atomic oxygen, especially in the lower stratosphere. Recombination: Atomic oxygen has a high energy and reactivity. When it encounters another oxygen atom, they can combine to form O2. This process releases energy, contributing to the heating of the atmosphere. Ozone Formation: Atomic oxygen can also react with molecular oxygen (O2) to form ozone (O3). Ozone plays a significant role in absorbing harmful UV radiation. Other Reactions: Atomic oxygen can react with various other molecules in the atmosphere, like nitrogen (N2), water (H2O), and carbon dioxide (CO2), forming different compounds. UV light below 240nm (peak 185nm) creates ozone (O₃) through a process called photolysis, where UV light breaks down dioxygen molecules (O₂) into single atomic oxygen atoms (O). These single oxygen atoms then react with other oxygen molecules to form ozone (O₃). Specifically, UV-C light with wavelengths shorter than 240 nm can cause this photolysis. UV light with wavelengths between 240-280 nm, (peak 254 nm) breaks down ozone (O₃) into dioxygen molecules (O₂) and atomic oxygen atoms (O). 280nm does not have the energy potential to break apart the stable bond of (O₂) into enough (O) to make (O₃) At ground level, atomic oxygen (single oxygen atoms) has a very short lifespan. This is because it's highly reactive and quickly combines with other molecules to form stable diatomic oxygen (O2) or other compounds. While the exact timeframe varies depending on the specific circumstances, its lifespan is typically measured in nanoseconds or picoseconds.

Only water

Ok the problem was twofold. Soil was wet and my nutrient dose was too low. I was also a bit busy and my peat soil shop closed so I have yet to source it from somewhere I had some deficiencies in this week that are fixed now. Growth was stunted and some leaves yellowed a bit. The problem is I couldn't water them quickly because the soil stays moist for so damn long under this purple crap. Don't get one folks just build Citizen or whatever COBs if you want cheap good led. The pots are pretty thoroughly rooted so I started to feed 700 ppm dose when I could. All the pics are lazy and after spraying or watering cause these were some busy weeks I culled one plant with really thin stems, after practicing my abuse skills Anyway they are going under the CMH later

Hello Growmies, I'm thrilled to update you on the plant's progress! In the last week, she has beautifully filled out the scrog. Just yesterday, I flipped her into the flowering stage. This means I'll slowly increase her feeding, although I don't plan to go too heavy on the nutrients since she seems to prefer a lighter touch. She's quite particular about her nutrients, requiring me to change the reservoir every five days. If I delay, she shows signs of distress on her leaves, but these issues resolve immediately after I refresh the reservoir. While she's stretching in the preflower stage, I'll continue to guide her growth into the empty areas of the scrog screen. Also, here's a special offer: use the code ZAMMIGD2023 at Zamnesia's online store to get a 20% discount. Thanks for dropping by, and I'll share more updates next week!

Empieza a desarrollar una estructura muy vertical y apenas ramificada.

Here we are into the beginning of true flowering! Stacking has begun, flower development is coming along beautifully, both plants are loving the 900PPFD & 2.0EC feed without signs of stress. Co2 is being implemented this week & leaf tucking will continue. The Bride Cake has surprised me with its stretch during this last week or 2, Growing nearly an inch every other day. No real serious trichome development yet so only a faint smell when first opening the tent. Both plants are drinking quite a lot which I’m very happy to see.

Still in veg nutrients. Day 1-2 some swazzing Day 4 flower Ppm 1151 EC 2.2 Ph 5.7 Water temp 73.1 Room temp 71.2 Room humidity 60% Light temp 74.7 Light humidity 52% Day 7topped off water and nutrients

Heya👍🤙👍🌱 Almost Done. I like early Harvest. Check out my Facebook profile: https://www.facebook.com/share/v/H6PnoahTHrEzm63U/?mibextid=oFDknk Big BIG BIG thank you to Sebastien, Heather from Fastbuds420. You guys are the best. Can't wait for the next live. Even Bigger shout out to Hydroponic.co.za. My local Hydro Shop and Sponsor. Thank you Sir. 👍🤙👍🌱

The plant is starting to show more rezin and emphasizing more on the flowers, I still cant get over how sturdy this one is.

Last few days now just letting them mature a bit. Trics are there so nearly do e

Ernte Tag ... ich liebe es zu grown, das entlauben mag ich garnicht. Aber was Muss das Muss, erst Sonnensegel ab, dann rein in Dryferm Bags. Zum Teil hab ich sie schon von den Stielen getrennt, andere ganz gelassen und ein Teil so wie immer auf das Netz gelegt. Ich bin gespannt ob man ein Unterschied bemerkt. Nächstes Update nach den Feintrimm in ca 10 Tagen. :)

'Not all those who wander are lost' What started out as an experiment, turned out to be an adventure of epic proportions. What hangs here behind me smells like the weed I knew in the 80's, skunky and full. But look at those buds. DAAAAANG.... These are the biggest buds Ive ever grown, I didn't know what darkness precisely did before.... now I know... My god after a few days they oooze cristal liquid from all its holes. They are greasy and sticky, full of weight and I think well hit the 300 grams per plant with this one, taking our total to 600 grams what would be 2 grams per watt used. If that's so, Ill never use another light again! Thank you Mars Hydro for letting us try it. And by god so should anyone wanting to up their growing game. Well keep you posted with the dried results and smoke report! For now thanks for checking us out again and see you soon X Bud and Sunshine!

📋 Comments Zoap by MSNL is a really good strain, very rapid growth early on in its life and continues at a nice rate right up to harvest. From my experience I'd say this was one of the easiest plants i have ever grown. 📋 Data Seed to havest=112 days. Veg time=40 days. Flower time=72 days. Wet weight=990g Dry weight=79g 📋 Smoke report Trimming this was a delight. I let her hang for 15 days before trimming. Nice easy plant to trim. I didn't have any real larf either, the trim is coated with trichomes so I'll do a hash run with it. The buds are pretty damn solid with plenty of sticky trichomes all over them, just like we want. I was getting a citrus smell when trimming. After 2 weeks curing in the terplock groove bags I had a sample (miles better then jars). 1st sample was using my pax plus. 2nd sample was a joint. I'm getting an earthy cherry taste with a sweet aftertaste. This high is great, I'd guess at 25%Thc or more. 📋Grow stats for GDG 22 #1 Lemon cherry gelato=104g #2 Zoap=79g Total=183g Lights on. 20hrs×7days=140hrs 18hrs×33days=594hrs 12hrs×78days=936hrs Total hours=1670hrs Light power=211.09Kw Rad power=415.73Kw Extractor=43.5Kw 4 gang=56.62Kw Top fan=27.82 Total electricity=754.76KW Electricity cost @£0.25/Kw=£188.69 Average light power a day=1.78Kw Average watt per hour=106w g/watt=(183÷106)=1.72g/w £/g=£1.03/g 📋Final word. Considering how cold it's been i have managed to get a decent VPD throughout the grow, I'd go as far to say the extra money spent on electricity was definitely worth it. I didn't run into any major problems and the Plagron nutes were excellent, I'm thinking these are going to be my goto from now on. I combined the trim from both plants to make a hash run and managed 14g of hash. That takes my total to 197g for the grow. Very happy. Back soon. Take it easy. ********************************************

Earlier in the week, I saw a discolored bud, and upon closer inspection, I found bud rot. Ugh. I immediately cut off the infected bud and the one closest to it. I looked through the canopy but couldn't see any more affected buds. Right after, I went out of town for a few days to Mary Jane, the big Cannabis Conference in Berlin. It was the first one after legalization, and it was wild. I had an awesome time, and it was great to meet up with friends while in Berlin. What wasn't so great was seeing more signs of budrot when I returned home—those days of +85% humidity at the start of last week made the botrytis go brr. Sigh :( Checking the trichomes showed it was still early to harvest, but I decided to chop anyway to save the unaffected buds. I also decided to hang each branch separately, as it would allow me to inspect each one closely to ensure no affected buds made it into the drying tent. Another reason is to decrease the drying time. Usually, I prefer a long dry, but due to botrytis, I aim to speed up the process. Overall, I found 12-15 affected buds, and of course, they're always the nicest-looking buds. I don't care about the yield loss, as more than enough is still left. I only hope the remaining buds are unaffected, and I'll inspect them daily throughout the dry. Now we wait. And hope.

Dutch Passions Shaman Die zwei Schamaninnen entwickeln sich sehr schön. Sie sind auf 75 Zentimeter gewachsen. Ich habe mich gegen das Umtopfen entschieden. Zum Einen, weil ich die beiden mobil halten will und zum Anderen um sie nicht zu stressen. Ich werde die beiden gut beobachten und in den nächsten Tagen mit Kompost, frischem Mulch und Beinwell Jauche nach düngen.