Day 22 white pistils 👍🌱 only had root juice and bio grow gonna remove root juice and add molasses this week at one teaspoon per litre she shows that shes not hungry no nute burn yet small signs that she can do with abit less nitrogen I'm not gonna lower my nitrogen at the sametime I'm not gonna up it either she been getting 1l feeds every 48 hours gonna up it to 1.5l keep an eye out for next update 🌱🧞‍♂️🍾🕹️🎮 I've been training her LST since day 14 and folding looks like shes gonna have some good bud sites 🍾🧞‍♂️ I've put the light schedule to 20on 4off so he can get rested during flower keep the stress down to a minimum 🤓

Está semana el viernes 4 echamos te de compost aireado que lo tuvimos 24h cocinando y el sábado 5 defoliación agresiva de satélites y ramas que no le daban la luz

Well we are now beginning the flush can't wait for this one could of been better but I think I can now establish myself as a grower still a shit ton to learn but I'm confident I can get the best out of the plants with feeding right nutes at the right time ect I'm so obsessed with fast buds there strains are fire 🔥 iv had a few issues with the new lot on germantion so had to buy more ill have to wait for the ones I really wanted to do at least I had free orange sherbet for now till I can afford more seeds

Bonjour à tous les padawans et maîtres jedis Je me régale ! Franchement quel plaisir toute les conditions sont réunis pour faire une belle culture et le résultat est très intéressant Un stretch presque fini est une belle plante avec un beau 108 centimètres Un arrosage avec 2 litres d'eau ph6.3 à laquelle j'ajoute 5 millilitres de Hesi bloom et la dose recommandée de supervit

As you can see, our macro lens arrived, we were able to take several photos and see the trichomes, we had never seen them so close before. We also noticed that many pistils have turned brown in the last days of this week but the trichomes are clear yet. The smell is getting stronger, reminds us of fresh fruits, mango and a little citrus. We are excited, she is healthy and smells good, but a little concerned with the development of buds and if they are within the standards for this week. Despite having many trichomes and the pistils turning brown, we are not noticing a significant fattening of the flowers (correct us if we are wrong). hahaha, noob stuff =)

Partito con problemi di pH, adesso tutto ok growers ✌️🏿

D-77 : Everything is ok. They are beautyful and strong !

Looks good from my house lol any input would be greatly appreciated guys thanks in advance! I have a couple that I’m worried about will post more video soon sorry. Good luck buds!🌳☘️

Apricot is going fantastic, she should take right off this week with her feed . Herself and the mimosa cake look like the pick of the bunch so far .

Lacewings seemed to have mostly killed themselves by flying into hot light fixtures. I may have left the UV on which was smart of me :) Done very little to combat if anything but make a sea of carcasses, on the bright side its good nutrition for the soil. Made a concoction of ethanol 70%, equal parts water, and cayenne pepper with a couple of squirts of dish soap. Took around an hour of good scrubbing the entire canopy. Worked a lot more effectively and way cheaper. Scorched earth right now, but it seems to have wiped them out almost entirely very pleased. Attempted a "Fudge I Missed" for the topping. So just time to wait and see how it goes. Question? If I attached a plant to two separate pots but it was connected by rootzone, one has a pH of 7.5 ish the other has 4.5. Would the Intelligence of the plant able to dictate each pot separately to uptake the nutrients best suited to pH or would it still try to draw nitrogen from a pot with a pH where nitrogen struggles to uptake? Food for stoner thought experiments! Another was on my mind. What happens when a plant gets too much light? Well, it burns and curls up leaves. That's the heat radiation, let's remove excess heat, now what? I've always read it's just bad, or not good, but when I look for an explanation on a deeper level it's just bad and you shouldn't do it. So I did. How much can a cannabis plant absorb, 40 moles in a day, ok I'll give it 60 moles. 80 nothing bad ever happened. The answer, finally. Oh great........more questions........ Reactive oxygen species (ROS) are molecules capable of independent existence, containing at least one oxygen atom and one or more unpaired electrons. "Sunlight is the essential source of energy for most photosynthetic organisms, yet sunlight in excess of the organism’s photosynthetic capacity can generate reactive oxygen species (ROS) that lead to cellular damage. To avoid damage, plants respond to high light (HL) by activating photophysical pathways that safely convert excess energy to heat, which is known as nonphotochemical quenching (NPQ) (Rochaix, 2014). While NPQ allows for healthy growth, it also limits the overall photosynthetic efficiency under many conditions. If NPQ were optimized for biomass, yields would improve dramatically, potentially by up to 30% (Kromdijk et al., 2016; Zhu et al., 2010). However, critical information to guide optimization is still lacking, including the molecular origin of NPQ and the mechanism of regulation." What I found most interesting was research pointing out that pH is linked to this defense mechanism. The organism can better facilitate "quenching" when oversaturated with light in a low pH. Now I Know during photosynthesis plants naturally produce exudates (chemicals that are secreted through their roots). Do they have the ability to alter pH themselves using these excretions? Or is that done by the beneficial bacteria? If I can prevent reactive oxygen species from causing damage by "too much light". The extra water needed to keep this level of burn cooled though, I must learn to crawl before I can run. Reactive oxygen species (ROS) are key signaling molecules that enable cells to rapidly respond to different stimuli. In plants, ROS plays a crucial role in abiotic and biotic stress sensing, integration of different environmental signals, and activation of stress-response networks, thus contributing to the establishment of defense mechanisms and plant resilience. Recent advances in the study of ROS signaling in plants include the identification of ROS receptors and key regulatory hubs that connect ROS signaling with other important stress-response signal transduction pathways and hormones, as well as new roles for ROS in organelle-to-organelle and cell-to-cell signaling. Our understanding of how ROS are regulated in cells by balancing production, scavenging, and transport has also increased. In this Review, we discuss these promising developments and how they might be used to increase plant resilience to environmental stress. Temperature stress is one of the major abiotic stresses that adversely affect agricultural productivity worldwide. Temperatures beyond a plant's physiological optimum can trigger significant physiological and biochemical perturbations, reducing plant growth and tolerance to stress. Improving a plant's tolerance to these temperature fluctuations requires a deep understanding of its responses to environmental change. To adapt to temperature fluctuations, plants tailor their acclimatory signal transduction events, specifically, cellular redox state, that are governed by plant hormones, reactive oxygen species (ROS) regulatory systems, and other molecular components. The role of ROS in plants as important signaling molecules during stress acclimation has recently been established. Here, hormone-triggered ROS produced by NADPH oxidases, feedback regulation, and integrated signaling events during temperature stress activate stress-response pathways and induce acclimation or defense mechanisms. At the other extreme, excess ROS accumulation, following temperature-induced oxidative stress, can have negative consequences on plant growth and stress acclimation. The excessive ROS is regulated by the ROS scavenging system, which subsequently promotes plant tolerance. All these signaling events, including crosstalk between hormones and ROS, modify the plant's transcriptomic, metabolomic, and biochemical states and promote plant acclimation, tolerance, and survival. Here, we provide a comprehensive review of the ROS, hormones, and their joint role in shaping a plant's responses to high and low temperatures, and we conclude by outlining hormone/ROS-regulated plant-responsive strategies for developing stress-tolerant crops to combat temperature changes. Onward upward for now. Next! Adenosine triphosphate (ATP) is an energy-carrying molecule known as "the energy currency of life" or "the fuel of life," because it's the universal energy source for all living cells.1 Every living organism consists of cells that rely on ATP for their energy needs. ATP is made by converting the food we eat into energy. It's an essential building block for all life forms. Without ATP, cells wouldn't have the fuel or power to perform functions necessary to stay alive, and they would eventually die. All forms of life rely on ATP to do the things they must do to survive.2 ATP is made of a nitrogen base (adenine) and a sugar molecule (ribose), which create adenosine, plus three phosphate molecules. If adenosine only has one phosphate molecule, it’s called adenosine monophosphate (AMP). If it has two phosphates, it’s called adenosine diphosphate (ADP). Although adenosine is a fundamental part of ATP, when it comes to providing energy to a cell and fueling cellular processes, the phosphate molecules are what really matter. The most energy-loaded composition for adenosine is ATP, which has three phosphates.3 ATP was first discovered in the 1920s. In 1929, Karl Lohmann—a German chemist studying muscle contractions—isolated what we now call adenosine triphosphate in a laboratory. At the time, Lohmann called ATP by a different name. It wasn't until a decade later, in 1939, that Nobel Prize–-winner Fritz Lipmann established that ATP is the universal carrier of energy in all living cells and coined the term "energy-rich phosphate bonds."45 Lipmann focused on phosphate bonds as the key to ATP being the universal energy source for all living cells, because adenosine triphosphate releases energy when one of its three phosphate bonds breaks off to form ADP. ATP is a high-energy molecule with three phosphate bonds; ADP is low-energy with only two phosphate bonds. The Twos and Threes of ATP and ADP Adenosine triphosphate (ATP) becomes adenosine diphosphate (ADP) when one of its three phosphate molecules breaks free and releases energy (“tri” means “three,” while “di” means “two”). Conversely, ADP becomes ATP when a phosphate molecule is added. As part of an ongoing energy cycle, ADP is constantly recycled back into ATP.3 Much like a rechargeable battery with a fluctuating state of charge, ATP represents a fully charged battery, and ADP represents a "low-power mode." Every time a fully charged ATP molecule loses a phosphate bond, it becomes ADP; energy is released via the process of ATP becoming ADP. On the flip side, when a phosphate bond is added, ADP becomes ATP. When ADP becomes ATP, what was previously a low-charged energy adenosine molecule (ADP) becomes fully charged ATP. This energy-creation and energy-depletion cycle happens time and time again, much like your smartphone battery can be recharged countless times during its lifespan. The human body uses molecules held in the fats, proteins, and carbohydrates we eat or drink as sources of energy to make ATP. This happens through a process called hydrolysis . After food is digested, it's synthesized into glucose, which is a form of sugar. Glucose is the main source of fuel that our cells' mitochondria use to convert caloric energy from food into ATP, which is an energy form that can be used by cells. ATP is made via a process called cellular respiration that occurs in the mitochondria of a cell. Mitochondria are tiny subunits within a cell that specialize in extracting energy from the foods we eat and converting it into ATP. Mitochondria can convert glucose into ATP via two different types of cellular respiration: Aerobic (with oxygen) Anaerobic (without oxygen) Aerobic cellular respiration transforms glucose into ATP in a three-step process, as follows: Step 1: Glycolysis Step 2: The Krebs cycle (also called the citric acid cycle) Step 3: Electron transport chain During glycolysis, glucose (i.e., sugar) from food sources is broken down into pyruvate molecules. This is followed by the Krebs cycle, which is an aerobic process that uses oxygen to finish breaking down sugar and harnesses energy into electron carriers that fuel the synthesis of ATP. Lastly, the electron transport chain (ETC) pumps positively charged protons that drive ATP production throughout the mitochondria’s inner membrane.2 ATP can also be produced without oxygen (i.e., anaerobic), which is something plants, algae, and some bacteria do by converting the energy held in sunlight into energy that can be used by a cell via photosynthesis. Anaerobic exercise means that your body is working out "without oxygen." Anaerobic glycolysis occurs in human cells when there isn't enough oxygen available during an anaerobic workout. If no oxygen is present during cellular respiration, pyruvate can't enter the Krebs cycle and is oxidized into lactic acid. In the absence of oxygen, lactic acid fermentation makes ATP anaerobically. The burning sensation you feel in your muscles when you're huffing and puffing during anaerobic high-intensity interval training (HIIT) that maxes out your aerobic capacity or during a strenuous weight-lifting workout is lactic acid, which is used to make ATP via anaerobic glycolysis. During aerobic exercise, mitochondria have enough oxygen to make ATP aerobically. However, when you're out of breath and your cells don’t have enough oxygen to perform cellular respiration aerobically, the process can still happen anaerobically, but it creates a temporary burning sensation in your skeletal muscles. Why ATP Is So Important? ATP is essential for life and makes it possible for us to do the things we do. Without ATP, cells wouldn't be able to use the energy held in food to fuel cellular processes, and an organism couldn't stay alive. As a real-world example, when a car runs out of gas and is parked on the side of the road, the only thing that will make the car drivable again is putting some gasoline back in the tank. For all living cells, ATP is like the gas in a car's fuel tank. Without ATP, cells wouldn't have a source of usable energy, and the organism would die. Eating a well-balanced diet and staying hydrated should give your body all the resources it needs to produce plenty of ATP. Although some athletes may slightly improve their performance by taking supplements or ergonomic aids designed to increase ATP production, it's debatable that oral adenosine triphosphate supplementation actually increases energy. An average cell in the human body uses about 10 million ATP molecules per second and can recycle all of its ATP in less than a minute. Over 24 hours, the human body turns over its weight in ATP. You can last weeks without food. You can last days without water. You can last minutes without oxygen. You can last 16 seconds at most without ATP. Food amounts to one-third of ATP production within the human body.

Hey everyone 😀. Another veggie week goes by and they are developing surprisingly well 😃. Both phenotypes look very nice and have a perfect leaf green. Both were topped again. I wish you lots of fun with the update, and stay healthy 🙏🏻🍀 You can buy this Strain at : https://sweetseeds.es/de/sweet-skunk-f1-fast-version/ Type: Sweet Skunk F1 Fast Version ☝️🏼 Genetics: Sweet Skunk Auto (SWS34) X Early Skunk 👍 Vega lamp: 2 x Todogrow Led Quantum Board 100 W 💡 Bloom Lamp : 2 x Todogrow Led Cxb 3590 COB 3500 K 205W 💡💡☝️🏼 Soil : Canna Coco Professional + ☝️🏼 Fertilizer: Green House Powder Feeding ☝️🏼🌱 Water: Osmosis water mixed with normal water (24 hours stale that the chlorine evaporates) to 0.2 EC. Add Cal / Mag to 0.4 Ec Ph with Organic Ph - to 5.5 - 5.8 .

Dec 28 - Both plants are close to harvest. Had 5.5. hours of darkness after 24 hr period to prevent budrot developing. Also moved plants inside tent moreso, and closer to fans. Dec 28 - Watered healthy plant today at 2PM - I'll chop unhealthy plant tomorrow, so didn't water, instead inspected trichomes. Dec 28 - Unhealthy Plant is showing amber trichomes, but also clear - Unsure if I should chop tomorrow or not. Dec 29 - DAY 73 - CHOPPED - Trimmed larger fan leaves (accidentally trimmed a sugar leaf or two) and harvested to dry whole, upside down. I'm hoping for a half ounce per plant. Dec 19 - 11.50PM Trichome Calyx' were observed, there are new calyx' appearing. Calyx' are swelling. Dec 30 - Plant developing more senescence and calyx are swelling. Dec 30 - Trichomes are still clear, but I'm seeing some PM develop so I think I'll chop tomorrow morning. Dec 31 - Nice Senescence occurring, Happy to have left it this last day. Accidentally left temps up to 78F for a half hour. Dec 31 - Decided to push another week as per feedback from GD member. When watering I noticed she was perky after 3 days w. no water. Interesting and likely the frequency I'll continue watering at. Dec 31 - Watered at 9PM. Jan 1 - Removed small fan leaf with signs of PM at the base. This defoliation should help with airflow. Checked newly formed calyx' and they're clear enough not to document. Jan 2 - Buds are developing nicely, calyxes are noticably swelling nicely too. I see some green pistils appearing in the lowest buds. Clear Trichomes. Jan 3 - Watered at 8AM. Woke up to 90F temp. Unfortunately they'd been cooking for about an hour. Jan 3 - DRYING UPDATE - I'm seeing fluctuations in the drying room between RH 49% and 70%. As of 3.10PM @ 61RH after adding jars of water. I want to maintain this RH. Jan 3 - Senesence looking good, calyx' are continuing to swell. Will inspect trichomes tomorrow at latest.

It was my first grow They were 1meter80 tall. The soil was mixed with othe one from market, because they got to be yellow color, No Nutrients ,watered always before to take photos. I always preffer to give them the Sunn they know. It was a pleasure to care of Them, The next one hope will be Pandora or Sensi Star.

Blue dream

day 44 - The growth process continues unabated. I am waiting for the desired size. 8 days after flowering it didn't grow as much as I thought it would, so we went back to the growing season. 👽 day 49 - I decided not to cut the leaves anymore after much defoliation. It easily tolerates strong stress easy to grow.

Bud sites are producing black/purple spot in leaves. Bud growth is producing as the days go by. Really excited with this being my first grow Nitrogen boost really helped with the deficiencies. Plants are starting to look really heathy... Prunes lower colas that weren't stretching past the canopy and receiving energy so more energy can be used towards the top buds

🌱 Germination Journey with Terpyz Mutant Mentha de Croco 🌱 Hey Grow Fam! Today kicks off an exciting adventure with Terpyz Mutant Mentha de Croco genetics. I’ve got 10 regular seeds ready to sprout, and I’m looking forward to discovering some beautiful female phenotypes—and maybe even a standout male for potential future breeding. It’s been a while since I’ve worked with regular seeds, so I’m thrilled to dive in! Germination Process Overview: Here’s a step-by-step rundown of the germination setup and process, with a special focus on the equipment and nutrients that are helping these seeds thrive right from the start. Step 1: TheCannaKan Germination Pod 🌱 For germination, I rely on TheCannaKan—a device I’ve come to love and trust. It’s designed to create the perfect microclimate for seed germination, and within just 24 hours, the seeds started showing signs of life. By the 32-hour mark, they were all ready to be transferred to the next stage! I can’t recommend this gadget enough for anyone serious about getting strong, early growth from their seeds. • Why TheCannaKan? • Humidity Control: Ensures seeds stay hydrated without oversaturation. • Stable Temperature: Maintains an even temperature around the seeds, so there’s no shock or stalling. • Enhanced Oxygenation: Keeps fresh air circulating, helping prevent mold and ensuring seeds don’t suffocate. Step 2: Transfer to Root Riots & Aptus Holland Supplements 💧 Once the seeds were sprouted, I transferred them into Root Riots, known for their excellent water retention and structure that encourages strong root growth. Root Riots also have a pH-balanced, spongy texture that makes it easy for roots to penetrate, promoting sturdy, healthy root systems. At this stage, I started using Aptus Holland’s Regulator and Startbooster at 1ml/L each. Here’s why I chose these products for early growth: • Aptus Regulator (1ml/L): Helps strengthen the plants against environmental stresses by supporting cell wall structure. It’s a fantastic choice for giving young seedlings an early boost in resilience. • Aptus Startbooster (1ml/L): This product provides essential microbes and nutrients that stimulate root growth and early plant vigor. Especially for regular seeds, the early root development makes a noticeable difference in later growth stages. Step 3: Lighting with Future of Grow (FOG) LED at 200 PPFD 💡 For lighting, I’m using a Future of Grow (FOG) 600W LED. For the germination stage, I’ve dimmed it to around 200 PPFD (photosynthetic photon flux density), which provides just enough light for healthy, strong seedling growth without overwhelming them. • Why Low Intensity? • 200 PPFD ensures that young plants aren’t exposed to too much light, which could cause stress or stunting. This level of intensity is perfect for encouraging healthy development without risking “stretching.” • The FOG LED provides a balanced spectrum tailored to plant growth, setting up these young sprouts for success as they grow. Step 4: Environmental Control with TrolMaster Tent X Controller 📲 For monitoring and control, I’m using the TrolMaster Tent X Controller, which lets me dial in every aspect of the environment to make sure these little ones have the perfect conditions for germination and early growth. • TrolMaster Benefits: • Precision Control: Adjust temperature, humidity, and lighting all in one place. • Notifications: Sends updates in real-time to my device, so I can make adjustments as needed without being physically present. • Consistency: Maintains stable conditions around the clock, reducing stress on seedlings and ensuring they’re thriving. Grow Tips & Reflections: Germination is one of the most crucial stages in a plant’s lifecycle. Starting with strong genetics like Terpyz Mutant Mentha de Croco, combined with a solid germination setup and the right nutrients, creates the foundation for a successful grow. 💡 Quick Tips for Fellow Growers: • Hydration Balance: Don’t oversaturate! Moisture levels should be high enough for the seeds to sprout but not so wet that they drown. • Light Management: A low PPFD for young seedlings prevents stretch and keeps nodes tight, preparing them for a healthy vegetative phase. • Environment Consistency: Use a reliable controller like the TrolMaster Tent X to manage your settings, and consider monitoring tools for real-time adjustments. Shout Outs to the Community: Big thanks to Terpyz Genetics for these incredible seeds, Aptus Holland for their top-notch nutrients, Future of Grow for the stellar LED lights, and TrolMaster for the amazing controller. Also, shout out to all of you in the growing community—you make this journey exciting and filled with endless learning. Let’s keep growing and sharing together! That’s it for the germination update! Next up, I’ll be monitoring growth closely to identify strong females (and maybe a standout male for breeding). Stay tuned for updates on our Mutant Mentha de Croco adventure—this is just the beginning! Genetics - Mentha De Croco https://terpyz.eu/products/menta-de-croco-fern-type?_pos=1&_sid=e9237cbcb&_ss=r DogDoctorOfficial Discount Codes @ terpyz.eu - DOCTOR 15% off Nutrition - @aptusholland https://aptus-holland.com/ Led Power @ F.O.G. Future Of Grow https://www.thefuturofgrow.com/en/online-store/BLACK-SERIES-600-p489093171 Controls @ TrolMaster https://www.trolmaster.eu/tent-x As always thank you all for stopping by, for the love and for it all , this journey of mine wold just not be the same without you guys, the love and support is very much appreciloved and i fell honored with you all in my life With true love comes happiness Always believe in your self and always do things expecting nothing and with an open heart , be a giver and the universe will give back to you in ways you could not even imagine so Growers Love To you All 💚

(Update: 4/20/19) Please stand by while they dry. (Update Everything is going great though! The smell is very strong now; no more cut grass smell. From looking at all three today, I believe that some of the smaller branches will be done drying and ready for trimming and weighing in a day or two. I have one guess for dry weight of Big Lemon, any other guesses?? Remember, the picture of Big Lemon hang drying looks like its two plants, but its all Big Lemon; I had to cut it off to be able to hang it. The amputated branch left of the main plant is bigger than my other two plants alone! (Update 5/2/19) Woah...Okay. So after drying the whole for about nine days, and trimming for four days, Big Lemon's dry weight SO FAR is about 430ish grams of super dense and sticky nugs. Its amazing that I got more big bud than I got popcorn nugs from such a big plant. I have one more 1/2 gal Mason Jar of untrimmed tops to finish, then I'll post pics or a vid of the weigh up and glamour shots etc.. Oh, almost forgot, Little Lemon produced about 40 grams of very nice bud. This surpassed expectations because, although it was planted on the same day as Big Lemon, it was the runt of the bunch because it got pushed out of the main tent that had all the lights and Co2 environment and everything. It spent much of late veg under a very weak light. I remember how limp it was when I gambled on it and chose to switch her over to 12/12. But it was totally worth it in the end! Alight back to work for me. Check back later today for pics, vids! (Final Update: 5219 @11:09pm PT) Its done. Its finally done! I had to trim both plants with my own two hands! So Exhausting, yet so rewarding. So above are several videos of the weighing. Grand total for Big Lemon is 14oz of prime top shelf nugs, and about 3oz of nice popcorn/LARF (they are separated as shown above in a video. Forgive me for not throwing it all together to weigh it, I spent a long, long, very long time trimming and sorting and canning the buds according to their respective grade/quality. I may add one more update to show their respective weights. Oh and little lemon produced about an 1 1/2 oz of prime nuggets and quite a bit of popcorn/LARF, which I haven't gotten around to weighing yet. So, Grand Grand total of Both Lemon OG Candy (amazing job with this beast of a strain, Philosopher seeds) is about 18.5oz, or 1lb 2.5oz for two plants; 15.6oz of which is entirely made up of top-shelf buds 😎 Damn I love SoCal, I didnt even need to run carbon filters because no one be trippin about a lil stink weed. Thanks to those for following this grow! Tell me what yall think! Cant wait to see some comments from all you growers out there. (Update: smoke review after a week or two of cure) This Lemon OG Candy had an extended veg period, about 4 months maybe a little longer, and I harvested her on day 56 of flower (recommended harvest 60-70 days) because of the size/distance to light and her root-bound problems. The results so far, a very uplifting and stimulating quality.

Hello Growmies, As we round up week 5 with our Watermelon Candy F1 Hybrid by Zamnesia, the growth has been nothing short of impressive. The choice to employ low-stress training (LST) rather than topping has paid dividends, with the plants responding well to the gentle guidance of their growth, seamlessly integrating into the SCROG setup. This method has allowed for an even canopy spread, optimal light penetration, and air flow, which is critical for the health of the plants and ultimately the yield. Observing the Watermelon Candy's development, we see a testament to our cultivation methods. The vibrant green leaves reaching skywards, the sturdy stems, and the strategic placement of each branch in the SCROG—every detail points towards a successful vegetative phase. In terms of environmental control, we've applied the lessons learned from our other strains, maintaining a stable and ideal VPD during the day with the Tent-X system. The nights, however, have brought forth the same challenges we've faced with other strains, showing fluctuations in VPD levels. The integration of the Smart Mars Hydro fan into the Tent-X system is anticipated to solve this, and we are optimistic that this change will bring about the consistent conditions needed for the Watermelon Candy's continual thriving. Even with the small hiccup in the nighttime environmental control, the plants are flourishing. The robust health they exhibit is a sign they're ready for the flowering phase, and we expect nothing less than a bountiful harvest. And while we've experienced a bit of frustration with Secret Jardin and Mars Hydro for the integration challenges, we appreciate TrolMaster's efforts to assist. We are hopeful for a resolution soon, or we may revert to the reliable Prima Klima setup. As we move forward, the focus remains on the consistent monitoring and adjusting of their environment to ensure these Watermelon Candy F1 Hybrids realize their full potential. Stay lifted, Salokin