In the last week, smell changed. Very nice odour coming out of the tent every time I open it. Cause of issue with very high ppm in last week watering I decided to water once with only 200 ppm water with a bit of calmag (runoff 1700) and second 500 ppm watering with only flowering nutrients 4 mL BioBloom and 2 ml TopMax ( runoff 1000 ppm) So ppm issue seems resolved and I'll try to aim for 1000 ppm for next watering.

Sorry for the late video post.. I was assaulted and 2 of my 23 year old cats passed away 2 days ago.. So it's been a rough few weeks... Couple of yellow leaves.. Never had that problem using just RO water... Can't go to the grow store to get RO water right now. Transplanted 6-18-2020 switched to 12/12 🕒

En ésta ocasión tenemos la suerte de probar una RED POISON AUTOMATICA DE SWEED SEEDS 🔥 Esta maravilla es una Hibridación entre una de las variedades más apreciadas de su catálogo, la Green Poison®️(SWS14), y una exótica genética autofloreciente de flores moradas y ancestros Kush pakistaníes. Red Poison Auto®️ (SWS39) crece con aspecto de híbrido índico-sativo. Demuestra un gran vigor híbrido desde los primeros estadios de crecimiento. Desarrolla un tallo fuerte y ramas laterales largas y flexibles. Produce grandes cogollos compactos cargados de aromática resina. Los aromas y sabores son muy agradables e intensos, dulces y afrutados con un fondo suave de Skunk. Con esta descripción oficial de la propia página de Sweed Seeds se nos hace la boca agua con solo leerlo. Iremos viendo el transcurso de esta pequeña para ver en lo que se convierte de aquí a 3 meses aproximadamente 😊👌 Día 1: Hemos germinando la planta en un mini-invernadero con una luz LED de 20W, con 28°C y una humedad del 60%. Día 2: La plantula ha salido y hemos transplantado al armario y a su maceta final. Una maceta de 7L con una mezcla de sustrato de Top CropComplete Mix y Biobizz Light Mix en una proporción de 70/30. Todas las maceta tienen 3mg de Micro Vita para protegerla de las plagas. Hemos regado con 1L de agua con 1ml de Deep Underground de Top Crop (enrraizador) para que empiece a crear el sistema radicular lo mas fuerte posible. La temperatura en el armario es de 30°C con una HR de 60%. El armario tiene incorporado un humificador 🔥 Día 3: Estoy usando una bombilla de sodio de 400W en un armario 1x1x2 con lo cual emite bastante calor y las plantas se secan bastante rapido. Estoy intentando subir la HR al maximo con ayuda de un humidificador y con agua pulverizada para mantener el entorno en un punto optimo pero es una tarea difícil. Hemos vuelto a regar las plantas con agua 💧 pH6 a 30ºC con 200 PPM. Día 4: Sigo trabajando en mantener la temperatura y humedad en unos parametros optimos, por el momento tenemos: •Día 30°C y 50-60% HR •Noche: 26°C y 50-60% HR

Día 83 (08/04) Riego 1,25 Litro H20 + Wholly Base 2,5 ml/l + Solid Green 1,5 ml/l + Big Bloom 1 ml/l de Gen1:11 TDS 1000 PPMs - pH 6,2 Día 84 (09/04) Velocidad de crucero ON... Las plantas se acercan a su fecha de cosecha teorica (49 días en floracion = 13/04/2024) Muestran ligeros signos de senescencia, pero siguen creciendo las flores, el consumo de agua no baja... 😍💥 Día 85 (10/04) Riego 0,5 Litro H20 sin nutrientes. TDS 225 PPMs - pH 6,6 Día 86 (11/04) Riego 1,25 Litro H20 + Wholly Base 2,5 ml/l + Solid Green 1,5 ml/l + Big Bloom 1 ml/l de Gen1:11 TDS 1000 PPMs - pH 6,2 Gorilla Cookies FF es un monstruo en el consumo de agua y a pesar de la frecuencia de riego se muestra sedienta! La riego con 1,5 litros de la solución! Día 87 (12/04) Empezamos a revisar el color de los tricomas y se encuentran en su mayoría trasparentes con alguno turbio. Va a necesitar unos días más para madurar Día 88 (13/04) Riego 0,5 Litro H20 sin nutrientes. TDS 225 PPMs - pH 6,6 Se abre la ventana de la cosecha! 😍 Justo hoy cumplen 7 semanas (49 días) en floración Gorilla Cookies FF está sedienta. Le voy a dar 750 ml de H2O Día 89 (14/04) Riego 1,25 Litro H20 + Wholly Base 2,5 ml/l + Solid Green 1,5 ml/l + Big Bloom 1 ml/l de Gen1:11 TDS 1000 PPMs - pH 6,2 Gorilla Cookies FF está sedienta de nuevo! Es un monstruo de beber agua! 💦 Le doy 1.5 litros de la solución 💦Nutrients by Gen1:11 - www.genoneeleven.com 🌱Substrate PRO-MIX HP BACILLUS + MYCORRHIZAE - www.pthorticulture.com/en/products/pro-mix-hp-biostimulant-plus-mycorrhizae

Transplanted week 5 put it 3 gal cloth pots 1/3 strawberry fields soil, 2/3 Happy frog, 1/2 cup rice hulls total, mixed into both soils. watered with recharge mix 1/4 tsp to a gallon of water. Back in to the veg tent.

12/22 - all 3 seeds of critical kush went to shit, 1 didn't pop and 2 molded before the root came out of the shell...no bueno. I decided to run Purple Kush instead. I ran this before in my original crappy cabinet so I'm hoping for much better results this time around! ...growing so fast!!! 12/23 - and now it's on its own for a week!!!

Been battling caterpillars & powdery mildew , gave them both a spray over night with some Lost Coast Therapy for the mildew & I will be spraying in another day or two with Monterey BT for the caterpillars, a lot of the mildew disappeared, about two more applications it should be totally gone. This will literally be my last major outside grow

Wow, it seems like an eternity has passed - the cycle turned out to be hard, and really risky😕 There were moments when the plant stood for days without lighting, thank Jah without stress, and negative consequences. But we still managed to reach the finish line, with a good result. First of all, I want to thank all the people of good will who did not leave my country in trouble, did not give it to a maniac to be torn to pieces. I am not a young man, but still, it was one of the most powerful revelations of my life, and I will never forget it. Ukraine will stand and win!🇺🇦 I also want to thank Female Seeds for the magical genetics, the GD-team for the opportunity to express and learn (I'm already used to the rebranding of the logo😇). And finally, thanks to everyone who visited and commented on this diary - together we improve our skills! 😌 💚💛❤️ Stay connected and take care of yourself! 🙏

Welcome to the Green House Seeds Company Cup 🏆. Today is day 48 since the time change to 12/12. Hi everything 🤗. I can't describe how good it smells this week . You have to try them yourself 👌. There is nothing wrong with this genetic 😎. The growth, the color, the smell and the buds, everything is perfect. I can't wait to try it for the first time 😃. This week she will be flushed, so that after the flush she still has 10 - 13 days to utilize the remaining energy. Until then, I wish you a lot of fun with the new update, stay healthy 🙏🏻 and let it grow 🌱🍀 You can buy this Strain and Nutrients at : https://greenhouseseeds.nl/ ☝️🏼☝️🏼☝️🏼☝️🏼☝️🏼☝️🏼☝️🏼☝️🏼☝️🏼☝️🏼☝️🏼☝️🏼 Green House Seeds Company Cup 🏆 Type: Wonder Pie ☝️🏼 Genetics: Wedding Cake x OG Kush 👍😍 Vega lamp: 2 x Todogrow Led Quantum Board 100 W 💡 Flower Lamp : 2 x Todogrow Led Cxb 3590 COB 3500 K 205 W 💡💡☝️🏼 Earth: Canna Bio ☝️🏼 Fertilizer: Bio Grow Feeding ( GHSC ) , Enhancer ( GHSC ) , Bio Bloom ( GHSC) ☝️🏼🌱 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 6.0

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.

Strain: Fast Buds Rainbow Melon Photo Feminized Day 0 of Flower Day: 49 from sprout Medium: Growers Gold Light: Vivosun VS2000 switched to 75% Light Distance: 12 inches Watering: By hand, ~16 oz daily Nutrients: pH Perfect Advanced Nutrition Grow, Bloom, Micro 2 ml / L and 1 ml / L big bud. Just switched to Flower today

SATIVA DREAM by KANNABIA Week #22 overall Week #6 Flower This week has been a good week no major issues this week she's looking good and has that sativa smell about her!! Stay Growing!! Kannabia.com SATIVA DREAM

Chimera #2 s1

Not much to talk about yet. Walking into week 2 here. Will update when enter week 3. I apologize for the seedlings lol Good thing they grow fast!

Day 107 for the 54 plant grow. 42 different strains of photoperiods and 12 different autoflower strains in the: 8X8 GROW TENT WITH THE NEW          FC-E6500, FC4800 AND TSW2000 AND THE NEW 5X5 GROW TENT WITH A TSW2000 👍and they are being fed GREEN BUZZ LIQUIDS all organic/vegan fertilizers🤘. I only pinched the tops on 2 or 3 plants but I defoliated every plant ALOT. it slowed the vertical growth alot but it's exactly what I wanted. I can keep track of the plant sizes, how they grew, how healthy they were, how easy they were to grow and how good the final product is👍 every plant was given the same strength of GREEN BUZZ LIQUIDS and I'm keeping track of which plants were happy with the suggested amounts and which plants seemed to want more or less🤘 ALL THE AUTOFLOWERS ARE NOW CHOPPED. The girls are loving their MARS MANSION and WITH THE 5X5 INLAW SUITE and everything is doing good and looking nice and getting bigger👍 They are all starting to look like buds now and the bud sacs are swelling and they are all getting nice and frosty and starting to stink ALOT. MARS HYDRO ALWAYS GETS EM FROSTY👍.I AM NEVER DISAPPOINTED With how awesome these lights are🤘. KEEP KILLING IT MARS🤘👏👏 BREEDERS AND SEEDS: DIVINE SEEDS: MAZAR, OPIUM, WHITE WIDOW, OG KUSH, PABLO ESCOBAR, DIVINE INDICA. AUTO WHITE WIDOW AUTO PABLO ESCOBAR AUTO WHITE RUSSIAN AUTO FRACTAL AUTO MONTREAL AUTO OPIUM AUTO KABUL AUTO MAZAR. WEEDSEED EXPRESS: GREEN CRACK, GHOST TRAIN HAZE, LITHIUM OG, CHEESE. DOCTORS CHOICE: DC KUSH, AUTO NIAGARA, AUTO ROCK MACHINE. EXOTIC SEEDS: HIPPIE BERRY, MALASANA GELATO, EXOTIC ANIMAL. GENE/MEME SEEDS: BLACK HELL. ORIGINAL SENSIBLE SEEDS: PURPLE PUNCH COOKIES, WEDDING CAKE, PURE KUSH, GORILLA COOKIES. SWEET SEEDS: BLACK JACK, GORILLA GIRL, SWEET ZKITTLES. EMERALD TRIANGLE SEEDS: GORILLA GLUE, MASTODON KUSH. SEEDSMAN SEEDS: BLACK SUGAR, PEYOTE FORUM, PEYOTE WIFI, BADAZZ COOKIES OG, PURPLE GHOST CANDY, STRAWBERRY BANANA GRAPE, L.A. PEYOTE KUSH, PEYOTE WIFI CBD, FUEL DOG, CRITICAL PURPLE KUSH. AMSTERDAM MARIJUANA SEEDS: GIRL SCOUT COOKIES EXTREME, GREEN CRACK. QUEBEC CANNABIS SEEDS: BRUCE BANNER, GREEN CRACK, QUEBEC CBD 20:1. I 💚 GROWING MARIJUANA: SKYWALKER OG, BANANA KUSH, BLUEBERRY CBD. FOR EVERYTHING MARS HYDRO VISIT: www.mars-hydro.com www.marshydroled.ca PROMO CODE: rocknroll VISIT THE ALIEXPRESS STORE: @marshydro_aliexpress Instagram: @marshydropenny https://youtube.com/channel/UChU5ZWwNi-DvnO3oWVU3ceA https://greenbuzzliquids.com/ #greenbuzzliquids @GreenBuzzLiquids https://greenbuzzliquids.com/en/shop/ PROMO CODE: rocknroll https://www.youtube.com/watch?v=8hEqyS1jPpI https://growdiaries.woodroom.tel/diaries/112437-grow-journal-by-rock-n-roll-randy/week/593118 Thanks for taking the time to read and check out my diary🤜🤛 FC-E6500 LED GROW LIGHT: FC-E6500 grow light with 3978pcs OSRAM BridgeLux Diodes & Moso Driver, market-leading PPF 2.7 µmol/J, Max 2.5g yield/watt with 30% higher Average PPE, more cost-effective when compared to same style type lights. Only consumes 650W, perfectly cover 5x5ft (personal), 4x4ft (commercial) grow space. Innovative Precise Uniform Lighting-Built-in removable bars interval & dimmability enable the exact & dynamic PPFD control over each of the plant growing stages, FC-E6500 detachable bars deliverSuperior Heat Dissipation: Real Aluminum heatsink together with 6 slim profile passive cooled bars (THINNER & LARGER surface) and detachable Meanwell Driver, create less heat. save 50% hydro than other old grow lights! Driver can be mounted remotely on the side of a grow tent/rack or on an adjacent wall to remove heat from grow space. Full Spectrum UV IR LED: With Yield Max spectrum (660nm Osram enhanced Deep Red,2800k-5000k,730-740nm IR,380-410nm UV LEDs), Average PPFD the FC-E6500 LED grow lamp enables cultivators to produce BIG FAT Dense Buds, perfect for full-cycle hydroponic, soil, grow tent/grow room. Dimmable Commercial Grow Light: Cost-efficient, easy dimming & daisy chain With a max up to 20 lights, IP65 Waterproof, master light easily controls the rest. Perfect for commercial & home horticulture. FC4800 LED GROW LIGHT: GET THE MAX FROM MARS👍: Welcome one of  the newest members of the Mars Hydro family🤜🤛🤘. The Mars Hydro FC 4800 480W LED Grow Light can accommodate up to a 4' x 4' area for flowering. It has OVER 2000 LED chips consisting of the best selling Samsung LM301B diodes which has a Luminous Efficacy of: 220 lm/W 0.2 W, 3 V mid power, Osram 660nm Diodes, Infrared light and UV LIGHT👍. It boasts the incredible efficiency of 2.8 µmol/J, maximum 2.5gram yield per watt with 30% higher Average PPFD. This High-intensity spectrum is beneficial for plants at all stages - from veg to bloom, and creates Big dense Buds👍. achieve 50% higher yields & quality compared with the old lights! Only consumes 480W for 4x4ft personal grows, and 3x3ft for commerical grow. It comes with a dimmer and daisy chain function with a  maximum of up to 15 lights, the master light controls the rest👍. Wide 6-bar design offers even & wide canopy coverage and can maximizes your grow space. slim 180° FOLDABLE DESIGN... YES I SAID FOLDABLE🤘🤣 , making it compact and easy to install, it's IP65 WATERPROOF and will give you no worries while growing in a humid environment and makes it a flexible high performance commercial grow light for enormous  SUPER FROSTY yields.😛😛😛. MARS GETS EM FROSTY BOYS👍 AWESOME HEAT DISSIPATION: The Low energy consumption FC4800 growing light has 6 passive-cooled bars and an aluminum heat-sink a removable driver  you can upgrade later or have it outside your tent. with zero noise  you can save up to 50% in your electricity bill compared to HID's or HPS lights! It also has a removable driver so you can upgrade it in the future or have it outside your grow space for better heat control in your growroom👍 UPGRADED FULL SPECTRUM: Yield Max Spectrum with enhanced red (Top-Bin Samsung 3000k-5000knm, Osram 660nm Deep Red), speed up blooming & fruiting, perfectly suited for full-cycle growing. The FC4800 LED grow lamp was born for Big Buds, perfect for commercial, grow tent, grow room, hydroponics, and all soil grows.👍 THE BEST SAMSUNG DIODES: THE FC4800 has Top Bin genuine Samsung Osram Diodes, combined with remarkable 2.8 µmol/J Efficacy, 30% higher Average PPFD, 50% less energy consumption, to maximize your yields. They give you a TRUSTED 3 years warranty 100% Satisfactory guaranteed!!! X2 TSW2000 LED GROW LIGHT: INCREASE YIELD AND CROP QUALITY WITH MARS HYDRO LED GROW LIGHTS: NEWEST SMD LED technology provides the highest PAR/LUMEN output (1122umol@18") and can make you get 30% higher yield compared to OLD blurple led lights.  Max 2.5g yield per wattage and achieve maximum quality and quantity, much better than traditional HPS grow systems LOW ENERGY CONSUMPTION LED GROW LIGHT: Consuming only 300W true output with 684 LEDS! It saves up to 50% energy than other led grow lights. Perfect for 3.5x3.5ft bloom stage, 4x4ft veg stage. Over 90% light energy can be absorbed by plants, it will have higher intensity in a MARS HYDRO grow tent with diamond design mylar, or by crossing over using multiple TSW2000 HIGH EFFICIENCY FULL SPECTRUM INDOOR GROW: 3000K 5000K and IR 660nm 760nm RED, makes it close to natural light, highly engineered to provide improved growing performance for plants at all stages of growing, rapid plant response from seed to flower; Uniform and wide-beam light distribution for your plant's optimal growth 8x8 & 5X5 GROW TENT: The MARS HYDRO 8x8 and 5x5 Grow Tent interior is made of a unique diamond design mylar which is highly reflective. (Other companies mylar and reflective rate is as low as 50%, and it won't provide efficient light. They use thick 1680D oxford canvas, and being double stitched, it is tear proof and perfect for locking in the light. Their grow tent keeps 100% of the light inside the tent and helps your plants absorb more light. EXTRA-THICK material means No light leaks or rips at all.👍 Strong Stable metal corner adapters and poles are the trustful supporters of the tent. It's very sturdy, neither rusting or paint flaking off. quick and easy tool-free setup. They use heavy-duty metal zippers, with double layer black lining, by far the best on the market which creates a light-proof seal. 6" INLINE FAN WITH DIGITAL TEMP/HUMIDITY CONTROL Mars Hydro 6'' Inline Fan uses a mixed-flow design to maintain peak performance in a high static pressure environment. GROW TENT FAN: MARS HYDRO inline fans are designed to ventilate hydroponic grow rooms, transfer heating/cooling, cool AV closets, and exhaust odors. EFFECTIVE VENTILATION: Variable speed controller for easy fan speed adjustment. Optimal ventilation for your planting. LOW NOISE LEVEL: Durable plastic fan housing and blades for extremely low noise(32dB-A); create a truly quiet growth environment. EASY INSTALLATION: Removable duct ends with locking tabs for quick removal and easy maintenance and a cord length of 4.9 feet for hassle-free setup. This grows tent fan with a controller for easy fan speed adjustment. BASIC PARAMETERS: Ventilation exhaust fan size: 6” | Dimensions: 315mm*225mm*210mm. | Weight: 2.7. | Airflow: 402CFM | Noise: 32dB-A | Bearings: Dual Ball. 

End of week 4 of flower Looking very healthy She is so sticky and smells amazing One in shared pot exactly the same Roll on next 4 weeks STAY SAFE EVERYONE!

☘️19/07 - A la semilla la hidrate por 24hs, utilicé el método que BSF recomienda. ☘️20/07 - Puse la semilla en papel húmedo para que brote. ☘️21/07 - Ya brotó, creció 2cm aprox y la mandé directo a una maceta Root House de 3L. En una o dos semanas ya la voy a estar trasplantando a una maceta Root House de 10L. ☘️Ahora tengo que esperar que brote así ya empiezo a darle el estimulador de raíz. ☘️Voy a dejarla dos semanas en etapa de enraizamiento para que se preparen bien las raíces, tres semanas en crecimiento ya que es una semilla Faster y BSF me recomendó que tenga esas semanas y seis semanas en etapa de flora. ☘️23/07 - Ya brotó la plantula. ☘️26/07 - Le agregue 0.5ml de Deeper Underground y el 02/08 le voy agregar 0.5ml más para ya finalizar con la etapa de enraizamiento y ya poder transplantarla. ☘️30/07 - Cumple 10 días de vida. ☘️02/08 - Le agregue 0,5ml de Deeper Underground. ☘️07/08 - Voy a transplantarla a una maceta de 10L, así ya el miércoles 9 entra en etapa de crecimiento. ☘️En estos dias seguire subiendo mas imagenes de como viene. 🍀😶‍🌫️🇦🇷Podes seguirme en Instagram como @bruweed_arg 🍀😶‍🌫️🇦🇷

I have to dry the buds in the dark, at 21 degrees in 50% humidity 🤘