Good evening my fellow growers! So, another Thursday night comes, meaning another week starts in this diary😎 As a balance from last week, I'd like to underline the beginning of LST and defoliation applied in the plant, so far with success. Had a little struggle with RH and temps, by getting the lights a little too close from the plants. Lesson learnt and problem solved! Day 29 4/6 - #1 - Love to push her around! Not sure who's enjoying it more, if me or the plant. Looks happy with all the twists, and I believe this will be the last week of veg. 10 day tops I'd say. She's a heavy drinker for the size, and loves some good misting before turning the lights on. Moving the light even upper, brought me lower temps and higher RH: Temps from 24c to 20c, and RH from 40% to 50%. Much better. Here's also a video from the grow, how everything looks today during lights off period. Enjoy! Day 30 5/6 - #1 today was just another day of growth. Actually apart from observing it during the day, haven't done really anything to it. Looks like has enough water still, looks like the branches are coming out nice and evenly, covering for now the surface of the pot. Today also started to feel her stink. Finally! This only indicates me she's getting ready to flower very, very soon. In the tent, today was the best 'weather' ever, I'm super happy with that 😅 Temps were between 18 off and 25 on, RH between 73% off and 40% on. Day 31 6/6 - #1 today's her first month, since dropped in the water. Wohoo! 😎 Had another look to her, make sure all branches are looking good, with proper exposure and re-tied it again here and there to adjust her and make her even on top. Removed a few more leaves on the way and it's looking great! Had a big time watering (with nutrients), a little over a liter and was also mist in all foliage before lights going on. Temps were very good again! Rh with 79% max and 52% min and temps from 25 to 17. Nice uh? 😎 Day 32 7/6 - #1 So, after the 1st month anniversary celebrations (ahah), today was training and defoliation day. Between today and tomorrow will do quite a defoliation as she's giving signs of starting flowering stage very soon. When it comes to the plant, I rearranged her first a bit to optimize the light exposure in all budsites, then leaves down. For the first time in this plant, I fed her plain tap water, with a 6.4 ph. Tried to simulate a rainy day as much as possible by misting her and the medium. I like to give her a flush in between stages, when changing to flowering nutrients. Temps as stable inside with 16 min and 26 max. RH from 52% to 76% Day 33 8/6 - #1 What a nice reaction she had from last night training and defoliation! She went upwards and looks so much better. You can tell she's stretching now and showing some little pistils. After having a look around, just took the rest of the leaves I'd planned to and she's finally ready to flower. Even her scent is getting stronger, a very nice tropical/mango/passion fruit kick when the tent is opened. What a delight!😎 Today I'll give her a light feed again, to get this lady back on track and will wait for another day to come. It's very nice to observe the strecthing phase, as you can see them growing almost by the hour eheh Temps today were 29 max, 21 min and RH from 71% to 39% (values are higher today as I let the humidifier empty for a couple hours) Day 34 9/6 - #1 She's full on stretching, in 48h grew more than 10cm, which I find incredible. I did a few more touches on the branches, now is the time to make them ready and give all the light they need in every bit of them. Today she didn't smell so much, like yesterday, but I'm sure she's focusing on growing delicious bud right now. Can't wait to have a taste of it 😄 No watering today, going to save that for the morning. I'll just give her a light mist to keep things fresh and humid in the grow. Tomorrow is the last day of this week, and I'm planning to start with flowering schedule and nutrients from tomorrow. Temps and RH recorded today: 26c - 18c 76% - 41% Day 35 10/6 - General: This lady continues growing at a very nice rhythm. She's opening all her arms to light and I foresee a good flowering stage. Techniques: After observing her under the lights, decided to remove some more leaves to maximise exposure. All light is needed right now. Feeding: Good watering, almost 1.5l with balanced ph water, and started introducing flowering nutrients, at a very small scale, and went up 0.5ml on the grow nutrients. let's see what happens, but as I write, lights went up again for 4 hours and they look great, showing no signs of stress on anything like it. Smell: Still getting there, it's more intense inside the tent under the lights, a light breeze comes from her, but nothing compared to the power of her younger sister #3 from the other grow diary I'm writing. Temps and RH recorded today: 28c - 18c 60% - 37% And that's it! This week is done, tomorrow we start a new one, which I'll consider the first of the flowering period. This was a very exciting week where the results of the LST started to show a little more and better, did a heavy defoliation during the week, and saw her growing a lot. I'm impressed with that and curious to see the next coming days and weeks until she stops growing to produce more of the fat buds we love. That's all, see you tomorrow!

Week 4 of flowering 10/9/24 Defoliated plants. Watering 4 times a day (with 10%-20% runoff) hand watering to full saturation of the media with 20% runoff at the end of the week. Checking runoff EC every 3 days. Lights now at max height and 90% power. Cheap AliExpress exhaust fan timer broke. Humidity rose up to 99% inside the grow tent, but fans kept circulating the air. After noticing, immediately turned on the dehumidifier to 40% RH with extra fan pointing on the canopy to max. hopefully no herm problems and mold issues. Adding 2.5ml/gal of H2O2 (35%) to the reservoir to keep bacteria away.

Ehi ragazzi scusate il ritardo ma ho avuto vari problemi familiari, mia nonna non è stata bene, quindi nn ho avuto tempo per tenere i giusti giorni dei diari, apparte questo la ragazza sta davvero avendo un esplosione enorme di fiori, cime dense e dire come roccie, voluminose quanto un mio pugno! Devo dire che questo prodotto "power buds" di plagron sta davvero facendo un ottimo lavoro! Davvero un risultato più che soddisfacente, a dir poco impressionante! Tutto questo anche grazie alle condizioni stabili e ottimali grazie all equipaggiamento fornito da Mars hydro! Grazie ragazzi Mars hydro detta le regole! Buon 420 a tutti e buon 2024!che sia un anno molto produttivo per tutti voi! Vi adoro! 💪😸🌱🌿🌲

As cores Red da Red hot cookies já começaram Depois da troca de foto período elas esticaram bastante diferente de outras genéticas que tenho aqui belo desenvolvimento...

And it looks like they didn't mind that much going to the hairdresser as they keeps on drinking the same and evolving at the same pass. They are all becoming beautiful beast ladies and im loving them all in diferent ways , so far the mor advanced one is the somango followed by the water melon followed by the no idea what it is seed and in the end e have bruce banned, im loving t he fact that they all started same time and that they all are going to finished different, this means i will be trying me second harvest plant smoking my pervious one 😝 . They are all drinking using the autopot system but the no idea what seed is not so im Daly giving her 2,5 liters from the autopot reservoir ,it sucks but its ok at the same time hehe eit is what it is and im not thinking on leaving anywhere, so i can easy do that every single day hehehe kind a lovit any way but dont tell anyone, its our little secret 🤫 😆💚🙏🙏🙏 As always thank you all for reading and checking out my diaries, im humbled by it all, much love to you all 💚💚💚🙏🙏🙏💚💚💚🙏 Thank you APTUSHOLLAND for having faith in my love for growing and for always being there wen my gardens need 🙏🙏🙏 Genetics : - watermelon candy - Zamnezia Seeds https://www.zamnesia.com/ -Somango Glue - Advanced seeds https://advancedseeds.com/web/ - ?- buddah Seeds - Bruce Banner - Fast Buds https://2fast4buds.com/ Grow tent - 4x8, but using 4x4 for this Auto Test Ligth - LUMATEK ZEUS 465 COMPACT PRO Food - HAPTUS HOLLAND Filter - vanguard hydroponics Falcon Filters Extraction - vanguard hydroponics 560 m3h control - Trolmaster All i grow is medicine for myself, for me and for my best friend with is me 😆 nothing to sell, so don’t even ask 😅💚💚💚 All info and full product details can be find in can find @ https://aptus-holland.com/ https://autopot.co.uk/ https://lumatek-lighting.com/ #aptus #aptusplantteck #aptusgang #aptusfamily #aptustrueplantscience #inbalancewithnature #trueplantscience #growerslove With true love comes happiness 💚🙏 Always believe in your self and always do things expecting nothing in return and with an open heart , be a giver and the universe will give back to you in ways you could not even imagine so 💚💚💚 More info and updates @ https://growdiaries.woodroom.tel/grower/dogdoctor https://instagram.com/dogdoctorofficial https://youtube.com/channel/UCR7ta4DKLFMg2xxTMr2cpIg 💚💚💚Growers love to you all 💚💚💚

Hello friends, another week behind me. All in all, everything is going great, I have a light output of 300 watts and for that number of watts it already looks magnificent! At the Lemon tree and runtz muffin have formed in the last few days many trichome is also already a strong smell to perceive the thinning with biobizz grow was a unique thing and give the plants a nice boost for 2-3 weeks. Today I noticed something, when I saw to the tent was light on although it was dunekelfasse, somehow I got to the timer:/ it’s about 2 hours before it actually started, I turned it off again to restore the rhythm quickly, I hope I don’t have to expect big problems because so far everything was going great. What I also notice more and more that the buds have the right weight!! I tried at the runtz to take a photo where you see all the buds above, but no chance the leaf roof is too dense but still well lit, it’s just amazing how many flowers are forming there!!!!!!That’s it for this week and I wish you good smoke TM️ Hallo Freunde, wieder 1 Woche mehr hinter mir. Im grossen und ganzem läuft alles Top, ich habe eine Licht leistung von 300 Watt und für diese Wattanzahl sieht es jetzt schon prächtig aus! Bei der Lemon tree und runtz Muffin haben sich in den letzten tagen viele trichome gebildet zudem ist auch schon ein starker Geruch zum wahrnehmen 😁 die dünngung mit biobizz grow war eine einmalige Sache um den Pflanzen für 2-3 Wochen einen schönen Schub zu geben. Heute ist mir was aufgefallen, als ich zum Zelt sah war Licht ein obwohl es dunkelfasse war, irgentwie bin ich an die Zeitschaltuhr gekommen :/ es ist ca 2 Stunden bevor es eigentlich beginnt an gegangen, ich habe es wieder abgeschaltet um den rytmus schnell wieder herzustellen, ich hoffe ich muss jetzt nicht mit grossen Problemen rechnen weil bis jetzt alles top lief. Was ich auch zunehmend bemerke das die Buds richtig an Gewicht haben!! Das war es für diese Woche und ich wünsche guten Rauch.

Good week for this lady. I defoliated about 30 leaves on her to make room for the other buds sites that's developing. Is there a such thing as too many bud sites??😅😅

Looking good. 2-3 weeks to go. PH is great. Starting to really make resin glands. Smells great

Welcome growers I have finished the first week of flowering with these three sisters of SORBET#4 🌿🌿🌿🍧 The plants are starting to show early pre-flowers and continue to grow quite well without too much difficulty.. Unfortunately, the appearance is not extremely healthy because of me, I was away for a few days and my self-irrigation system did not work properly, leaving the plants in shortage of water 💦 Maintaining the correct proportions between dry and wet soil is essential But they will recover anyway.. In this week I have slightly defoliated to allow the light to penetrate more and also better ventilation ✂️✂️✂️🍃🍃🍃 About the lights cycle 💡 We are now in a 12/12 on / off.. Always under two SP3000, from Mars-Hydro, at 75% of the power.. About nutrients 👇 I still giving their always organic/veganic nutrients.. A little bit of silicium (Bionova) / Activator (Biomagno) / Crescita (Biomagno) / Activera (Biobizz) / Grow vegan (Bionova) / The Missing Link (Bionova) / X-Cell (Bionova) / Bioheaven (Biobizz) , a little bit of P-K 3-5 (Bionova) {in spray solution } and for the firsth time a little bit of Fioritura (Biomagno) and Bloom vegan (Bionova) Like i usually do, a little bit of everything at any watering 💧 And that's all Now let's wait to see what their flowers will look like See you in week n°7 📆 Thanks for stopping and support 🙏 FC ✌️ 🇮🇹

Glasgow rangers wee are the people watp

Yellow butterfly came to see me the other day; that was nice. Starting to show signs of stress on the odd leaf, localized isolated blips, blemishes, who said growing up was going to be easy! Smaller leaves have less surface area for stomata to occupy, so the stomata are packed more densely to maintain adequate gas exchange. Smaller leaves might have higher stomatal density to compensate for their smaller size, potentially maximizing carbon uptake and minimizing water loss. Environmental conditions like light intensity and water availability can influence stomatal density, and these factors can affect leaf size as well. Leaf development involves cell division and expansion, and stomatal differentiation is sensitive to these processes. In essence, the smaller leaf size can lead to a higher stomatal density due to the constraints of available space and the need to optimize gas exchange for photosynthesis and transpiration. In the long term, UV-B radiation can lead to more complex changes in stomatal morphology, including effects on both stomatal density and size, potentially impacting carbon sequestration and water use. In essence, UV-B can be a double-edged sword for stomata: It can induce stomatal closure and potentially reduce stomatal size, but it may also trigger an increase in stomatal density as a compensatory mechanism. It is generally more efficient for gas exchange to have smaller leaves with a higher stomatal density, rather than large leaves with lower stomatal density. This is because smaller stomata can facilitate faster gas exchange due to shorter diffusion pathways, even though they may have the same total pore area as fewer, larger stomata. Leaf size tends to decrease in colder climates to reduce heat loss, while larger leaves are more common in warmer, humid environments. Plants in arid regions often develop smaller leaves with a thicker cuticle and/or hairs to minimize water loss through transpiration. Conversely, plants in wet environments may have larger leaves and drip tips to facilitate water runoff. Leaf size and shape can vary based on light availability. For example, leaves in shaded areas may be larger and thinner to maximize light absorption. Leaf mass per area (LMA) can be higher in stressful environments with limited nutrients, indicating a greater investment in structural components for protection and critical resource conservation. Wind speed, humidity, and soil conditions can also influence leaf morphology, leading to variations in leaf shape, size, and surface characteristics. Small leaves: Reduce water loss in arid or cold climates. Environmental conditions significantly affect gene expression in plants. Plants are sessile organisms, meaning they cannot move to escape unfavorable conditions, so they rely on gene expression to adapt to their surroundings. Environmental factors like light, temperature, water, and nutrient availability can trigger changes in gene expression, allowing plants to respond to and survive in diverse environments. Depending on the environment a young seedling encounters, the developmental program following seed germination could be skotomorphogenesis in the dark or photomorphogenesis in the light. Light signals are interpreted by a repertoire of photoreceptors followed by sophisticated gene expression networks, eventually resulting in developmental changes. The expression and functions of photoreceptors and key signaling molecules are highly coordinated and regulated at multiple levels of the central dogma in molecular biology. Light activates gene expression through the actions of positive transcriptional regulators and the relaxation of chromatin by histone acetylation. Small regulatory RNAs help attenuate the expression of light-responsive genes. Alternative splicing, protein phosphorylation/dephosphorylation, the formation of diverse transcriptional complexes, and selective protein degradation all contribute to proteome diversity and change the functions of individual proteins. Photomorphogenesis, the light-driven developmental changes in plants, significantly impacts gene expression. It involves a cascade of events where light signals, perceived by photoreceptors, trigger changes in gene expression patterns, ultimately leading to the development of a plant in response to its light environment. Genes are expressed, not dictated! While having the potential to encode proteins, genes are not automatically and constantly active. Instead, their expression (the process of turning them into proteins) is carefully regulated by the cell, responding to internal and external signals. This means that genes can be "turned on" or "turned off," and the level of expression can be adjusted, depending on the cell's needs and the surrounding environment. In plants, genes are not simply "on" or "off" but rather their expression is carefully regulated based on various factors, including the cell type, developmental stage, and environmental conditions. This means that while all cells in a plant contain the same genetic information (the same genes), different cells will express different subsets of those genes at different times. This regulation is crucial for the proper functioning and development of the plant. When a green plant is exposed to red light, much of the red light is absorbed, but some is also reflected back. The reflected red light, along with any blue light reflected from other parts of the plant, can be perceived by our eyes as purple. Carotenoids absorb light in blue-green region of the visible spectrum, complementing chlorophyll's absorption in the red region. They safeguard the photosynthetic machinery from excessive light by activating singlet oxygen, an oxidant formed during photosynthesis. Carotenoids also quench triplet chlorophyll, which can negatively affect photosynthesis, and scavenge reactive oxygen species (ROS) that can damage cellular proteins. Additionally, carotenoid derivatives signal plant development and responses to environmental cues. They serve as precursors for the biosynthesis of phytohormones such as abscisic acid () and strigolactones (SLs). These pigments are responsible for the orange, red, and yellow hues of fruits and vegetables, while acting as free scavengers to protect plants during photosynthesis. Singlet oxygen (¹O₂) is an electronically excited state of molecular oxygen (O₂). Singlet oxygen is produced as a byproduct during photosynthesis, primarily within the photosystem II (PSII) reaction center and light-harvesting antenna complex. This occurs when excess energy from excited chlorophyll molecules is transferred to molecular oxygen. While singlet oxygen can cause oxidative damage, plants have mechanisms to manage its production and mitigate its harmful effects. Singlet oxygen (¹O₂) is considered a reactive oxygen species (ROS). It's a form of oxygen with higher energy and reactivity compared to the more common triplet oxygen found in its ground state. Singlet oxygen is generated both in biological systems, such as during photosynthesis in plants, and in cellular processes, and through chemical and photochemical reactions. While singlet oxygen is a ROS, it's important to note that it differs from other ROS like superoxide (O₂⁻), hydrogen peroxide (H₂O₂), and hydroxyl radicals (OH) in its formation, reactivity, and specific biological roles. Non-photochemical quenching (NPQ) protects plants from damage caused by reactive oxygen species (ROS) by dissipating excess light energy as heat. This process reduces the overexcitation of photosynthetic pigments, which can lead to the production of ROS, thus mitigating the potential for photodamage. Zeaxanthin, a carotenoid pigment, plays a crucial role in photoprotection in plants by both enhancing non-photochemical quenching (NPQ) and scavenging reactive oxygen species (ROS). In high-light conditions, zeaxanthin is synthesized from violaxanthin through the xanthophyll cycle, and this zeaxanthin then facilitates heat dissipation of excess light energy (NPQ) and quenches harmful ROS. The Issue of Singlet Oxygen!! ROS Formation: Blue light, with its higher energy photons, can promote the formation of reactive oxygen species (ROS), including singlet oxygen, within the plant. Potential Damage: High levels of ROS can damage cellular components, including proteins, lipids, and DNA, potentially impacting plant health and productivity. Balancing Act: A balanced spectrum of light, including both blue and red light, is crucial for mitigating the harmful effects of excessive blue light and promoting optimal plant growth and stress tolerance. The Importance of Red Light: Red light (especially far-red) can help to mitigate the negative effects of excessive blue light by: Balancing the Photoreceptor Response: Red light can influence the activity of photoreceptors like phytochrome, which are involved in regulating plant responses to different light wavelengths. Enhancing Antioxidant Production: Red and blue light can stimulate the production of antioxidants, which help to neutralize ROS and protect the plant from oxidative damage. Optimizing Photosynthesis: Red light is efficiently used in photosynthesis, and its combination with blue light can lead to increased photosynthetic efficiency and biomass production. In controlled environments like greenhouses and vertical farms, optimizing the ratio of blue and red light is a key strategy for promoting healthy plant growth and yield. Understanding the interplay between blue light signaling, ROS production, and antioxidant defense mechanisms can inform breeding programs and biotechnological interventions aimed at improving plant stress resistance. In summary, while blue light is essential for plant development and photosynthesis, it's crucial to balance it with other light wavelengths, particularly red light, to prevent excessive ROS formation and promote overall plant health. Oxidative damage in plants occurs when there's an imbalance between the production of reactive oxygen species (ROS) and the plant's ability to neutralize them, leading to cellular damage. This imbalance, known as oxidative stress, can result from various environmental stressors, affecting plant growth, development, and overall productivity. Causes of Oxidative Damage: Abiotic stresses: These include extreme temperatures (heat and cold), drought, salinity, heavy metal toxicity, and excessive light. Biotic stresses: Pathogen attacks and insect infestations can also trigger oxidative stress. Metabolic processes: Normal cellular activities, particularly in chloroplasts, mitochondria, and peroxisomes, can generate ROS as byproducts. Certain chlorophyll biosynthesis intermediates can produce singlet oxygen (1O2), a potent ROS, leading to oxidative damage. ROS can damage lipids (lipid peroxidation), proteins, carbohydrates, and nucleic acids (DNA). Oxidative stress can compromise the integrity of cell membranes, affecting their function and permeability. Oxidative damage can interfere with essential cellular functions, including photosynthesis, respiration, and signal transduction. In severe cases, oxidative stress can trigger programmed cell death (apoptosis). Oxidative damage can lead to stunted growth, reduced biomass, and lower crop yields. Plants have evolved intricate antioxidant defense systems to counteract oxidative stress. These include: Enzymes like superoxide dismutase (SOD), catalase (CAT), and various peroxidases scavenge ROS and neutralize their damaging effects. Antioxidant molecules like glutathione, ascorbic acid (vitamin C), C60 fullerene, and carotenoids directly neutralize ROS. Developing plant varieties with gene expression focused on enhanced antioxidant capacity and stress tolerance is crucial. Optimizing irrigation, fertilization, and other management practices can help minimize stress and oxidative damage. Applying antioxidant compounds or elicitors can help plants cope with oxidative stress. Introducing genes for enhanced antioxidant enzymes or stress-related proteins over generations. Phytohormones, also known as plant hormones, are a group of naturally occurring organic compounds that regulate plant growth, development, and various physiological processes. The five major classes of phytohormones are: auxins, gibberellins, cytokinins, ethylene, and abscisic acid. In addition to these, other phytohormones like brassinosteroids, jasmonates, and salicylates also play significant roles. Here's a breakdown of the key phytohormones: Auxins: Primarily involved in cell elongation, root initiation, and apical dominance. Gibberellins: Promote stem elongation, seed germination, and flowering. Cytokinins: Stimulate cell division and differentiation, and delay leaf senescence. Ethylene: Regulates fruit ripening, leaf abscission, and senescence. Abscisic acid (ABA): Plays a role in seed dormancy, stomatal closure, and stress responses. Brassinosteroids: Involved in cell elongation, division, and stress responses. Jasmonates: Regulate plant defense against pathogens and herbivores, as well as other processes. Salicylic acid: Plays a role in plant defense against pathogens. 1. Red and Far-Red Light (Phytochromes): Red light: Primarily activates the phytochrome system, converting it to its active form (Pfr), which promotes processes like stem elongation and flowering. Far-red light: Inhibits the phytochrome system by converting the active Pfr form back to the inactive Pr form. This can trigger shade avoidance responses and inhibit germination. Phytohormones: Red and far-red light regulate phytohormones like auxin and gibberellins, which are involved in stem elongation and other growth processes. 2. Blue Light (Cryptochromes and Phototropins): Blue light: Activates cryptochromes and phototropins, which are involved in various processes like stomatal opening, seedling de-etiolation, and phototropism (growth towards light). Phytohormones: Blue light affects auxin levels, influencing stem growth, and also impacts other phytohormones involved in these processes. Example: Blue light can promote vegetative growth and can interact with red light to promote flowering. 3. UV-B Light (UV-B Receptors): UV-B light: Perceived by UVR8 receptors, it can affect plant growth and development and has roles in stress responses, like UV protection. Phytohormones: UV-B light can influence phytohormones involved in stress responses, potentially affecting growth and development. 4. Other Colors: Green light: Plants are generally less sensitive to green light, as chlorophyll reflects it. Other wavelengths: While less studied, other wavelengths can also influence plant growth and development through interactions with different photoreceptors and phytohormones. Key Points: Cross-Signaling: Plants often experience a mix of light wavelengths, leading to complex interactions between different photoreceptors and phytohormones. Species Variability: The precise effects of light color on phytohormones can vary between different plant species. Hormonal Interactions: Phytohormones don't act in isolation; their interactions and interplay with other phytohormones and environmental signals are critical for plant responses. The spectral ratio of light (the composition of different colors of light) significantly influences a plant's hormonal balance. Different wavelengths of light are perceived by specific photoreceptors in plants, which in turn regulate the production and activity of various plant hormones (phytohormones). These hormones then control a wide range of developmental processes.

This girl has been one of my favorites. Pineapple express is true to it name looking like a pineapple once it fades the yellow, and the green are very beautiful together smells gassy with pineapple busting out of every tone

Did a little cleaning up the bottom this week and I am loving this plant! She’s my favorite of the two fast flowering photos I am running— just a healthy stunning plant! Started with bloom nutes this week and she is truly a fast flowering photo! I usually see these results on week three/four and it’s week 2! ✌️🏻💚

Transplant is done into 10L pots! 9 pots are filled with a living soil mix, enriched with Lurpe Farmers Mix, Insect Frass, and other organic amendments The rest are in a lighter soil mix, so I can supplement them with Biobizz nutrien This run is experimental 🔬 — I want to compare how the two approaches perform. If all goes well, in about 10 days we’ll flip to flowering 🌸🌞. So far, the girls are looking strong and healthy! 💪🌿✨

Hello 😊

The plant is growing rapidly in flowering and is becoming very resinous with an intense odor. It was fertilized again with the Greenhouse feeding (80g per 65L pot). The lamp was turned up to 100%. Since then, the edges of some leaves have curved slightly upwards. Otherwise the plant has lush green leaves And the lollipopping was well tolerated Flowering day: 27

Overall I’m happy with how the Blue Dream from Crop Kings came out, despite losing one plant to some odd characteristics likely brought on by being a new grower, but upon receiving input from others, the genetics of that particular plant may have been a little off. I picked a small bud 1 week prior to harvest, and let it dry for 5 days, the wife and I smoked it while camping and thoroughly enjoyed the high it produced. Obviously the on the scale weight is way off at 1338 G, lots of moisture and tons of stem weight. Will update with a total next week when drying is complete. After drying for a week I have now jarred and weighed the final result, and the final tally is 140.77 g or 4.969oz. A very energetic and long lasting high.