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Higher humidity forced me to harvest early with Some bud rot Very sweet almost sour tangerine smell Got in my room drying in a brown paper bag in about 73 degrees and 52% humidity
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@russrahl
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Going good so far, end of week 2 and roots are hitting the water on all plant. Topped 3 of 4 Plants at 5th node And the last one is a bit smaller so we will wait a few days to top it still. Changed the water in the system at end of week 2 and added Remo lineup at 3/4 strength along side UC Roots at 5ml/gal.
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@valiotoro
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I’m in love with the straw gorilla 😍🤩🍓 All the top buds ready✂️ The colors & the smell pouaaah out of this world !! One more week for the lower buds and finito bye bye
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This lady’s on the end ! Only water starts tomorrow! I’ll flush it hard to get a smooooooth smoke !
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UPDATE: 1-29-18 The GSC are definitely AUTOS. Just added a new fan. Bought a Spectrum King 140W and just moved it in as it's going to be my main FLOWER light.
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I'm finaly able to check in on her again. ### Day 9 ### She is looking good, a little short, but that should turn out alright. The humidity was only 30%, so I tried to raise it by spraying the walls of the bucket and adding a damp sponge. Watered her with 0.5l ph'd water and also lowered the light again to 40cm from the plant. ### Day 10 ### Looks like she is developing another set of leaves, keep it up girl! 👌Humidity is still not really on point, the sponge doesn't seem to help. Decided to cook some water and put the water cooker next to the vent, hopefully this is a solution. ### Day 11 ### Growing steadily, the new set of leaves are showing more clearly today. The water cooking seem to have some effect, but sadly it doesn't last long, maybe I should look for an air humidifier. ### Day 12 ### Decided to pull the trigger on an air humidifier. Because my grow space is naturally stabilizing to 30%, I don't really need a dehumidifier. This is a lot better then cooking water every few hours! 😛 ### Day 13 ### I will be away again till day 17. I gave her 0.6l of water with her first batch of food and then put 0.25l ph'ed water in the dipper so that she won't dry out. Also noticed that when the humidity was 65% her leaves where a little droopy and now at 50% they look ok. Will try to keep it at 55% while I'm away.
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ok so i totally forget to keep track of the dates for this website..lol the plant is well on its way to being done. buds are taking forever to get any weight to them ... but the smell is wonderful. i dont know if its the light that is not lettin them get as fat as i want or not ... we shall see
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@RFarm21
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Semana 8 ( 3 Dezembro - 9dezembro) Alimentada dia 5 dezembro Runoff EC: 1.56/ pH: 6.5 9dezembro - regada com 1l de água. pH 6.0 Runoff pH 5.9/ EC: 0.65 Esta foi a planta mais afetada com a defeciencia de nitrogênio/cálcio ( também é a única das 4 que não é ideal para um clima mais frio), muitas folhas ficaram super amarelas e tive de as cortar.. espero que se aguente bem até ao fim e que o yield final não seja muito prejudicado 🙄😏 Sintam-se à vontade para me ajudar ehehe
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Bonjour à tous les padawans et maîtres jedis Stretch plus 5 centimètres (mais où va t'elle s'arrêter ?) Jour77 arrosage avec 2 litres d'eau ph6. 3 Jour80 defoliation pour que les buds puissent prendre la lumière, j'ajoute en griffant la terre 3 grammes de feeding biobloom @greenhouse et j'arrose avec 2 litres d'eau ph6.3
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My oldest girl had her flush this week and its about time for her to finish up. I will continue the journal for my 2nd oldest so stay tuned!
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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.
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**Encontrarás la traducción a español al final de la descripción** From/Desde: 22/02/19 || To/Hasta: 28/02/19 From day/Desde día: 1 || To day/Hasta día: 7 -----INTRO----- Hi Buds!!, this is my new diary, the first i made while growing, as the other diaries i have were made close or after harvest. This is my second indoor grow, you can check my first indoor grow here (Auto BlueBerry Mazar x4): - https://growdiaries.com/diaries/24700-auto-bbmazar-x-4-1rst-indoor-60-to-90 Also i have a couple of diaries of an outdoor grow series (my first grow experience) that i made this summer, there you will find Lemon Zkittle, Think Big, Auto GlueBerry, Critical + 2.0 Auto, Auto Girl Scout Cookies & Auto Mazar (some are in progress and some are to come), check my user page if you are interested: https://growdiaries.com/grower/abducted. This time i'm going to grow 2 different Feminized Strains, 2 x Gorilla Glue @Dinafem & 2 x Money Maker @StrainHunters, i will make separate diaries as suggested by @GrowDiaries. You can find the Money Maker Diary here: https://growdiaries.com/diaries/25667-gorillamakingmoney-gorilla-vs-money-m My expectations inspired by @TOTEM awesome Man-Linning Dr. Grinspoon plant (https://growdiaries.com/diaries/18090-dr-grinspoon-by-totem) are to try to perform a small Man-lining in both plants or in one of them, i'm still guessing. I'n not trying to reach the kind of monster TOTEM has, as i don't have equipment nor even place. Also i want a max 3,5 months grow, so i'm planning 4 or 5 weeks of growing, and my pots are just 8l, but i want to see where i reach with a feminized strain and with the equipment i have, trying to apply technics for first time. I just LST'ed a Lemon Zkittle, but i wasn't a really LST. -----IMAGES & VIDEOS----- Photo 1: Seeds stocked from summer Video 5: Timelapsed planting non germinated seeds Photo 9: Somangos at back, they've grown almost wild outdoors, tomorrow (02/03/19) i will harvest them. You can see the first weeks of that Somangos in this diary (weeks 1 to 7): https://growdiaries.com/diaries/24700-auto-bbmazar-x-4-1rst-indoor-60-to-90 Video 16: Timelapsed transplantation -----WEEK SUMMARY----- This week is the setting up medium week, the day 21 (22 already as were 4:40 a.m.) i prepared small pots with soil as seen on images and videos and buried the seeds at about 1 cm deep, in this case 2 Gorillas and 2 Money Makers. After buried i irrigated the pots with 2 syringes of 60 ml on each. And put them under a 50W Led (pink/purple light), you can see the process in video 5. The first gorilla (A.Gorilla) showed itself few minutes past day 23, the day 24 at about 00:00, the second Gorilla (B.Gorilla) emerged the same day 24 at 15:44, the first Money Maker (B. Money) appeared the day 24 between 23:30 & 00:00 and the last money (A.Money) appeared the day 25 at 13:50. The day 28 i transplanted the babies to 8 l pots (Root Poch), you can see the process in video 16. -----WATERING CALENDAR----- 22/02/19 - 120 ml with all week nutrients @ 0.4~0.5 E.C. PH5.5 24/02/19 - 10 ml with all week nutrients @ 0.4~0.5 E.C. PH5.5 (over buried seed) 28/02/19 - 1.500 ml with all week nutrients @ 0.4~0.5 E.C. PH5.5 (Setting up the 8l pot) *****ESPAÑOL***** **Encontrarás la traducción a español al final de la descripción** From/Desde: 22/02/19 || To/Hasta: 28/02/19 From day/Desde día: 1 || To day/Hasta día: 7 -----INTRO----- ¡Muy buenas compañeros!, este es nuevo diario, el primero que seguiré mientras se desarrolla la plantación, ya que los demás que he escrito lo he hecho con la cosecha a punto o ya realizada. Esta es mi segunda experiencia indoor, podéis ver la primera en este diario (Auto BlueBerry Mazar x4): - https://growdiaries.com/diaries/24700-auto-bbmazar-x-4-1rst-indoor-60-to-90 También tengo unos cuantos diarios que forman una serie de cultivos correspondientes a lo que he plantado este verano, que ha sido mi primera experiencia. En ellos encontrarás las genéticas Lemon Zkittle, Think Big, Auto GlueBerry, Critical + 2.0 Auto, Auto Girl Scout Cookies y Auto Mazar (unos los estoy desarrollando ahora mismo y otros están por venir), si están interesado visita mi página de GrowDiaries: https://growdiaries.com/grower/abducted. Esta vez voy a crecer 2 genéticas feminizadas diferentes, 2 Gorilla Glue de @Dinafem y 2 Money Maker de @StrainHunters, haré diarios separados como recomienda @GrowDiaries. Podéis encontrar el diario de las Money Maker aquí: https://growdiaries.com/diaries/25667-gorillamakingmoney-gorilla-vs-money-m Mis expectativas para este cultivo son introducirme en alguna técnicas de cultivo, inspirado por la increíble Dr.Grinspoon de @TOTEM alineada desde el principio (https://growdiaries.com/diaries/18090-dr-grinspoon-by-totem). Voy a intentar hacer una alineación principal pequeña en una de las plantas o en ambas, aún estoy decidiéndome. Por supuesto no voy a intentar crear un monstruo como el de TOTEM, pues no tengo ni el espacio ni el equipo adecuados, además de que quiero que el cultivo no me sobrepase los 3 meses y medio, por lo que planeo hacer 4 o 5 semanas de crecimiento únicamente, también está el hecho de que mis tiestos son de 8 litros que no es demasiado, por lo que quiero ver hasta donde llego con una genética feminizada y el equipo que tengo, intentando aplicar las técnicas de cultivo principales por primera vez. Este verano le hice LST a una Lemon Zkittle, pero no fue un LST verdadero. -----IMAGENES & VÍDEOS----- Foto 1: Mi stock de semillas desde verano Vídeo 5: Plantando las semillas en TimeLapse Foto 9: En el fondo unas Somangos, han crecido medio salvajes en exteriores, mañana (02/03/19) haré la cosecha. Podéis ver las primeras semanas de estas Somangos en las 7 primeras semanas de este diario: https://growdiaries.com/diaries/24700-auto-bbmazar-x-4-1rst-indoor-60-to-90 Vídeo 16: Transplante en TimeLapse -----SUMARIO SEMANAL----- Esta semana es la de configuración del entorno de cultivo, el día 21 (22 ya pues eran las 4:40 a.m.), preparé unos tiestos pequeños con tierra como se ve en las imágenes y vídeos, y planté las semillas a aproximadamente 1 cm de profundidad, en este caso 2 semillas Gorilla y 2 Money Makers. Después de plantar las semillas regué los tiestos echando 2 jeringas de 60 ml en cada uno. Después dejé los tiestos bajo un foco led de 50W (rosa/morado), podéis ver este proceso en el vídeo 5. la primera Gorilla (A.Gorilla) apareció unos minutos pasado el día 23, el 24 a las 00:00 +/-, la segunda Gorilla (B.Gorilla), salió el mismo día a las 15:44, la primera Money Maker en aparecer (B.Money) apareció también el día 24 entre las 23:30 y las 00:00 y la última que pareció fue la otra money (A.Money) el día 25 a las 13:50 El día 28 transplanté a lso tiestos definitivos de 8l de la marca (Root Poch), podéis ver el proceso en el vídeo 16. -----CALENDARIO DE RIEGO----- 22/02/19 - 120 ml con todos los nutrientes semanales @ 0.4~0.5 E.C. PH5.5 24/02/19 - 10 ml con todos los nutrientes semanales @ 0.4~0.5 E.C. PH5.5 (sobre las semillas) 28/02/19 - 1.500 ml con todos los nutrientes semanales @ 0.4~0.5 E.C. PH5.5 (regado inicial del tiesto de 8l)
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I have a new light with a bloom setting hopefully that will make a nice flowering. Got a new fan for air circulation. The new light has cooling fans. Haven't noticed any burns so im happy with my order. If you look at the last few pictures my tent is home made and cheap very cheap. The lights not an expensive one but I think its fine for now.
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Dear Growers , Welcome to Flower Week 8-9 Day 56-63 from Flowering , we’re excited to share a very special project with you: NARCOS SEEDS Kingping Kush . With dedication, knowledge, and hands-on practice, we’ll guide you step by step through the journey—watch with us as growth, development, and small wonders unfold before your eyes. Whether you're a beginner or an expert, you are warmly invited to join, ask questions, and share your own experiences along the way! Project Setup & Conditions: • Brand/Manufacturer: Narcos Seeds • Tent: 222cmx150cmx150cm • Light: 2x 720 Watt Full Spectrum • Humidity: 40% • Soil: Narcos Organix Mix • Nutrients: Narcos Products • pH Value: 5.6 A Special Thanks To Narcos Seeds for the amazing collaboration, trust, and generous support in making this project possible. Your contribution is truly appreciated! Congratulations on Your Own Projects! We celebrate your growth, your creativity, and the passion you bring to the table. It’s truly inspiring to witness at Each visit . Stay curious and keep up Growing —we look forward to welcoming you back for the next chapter soon!
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Day 1 — Monday 9/15/25. Installed a timer on a 12/12 cycle finally taking this girl out of 24 hours light schedule . Because it’s day1 of flower I also gave her a full strength feed of flower nutrients which includes my new organic foop, stash, & incredible bulk . That’s 95ml per gallon of water plus 1/2 tsp of stash and 1/4 tsp of incredible bulk . She looks hungry hopefully this doesn’t overdo her . I’m thinking she still needs some “grow” nutes for these first 2 weeks atleast but I’m going to see how she responds to this strictly flower feed to make sure I haven’t overdone it . I’ve moved the clones out the tent & cleaned out the crud in the humidifier since I stopped using purified water it gets build up . That branch I tried taking back together has died ! Can’t save em all I only hate it bc it’s from the ONLY branch that regrew from that one half of my plant it’s near dead state . This 5x5 plant is only 1/2 of a plant trained to cover my tent’s entirety meaning if I had the other half I’d have a 5x10 plant . I’m I dunno how long this girls is supposed to flower for . . 8 weeks ? 10 weeks ? 12 weeks ? I’ll need to find that out to adjust my feeding and light intensity accordingly . It’s been FUN but now it’s time to get to the FUNNEST part ! The Bud! Day2 flower 9/16/25 completed our HEAVY DEFOLIATION. Got about 93% of it out of there I’d say there’s about 7% more I want to get out of there . These next 3 weeks are the last times I’ll be able to pull leaves before these too many trichomes to not glue your fingers/tools together . Shes look crazy as she always does when I strip her back but her bones are great . I broke another branch today while defoliating and trying to better spread out the canopy for coverage . I’m undecided will I scrap the clone projects as I do not feel like slapping together another make shift setup for lighting purposes and I don’t want to let them get leggy between nodes before I decide what I want to do with them . I may hate this bud and not want to grow out the clones . I may love the bud and be thanking myself I made these clones . I dunno viewers choice ! What do we do with the clones during flower??? Comment below Lights out begins at 6:50pm she stays dark for 12 hours . Humidifiers refilled shes coasting into sweet dreams . Looking online quickly it says she flowers 8-10 weeks so that doesn’t really help me gauge when to stop feeding & when to start flushing so I’ll keep looking for more definite answers . Day #3 flower 9/17 woke up to check in plant and make sure light was on. I found that one of the circulatory fans had fallen knocking down the tent camera! This particular fan is a wall Mount fan not made to be attached to a pole however through sheer tenacity & jerryrigging is there a fan with substantial circulatory capabilities in my tent for a reasonable price! Sooo I jerry- rigged it up again this morning in a slightly different manner using most of the original materials. The negative pressure in my tent with it fully sealed for the day cycle caused the fan to push on the “jerry-rigged” setup causing it to slide down about 16inhes. I’ve reinforced a stopping point just like last time but with far more girth than the last . Fingers crossed this makes it to the end of flower & remains as my circulation configuration because paying for a 4”. 6” or even 8” clip on fan is just ludicrous Happy Growing ! Give us a like
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👉Alrighty Then👈 So we are at DAY 42 of Flowering with the Sugar Larry 👈 And she's doing fantastic 👍shes finally done with her stretching 👌 and building Budz 👈 😀 decided to showcase pheno #2 , definitely has different traits then #1 very interesting 😀 thoe both are killing it 👈 Hedgehogs in full bloom 👈 I did a major strip , defolation is complete 👌 Except for some slight watering , ive been doing some defolation as well as some LST manipulation to pull branches to the side 👌 👉I had to Top her during the middle of 4th week 👍 Happy Growing 👉Soil Provided by ProMix.ca 👉Nutrients Provided by Agrogardens 👉Lighting Provided by MarsHydro.ca Thanks my friends for the great support over the years 🙏 Happy Growing
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Now its start of week 6 and i start the superlumen. 660w
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cada dia mas glotonas mis bellas, estoy aplicando riego casi día por medio, solo una vez a la semana las abono, el resto solo con agua. hice algunos amarres a los tutores ya que están en pleno crecimiento
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