These girls are staying happy yes they are!! Put them into 1 gallon on Saturday now they have slowed back to there water/ feedings every 3 days. Will let them get used to there new home and will top them before to long to make them bush out! Still just steady marching here. Much love

Anche questa runtz layer cake si sta riprendendo bene

Day 24. Girl is recovering nice, think to start training her next week. Great light no doubts! Mars TS1000 and daily rotation around axe, plus changing positions every 2 days - helps a lot with even development. Girl is on pure 6.3 ph water, think next time ill go with 1 liter, till then 600 ml every 3 days ... Happy growing !!!

Just water:))))

12/8/21 - Wow! They are popping! The humidity is still high but we’ll get it under control. 12/9/21 - They look really good! Stretch is under control now. They are flowering hard right now. We ordered a dehumidifier as we don’t want any mold. 12/10/21 - Looking good. They are bulking up by the day. Still feeding as they get dry. We gave them a feeding today. See pics from today and yesterday. 12/11/21 - The ladies are showing off. Frost is starting to form! See today’s video. Dehumidifier will be here in a couple days. 12/12/21 - Looking good! We are very excited for the buds to be showing off so early. This week will be the last with Beastie Bloomz. Then we run Cha Ching until harvest. 12/13/21 - A little humid but looking great. Dehumidifier will be here tomorrow HOPEFULLY. We really need to dial back to 45%. See todays pics! 12/14/21 - The dehumidifier is supposed to be here today. We will set it to 45% and hopefully that calms down the humidity. Other than that the plants are looking amazing! We are heading to week 5 of flower tomorrow :)

04/22/2021 Day 3 into week 3 I am feeding some 5-1-1 fish emulsion at 2 tbls to a gallon. It will be her last bit of nitrogen she will get. Praying for big buds.

Ok

5 week veg was too long IMO for the size of pots...8 week flowering but she changes rather quickly...nothing really and then boom a see of orange...wonderful tricoms...broke 2 plants down and hung for 6 days the other 2 got hung whole for 10...all is jarred up and curing and cant wait to taste her full potential...took a sample bud but speed drying does no justice to taste and strenght any how the ash was light gray to almost white so 2 weeks of just water seemed to do the trick but we will see...

Fin'ora tutto bene a un mese di fioritura ho cambiato l'acqua, c'è un problema l'acqua è a 25/26° ogni tanto ci metto delle bottiglie congelate e aumento il perossido d'idrogeno

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.

Hi all🧑‍🌾 Welcome to my final 🍌💜👊 week update. First of all. I would like to thank you all for such an amazing support on this bananas journey. I am amazed of the amount of love received from community here. Thank you Grow Diaries and Fastbuds for opportuniy to share and grow this amazing genetics. Love you all❤️💜💚 Was looking for strong indica dominant strain and after reading and hearing so much about this one. Just couldn't resist to not give a go. Was a bit worried before planting seeds that my final yield outcome may not be satisactionary as only have 0.26msq and Fastbuds advertising this strain as 450-550g msq but thankfuly my result was way above this scale. My 2 beautiful ladies Athena - right corner lady. She was slighlthly more dominant over entire grow cycle. She got more space on scrog earlier and that's why she developed the most. Xena - left corner lady, I belive that she could outgrew her sister if she just have more space and another week of time. Did not expect her to turn so well on the end. Both girls were put in darkness for 48h before chop. Wet trimmed and hang for a week. Daily jars burbing for 10 days and every 2-4 days now. Weights Wet trimmed Athena 870g Xena 632g Total 1502g Dry trimmed Athena 172g Xena 147g Total dry 319g Bubble hash 6g (37g of trims) I am very happy with this result. In my opinion Banana Purple Punch Auto its a masterpiece. Thank you so much for all the support, likes, follows and comments 🙏❤️💜❤️ Peace and love brother and sisters ✌️💚🧑‍🌾 Smoke review coming in shortly Links https://2fast4buds.com/seeds/banana-purple-punch-auto https://plagron.com https://www.biobizz.com/ https://fishheadfarms.com/

So far so good

Su 5ta semana completada ! (mas un día porque debí subirlo ayer) El crecimiento sigue progresando y esta semana aumente la dosis en un ml (la siguiente semana creo subiré a 4ml/L) ya que empecé a observar un poco de decolora miento de algunas hojas aunque también sobre fertilizar es algo que debo de tomar en cuenta. Seguiré haciendo LST quizá un par de sesiones más porque estoy seguro que no falta mucho para entrar a floración y espero establecer una buena estructura antes de ese momento para que empiece q crecer hacia arriba, espero salga bien; es mi primer LST 😃 Sigan este diario semana a semana 😃

Start of the second week of flower. Things are looking great these are from bag seeds so sexing has been well drama in the grow room to say the least. Much bigger then expected that was good and bad ive had one boy so far and one is questionable its in the pics also my punch breath still hasnt shown anything but its a beast and looks promising very female like growth patterns super stinky too she always was since her first set of real leaves she was a skunk

It is still hot here, even though it is a tad cooler. The leaves still show some unhappiness. The buds have grown beautifully fat and do now boast some impressive size. The buds are getting too heavy and I had to add some support. It smells very fresh and citrusy, like grapefruit. I love the smell. I´ll start checking the trichomes now...

Day 10: The plants and the leafs grew a bit in size, they are still focusing on rooting. Added some veg nutrients today to the feeding schedule, because I saw some green spots, not to confuse with full green leafs, which is normal with new leafs and young plants or in later stage a (n)itrogen deficiency. No this indicates that they need just a little bit nutrients. Normaly this would not be the case with normal soil(it has nutrients in it for the first weeks), but again it can happen with cocos as a soil. The leafs on the pictures are like that because the lights are off + the humidifier makes the leafs wet which results in it getting heavy😝. Will update again this week, Enjoy for now 🙌

I think she needs 2 more weeks, she drinks slower and starts to fade on her own theres still nitrogen in the feeding

The plant feels good, justifies its name it is really frosty🏔️

Amazing shift in growth from 2 of the sweet seeds short purpling#1 & taller #3 #2 is yellowing and open growing altogether. Cut out any water and moved away from lights . I think is had light shock and over watered even though the got me 1 liter of in only 1 week watered 1ce with food . Other 2 very impressive boost of growth this week I've included an extra light 450 wat 3w leds (cost €390 from EU company I paid €60 for it only used on 1 previous grow bargin😎)