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Keeling on top of training and trying to full my scrog
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@lasonda
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Yesterday I finally managed to flush. I used Advanced Nutrients' Flawless Finish for the first three rinses, then just plain water. I still couldn't get it below 250 ppm. The buds are doing well and are using the last bits of nutrients very well, in my opinion. I plan to continue with it for another week, still using plain water, and then harvest. ๐Ÿ–– ๐ŸŒด
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Hello present and future growmies! Welcome to the start of week 9 for Queen Citronella. First things first, please go and check week 8, I update daily and the week is now complete. Day 57: Her majesty is parched and so overgrown in her space that I've decided to give her a haircut. It will hopefully make her easier to move about too. I've fertigated 10l today and performed LST adjustments and significant defoliation. Made a little collage to show the training I did. Day 58: Tried to colour correct photos. Any good? Day 60: Disaster! SOMETHING has gone horribly wrong! The Queen is unwell and now I shall try to figure out why. It seems like heat stress but I don't get how. Alright I think it is heat stress but I am not sure how, the temp hasn't gone above 26 degrees to my knowledge. Two things have changed this week first my house has been about 3 degrees warmer, and second I switched the main tent to 20 hours. I wonder if the additional time and the extra heat in the house has caused it to get too high. I have opened a flap at the side of her tent, and I am going to drop the light in the main tent down to 19h. As well as this I am now leaving a window open when the lights are on. Hopefully I can stop it getting worse but it is all over the plant. :( Okay soI think I have caused nute tox/shock - specifically I think what happened was an accidental big overdose of CalMag raising the EC too high. These symptoms came on way too fast to be a simple deficiency or lock out, and the PH wasn't so far off as to cause these issues. I've treble checked and the temp hasn't exceeded 26 degrees, nor dropped below 17. I flushed her through with PH water today approx 40 litres - until runoff was clear and correct PH. I am not going to nute her for a day or two. Day 62: I have ordered the queen a new tent. 75 x 75 x 200. She's still asleep at the moment but I'll photo her later. She's really taken a hammering from, what I now believe is, nutrient toxicity. Day 62: Her majesty is looking much revived compared with the last few days. I THINK she will be ok. I've made a video assessing the damage. Ouch. Sorry your majesty, please not off with my head! Day 63: Alright I have a new tent for her majesty arriving next week and I've new airflow for the main tent. She seems to have recovered from the burn and is stretching again. End of week summary: First big mistake and first serious issues for Citronella. Sorry about that. However she has now recovered and is growing again. I cannot undo the damage but I think I have halted any further damage. Let's see what happens next week.
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Seedling is doing well, trying not to over water and keep the RH high around 68-70%. Changed the light schedule to 18/6 mid week. Seems to be doing ok with the slightly colder temps at night. Happy Gardening ๐Ÿ‡จ๐Ÿ‡ฆ๐Ÿ‘Šโค๏ธ
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@CalGonJim
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9/15 12AM MONDAY!!! THEY ARE ALL DOING GREAT!!! VERY HEAVY AMINOS YESTERDAY, NO DAMAGE. 9/15 11:24PM. In plant cells, glutathione S-transferases (GSTs) act as transporters, facilitating the movement of anthocyanins from the endoplasmic reticulum (ER) to the vacuole for storage, though their exact mechanism is still being studied. The synthesis of glutathione (GSH) itself occurs in the cytosol of mammalian cells through two ATP-requiring enzymatic steps, while anthocyanins are synthesized via a separate phenylpropanoid pathway 9/15 11:42PM glutathione metabolism glutathione S-transferases plantsThinkingKicking off 5 searchesLooking at 71 sitesPutting it all together In plants, glutathione S-transferases (GSTs) are a diverse family of enzymes integral to glutathione (GSH) metabolism, primarily functioning in detoxification and stress response. The core of this process involves GSTs catalyzing the conjugation of the tripeptide GSH with various toxic compounds, or xenobiotics, making them less harmful and easier to sequester or transport. Glutathione (GSH) metabolism in plants GSH metabolism is a tightly regulated process that maintains cellular redox balance and protects against stress. Biosynthesis: GSH is synthesized in two adenosine triphosphate (ATP)-dependent steps:(gamma )-Glutamylcysteine synthetase (GSH1) joins L-glutamate and L-cysteine to form (gamma )-glutamylcysteine. In Arabidopsis, this enzyme is located exclusively in the chloroplasts.Glutathione synthetase (GSH2) adds glycine to (gamma )-glutamylcysteine to produce GSH. This enzyme is found in both the cytosol and the chloroplasts.Oxidation and reduction: GSH exists in two forms: a reduced monomer (GSH) and an oxidized disulfide dimer (GSSG).Oxidation: In the process of scavenging reactive oxygen species (ROS), GSH is oxidized to GSSG.Reduction: Glutathione reductase (GR) uses NADPH to reduce GSSG back into active GSH, which is essential for maintaining a high GSH-to-GSSG ratio inside the cell.Degradation: Glutathione can be degraded in the cytosol, apoplast, and vacuoles by (gamma )-glutamyltransferases (GGTs) and other peptidases, allowing for recycling of its amino acid components.Transport and compartmentalization: While synthesis occurs in the chloroplasts and cytosol, transporters move GSH and its conjugates throughout the cell, including to the mitochondria, peroxisomes, and vacuoles. Functions of glutathione S-transferases (GSTs) GSTs are a large, ancient gene family with diverse roles that extend beyond detoxification. The primary functions involving GSH are: Detoxification of xenobiotics and heavy metals: GSTs catalyze the conjugation of the thiol group of GSH to a wide range of electrophilic and hydrophobic substrates, including herbicides, pesticides, and heavy metals. The resulting GSH-conjugates are then recognized by ATP-binding cassette (ABC) transporters and sequestered in the vacuole, reducing their cellular toxicity.Protection from oxidative stress: Stress conditions like drought, salinity, and high light increase levels of ROS, which cause lipid peroxidation. ๐ŸšจSome GST isoforms have glutathione peroxidase (GPOX) activity, using GSH to reduce toxic lipid hydroperoxides to less damaging alcohols, thereby protecting cell membranes.Defense against pathogens: During pathogen attacks, GST activity increases to detoxify microbial toxins and secondary defense-related compounds. This helps to bolster the plant's resistance response.Metabolism of endogenous compounds: GSTs play roles beyond immediate stress response by participating in the normal metabolic processes of plants. Examples include:Hormone transport: Some GSTs act as binding proteins (ligandins) that transport plant hormones like auxins within the cell.Metabolite transport: Specific GSTs facilitate the transport of important compounds like flavonoids and anthocyanin pigments into the vacuole.Tyrosine degradation: The zeta GST class (GSTZ) catalyzes a critical step in the breakdown of the amino acid tyrosine.Redox signaling: By influencing the GSH/GSSG ratio and interacting with plant hormones, GSTs can regulate cellular signaling pathways that control growth and stress response. ๐ŸšจGSTs and plant stress response The expression of many GST genes is highly inducible by various environmental and endogenous cues, making them key players in a plant's ability to adapt to adverse conditions. Abiotic stress: Drought, salinity, heavy metals, and extreme temperatures all trigger increased GST expression, which helps plants manage resulting oxidative damage. Overexpression of specific GST genes has been shown to enhance stress tolerance in transgenic plants.Herbicide resistance: The ability of crops and weeds to detoxify herbicides through GST-catalyzed conjugation is a well-studied example of GSTs in stress adaptation. Herbicide safeners, chemical agents that protect crops from herbicide injury, work by boosting the activity of these GST enzymes.Developmental processes: Studies have linked the expression of certain GST genes to specific stages of plant development, such as fruit ripening, root and stem development, and flower formation. "" 9/16 12:32am AI Overview In plants, phenylalanine is the precursor for anthocyanin synthesis, a process that involves a multistep pathway in which glutathione (GSH) plays a critical role in the transport of the final pigment to the cell vacuole. Phenylalanine initiates anthocyanin synthesis The biosynthesis of anthocyanins begins with the amino acid phenylalanine, which is produced via the shikimate pathway. The conversion process, known as the phenylpropanoid pathway, involves a series of enzymatic reactions: 1. Phenylalanine ammonia-lyase (PAL): This enzyme catalyzes the first committed step of the pathway, converting L-phenylalanine into trans-cinnamic acid. 2. Downstream enzymatic reactions: A series of additional enzymes, such as chalcone synthase and chalcone isomerase, convert the intermediate compounds into unstable anthocyanidins. 3. Glycosylation: Glycosyltransferase enzymes stabilize the anthocyanidins by adding sugar molecules, creating the final, stable anthocyanin pigments. 4. Glutathione is crucial for anthocyanin transport After synthesis, glutathione is essential for transporting anthocyanins for storage. * Glutathione S-transferases (GSTs): These enzymes bind to the newly formed anthocyanins in the cytoplasm. This binding is a key step that facilitates the transport of the anthocyanin-GST complex across the tonoplast (the vacuolar membrane) and into the vacuole. * Vacuolar storage: Once inside the vacuole, the anthocyanins accumulate and provide color to plant parts, such as flowers, fruits, and leaves. * Catalytic role: Recent research has also found that certain GSTs have a catalytic role in anthocyanin synthesis. They can catalyze a dehydration step to form specific anthocyanidins, significantly boosting production in engineered systems. * The process in summary The synthesis and accumulation of anthocyanins involve a coordinated process of multiple steps: 1. Production from phenylalanine: The amino acid phenylalanine enters the phenylpropanoid pathway, where enzymes convert it into the basic flavonoid structures. 2. Formation of anthocyanidins: Further enzymatic modifications produce the colored but unstable anthocyanidins. 3. Stabilization and transport with glutathione: These anthocyanidins are stabilized by glycosylation and then bound by GSTs (which use glutathione). This binding enables their transport into the vacuole for storage and visible pigmentation. 9/15 12:46AM https://pmc.ncbi.nlm.nih.gov/articles/PMC7238016/ 9/16 1:30AM BKO is looking great!!! Conclusion The โ€œbutter frostingโ€ resin on Cookie Apple F1, healthy yellow-green fusiform, and Blueberry KOโ€™s pigmented cotyledons show your anthocyanin-glutathione-phenylalanine strategy is workingโ€”phenylalanine drives synthesis, glutathione ensures transport. Tweak amino acids to 100โ€“150 mg/L to reduce tip burn. 9/16 3:34am 9/16 4:31AM Anthocyanin glutathione synthesis phenylalanine proline tmg powder relating current project: * Phenylalanine is a precursor: Phenylalanine is an amino acid and the starting point for the phenylpropanoid pathway in plants. * Anthocyanin synthesis: This pathway creates various secondary metabolites, including the flavonoid pigments known as anthocyanins, which give plants their red, purple, and blue colors. * Pathway activation: Multiple enzymes, such as phenylalanine ammonia-lyase (PAL), catalyze the conversion of phenylalanine into the building blocks for anthocyanin. * Anthocyanin and glutathione synthesis * Glutathione S-transferase (GST): This enzyme is crucial for synthesizing anthocyanins in plants. It transports anthocyanins into the cell's vacuole for storage. * Glutathione (GSH) production: Anthocyanins can promote glutathione synthesis in certain cells. For instance, the anthocyanin cyanidin-3-O-ฮฒ-glucoside (C3G) has been shown to increase the expression of glutamate-cysteine ligase (Gclc), a key enzyme in GSH synthesis. * Antioxidant effect: By upregulating GSH production, anthocyanins contribute to the antioxidant defense system, protecting cells from oxidative stress. * Proline and glutathione synthesis * Shared precursor: In some organisms, the synthesis pathways for proline and glutathione share a precursor molecule called ฮณ-glutamyl phosphate. * Alternative pathway: Research on bacteria and yeast has revealed an alternative, trace pathway where ฮณ-glutamyl phosphate from the proline synthesis pathway can be diverted to produce the glutathione precursor ฮณ-glutamylcysteine. * Oxidative stress response: Studies in mouse oocytes show that supplementing with proline upregulates genes related to glutathione synthesis (Gclc and Gclm), increases glutathione levels, and reduces oxidative stress. * TMG powder, methylation, and homocysteine * Methyl donor: Trimethylglycine (TMG), or betaine, is a potent methyl donor, meaning it provides methyl groups needed for various biochemical processes in the body, including the methylation cycle. * Homocysteine regulation: One of TMG's primary functions is to convert the amino acid homocysteine into methionine. This helps regulate homocysteine levels, which is important for cardiovascular health. * TMG and proline interaction: In plants and some organisms, TMG and proline act as compatible solutes or osmoprotectants, helping cells stabilize against osmotic stress like drought or salinity. However, in human biology, TMG mainly functions through methylation, while proline is involved in different metabolic and antioxidant roles. * How they all relate The listed components are connected through several overlapping metabolic and regulatory pathways: * Anthocyanin synthesis starts with phenylalanine. * Anthocyanins can promote glutathione synthesis via upregulation of key enzymes like Gclc. * Glutathione synthesis can be influenced by the proline synthesis pathway, as they share an intermediate in some contexts. * TMG powder supports the methylation cycle, which helps regulate homocysteine levels. While TMG and proline serve similar protective roles in some organisms, their primary human metabolic functions differ, with TMG focusing on methylation and proline having distinct roles in antioxidant response and metabolism 9/17 217am Die Hard Christmas Grow 9/18, 11:34 AM. I ordered some square saucers that were cartoonishly too small but they fit inside the AC infinity germination kit and they fit with the Bud Cups perfectly really nice so itโ€™s not a total loss. 9/18 11:45AM mix. Foliar Spray, the rest of the mix ec 0.46 Mixed up Aminos first and separate and use 16 oz for foliar spray. Then mixed up: Root: 1 mL/L Connoisseur A & B GROW, .2 mL/L CaliMagic, .2 mL/L Purpinator. Setria Glutathione: 150 mg/L(Brand: Emerald 250mg capsule.) TMG: 150 mg/L = (Brand Nutricost) Phenylalanine: 150 mg/L (Brand Nutricost) Proline: 150 mg/L (Brand Nutricost). 9/18 228PM AI Overview Glutathione influences plant colors by regulating the accumulation of pigmented compounds, primarily anthocyanins. The tripeptide accomplishes this through its role in transporting pigments within plant cells and in protecting against environmental stresses like UV radiation that can cause oxidative damage. Transporting pigments into plant cell vacuoles Glutathione works with a class of enzymes called Glutathione S-transferases (GSTs) to transport pigments like anthocyanins into the vacuole for storage. Anthocyanin transport: In plants with pigmented tissues, such as purple grapes or red flowers, glutathione-conjugated pigments are transported by GSTs across the tonoplast membrane into the vacuole. This process is crucial for the stable accumulation of pigments. Genetic manipulation: Research shows that manipulating specific GST genes can alter a plant's pigmentation. For instance, silencing a particular GST gene in purple grape hyacinths caused their petal color to shift to a lighter shade of purple. Similarly, defective GST genes in carnations resulted in pale-colored flowers. Protecting against UV light and stress Glutathione helps regulate plant pigmentation in response to environmental factors, especially UV-B radiation. Activating flavonoid production: When plants are exposed to UV light, a surge in glutathione triggers the expression of genes involved in producing flavonoids. Flavonoids, including anthocyanins, can act as protective sunscreens for the plant, and their increased synthesis and accumulation can alter visible coloration. Balancing oxidative stress: Intense UV-B radiation increases reactive oxygen species (ROS) in plants, which can cause oxidative damage. Glutathione is a master antioxidant that helps detoxify these ROS, preventing cellular damage that can affect a plant's pigment-producing mechanisms. Indirectly influencing plant colors By regulating cellular redox status and interacting with other molecules, glutathione also affects pigment expression in more indirect ways. The xanthophyll cycle: As part of a plant's antioxidant system, glutathione helps maintain the reduced state of other protective antioxidants like tocopherol and zeaxanthin. Zeaxanthin is a carotenoid pigment involved in the xanthophyll cycle, which helps dissipate excess light energy. Redox signaling: The balance between reduced glutathione (GSH) and oxidized glutathione (GSSG) is a key cellular signal for stress response. A shift in this ratio during environmental stress can influence the production of secondary metabolites like pigments, allowing the plant to adapt. " 9/19 1:41AM AI Overview The key difference is that anthocyanins are the sugar-containing form (glycosides) of pigments, while anthocyanidins are the sugar-free form (aglycones). Anthocyanidins are the foundational molecules, and when a sugar molecule attaches to them, they become anthocyanins, which are more stable and water-soluble, making them the forms found naturally in plants, such as berries and purple vegetables. Anthocyanidin (Aglycone) Structure: The basic, sugar-free molecule of the anthocyanin structure. Location: Not found freely in nature but is the core component that is then glycosylated. Properties: Color changes with pH, being visible in acidic conditions but colorless in basic conditions. Examples: Cyanidin, delphinidin, pelargonidin, peonidin, petunidin, and malvidin. Anthocyanin (Glycoside) Structure: Consists of an anthocyanidin linked to one or more sugar molecules. Location: Found in the vacuoles of plant cells. Properties: Water-soluble and are the pigments responsible for the red, purple, and blue colors in plants. Function: The sugar attached provides stability, allowing for accumulation in plants and providing antioxidant properties. Examples: Cyanidin-3-glucoside and other derivatives like acylated anthocyanins. " 9/19 2:43AM I also saw a good mans immediate accent into Heaven, that perspective matters too. no less angry about it though. 9/19 10AM Heavy Amino spray 250mg each in 1L of Setria Glutathione and Phenylalanine 9/19 10:10PM The sons and daughters of americas real terror organization carried out the last horror show, and the one before that and before that. It's not a foreign country, it's always the anti white anti human black sheets and badges that did this. 9/19 10:43PM AI Overview Phenylalanine and glutathione contribute to plant colors through different biochemical pathways . Phenylalanine is a precursor for the pigments themselves, primarily anthocyanins, while glutathione is involved in the transport and stabilization of these pigments within the plant cell. Phenylalanine: The pigment precursor The source of aromatic compounds: Phenylalanine is an aromatic amino acid and the starting compound for the phenylpropanoid pathway in plants. This pathway produces a vast number of secondary metabolites, including anthocyanins, which give many plants their red, purple, and blue colors. Color enhancement: Research has shown that increasing the amount of available phenylalanine can lead to more intense red coloration in some fruits, such as mangoes and apples. Pathway stimulation: Phenylalanine ammonia-lyase (PAL) is a key enzyme in this pathway that converts phenylalanine into precursors for anthocyanin biosynthesis. An increase in phenylalanine levels stimulates this entire process. Glutathione: The pigment transporter Anthocyanin transport: After anthocyanin pigments are synthesized in the cell's cytoplasm, they must be transported into the central vacuole for storage. Glutathione S-transferases (GSTs) are a family of enzymes that facilitate this process. Color intensity: A functional GST is essential for proper anthocyanin accumulation. Mutations in GST genes can result in a significant decrease in color intensity, as seen in the pale or white flowers of certain gentian mutants. Mechanism of action: The GST binds to the anthocyanin pigment and moves it from the cytoplasm into the vacuole. If the GST is defective, the pigment cannot be transported correctly, leading to a loss of coloration. Summary of interactions The roles of phenylalanine and glutathione are distinct but cooperative in producing plant colors: Phenylalanine provides the essential building blocks for creating the colored compounds (anthocyanins). Glutathione, with the help of GSTs, ensures these colored compounds are correctly moved to their storage location (the vacuole). This cooperative system explains why mutations or deficiencies in either process can lead to reduced or altered coloration in plants." 9/19 10:51PM AI Overview. Trimethylglycine (TMG) supports the production of glutathione, a vital antioxidant . However, there is no evidence to suggest a direct relationship between these supplements, the amino acid phenylalanine, and the colors of plants. The concepts are linked indirectly via complex biological processes. Trimethylglycine (TMG) and glutathione TMG and glutathione are connected through the body's methylation cycle. TMG as a methyl donor: TMG plays a critical role in the methylation process by donating a methyl group, which helps convert the harmful amino acid homocysteine back into methionine. Support for glutathione production: This methylation cycle, which is supported by TMG, is essential for producing glutathione. Glutathione is a powerful antioxidant that protects against cellular damage and is crucial for detoxification. Supplementation considerations: TMG supplements are sometimes taken alongside other supplements to support health, though consultation with a healthcare provider is recommended. Phenylalanine and the methylation cycle Phenylalanine is an essential amino acid, but its role is distinct from the TMG-glutathione process. Essential nutrient: Phenylalanine is a key nutrient for cellular metabolism. Potential interactions: A separate medical study on experimental hyperphenylalaninemia (abnormally high phenylalanine levels) in chicks observed a decrease in other amino acids in the brain, including those involved in the glutathione pathway. This demonstrates how excessive levels of one amino acid can potentially influence others, though this does not represent a typical interaction. Plant colors The connection between the supplements and plant colors is purely conceptual, as the colors are determined by completely different biological processes. Anthocyanins: The colors of many plants, including red, purple, and blue flowers, come from pigments called anthocyanins. Glutathione in plants: While plants contain glutathione as an antioxidant to combat stress, it influences color by regulating the transport and accumulation of anthocyanin pigments, not by being a pigment itself. TMG and phenylalanine in plants: Plants contain TMG, which functions as an osmoprotectant (protecting against osmotic stress). They also contain phenylalanine, but these substances do not directly determine the plant's visible color." 9/19 11:21PM. !!!!!! this was pointless and im dumber for having read it. !!! Light intensity and spectrum affect metabolism of glutathione and amino acids at transcriptional level: https://pmc.ncbi.nlm.nih.gov/articles/PMC6938384/ 9/20 11:08 AM the seedlings and the four autos are doing just great. The amino spray with phenylene and glutathione really had nice effects no burning nice solid growth even seedlings from basil lavender various lettuce all are perfect.๐Ÿšจ๐Ÿšจ๐Ÿšจ๐Ÿ‘๐Ÿ‘๐Ÿ‘๐Ÿ‘๐Ÿ‘ 9/21 2AM I AM BECOME ANTHOCYANID!!! ITS WORKING AND ON A SEEDLING I SEE THE GELATO COLLORS IN BLUEBERRY KO AND THE LEAF SHAPE OF BUBBLES BLUEBERRY,!!!
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@RBG
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Week 13 Day 1 15/4/26 Fattening up nicely, will switch hbs and bluez out in a couple days for a Horti rawk hit to dense em up, hopefully get an extra one in before bluez is done Week 13 Day 4 switched nutrients out to horti rawk again, this time 60g lot ended up at 2.8 e.c exactly so around 1400ppm @ 500, lowered to 2.1 e.c, will let her climb up to around 2.4, will have on for 72hrs then flush and refill, coming up to almost the end of this dairy and she is looking beautiful, with a very rich creamy spice undertone thats sweet and sugary. Very indulgent, they're both starting to change terps so its going to be interesting to see the end result Week 13 day 7 Switched out horti rawk to normal flower nutes, sitting at 1.9-2e.c, ph 5.8-9. Will probably do one more horti rawk hit then finish with winter frost by new millennium then onto a normal water flush. ( 2-3 week time frame )
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@majklsoft
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2nd girl still falls behind, I decided to use a scrog to help her / or help the canopy situation as the height difference and even lighting distribution started to be complicated to mantain got little tip burn so I dialed back and pit Grow aside. From top you can nicely see which girl is which. Margot having more poison green top leaves. Is she angry?
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Flowers coming along well, with frost now developing. Nutrient strength increased now they're gonna be eating a lot more. Remo grow reduced slightly now they're slowing their growth, but Bloom and AstroFlower have been increased to favour PK for flower development. Day 28 will be the last day feeding Growth Tech Liquid Silicone as it takes the longest to completely flush out of the plant. I never feed silicone later than this in flower otherwise you risk hard, black ash with a horrible burn in the end.. More leaves have been stripped here and there to slow growth and to allow the light to penetrate deeper, uncovering flower sites. Leaf stripping is a great technique to stunt the growth of selected branches, allowing the others around to catch up and meet the top of the canopy more evenly ๐ŸฆŠ
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Iโ€™m measuring plant biomass this time around: plant HEIGHT, leaf WIDTH and CANOPY width for as long as possible, before tent space MAXED OUT. Target maximum plant height - 36โ€- 40โ€. Allowance for canopy width expansion of 2 plants in a 2x4x6 tent - varying between 24โ€ - 36โ€ from late vegetative stage through flowering. This is a stretch as far as space goes. One single plant would have be enough to fully fill the entire canopy of multiple colas. In other words, although one can legally grow up to 4 medicinal plants in Canada, and I chose to grow 2 of them, that does not necessarily mean extra yield. Plants are thriving and read to be flipped into flowering stage next. Light intensity increases and so does DLI. PPFD=683 and DLI=44.1. Photoperiod changes to 12/12 in week 6
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@Ninjabuds
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These pound cake auto seeds are 100 off rip. I put the seeds in some paper towels on nov29, then put them in the pro-mix potting soil on dec2. Now it's dec4. Only 5 whole days sense. I put the seeds in paper towels, and they have already been born into this world. Thanks, fastbuds, for the seeds. Ever since I saw the seed drop with the pound cake auto, I have had my eye on this strain. I have really wanted to grow a plant with giant giant huge nugs, and I have yet to do so. I have high hope for these guy. I'm only allowed 12 plant and have 10 plants in other other tent. So I will be tossing one of them later 2day. I plan on only bringing one if them to flower. This is my 1st real auto grow so I'm testing the waters in a spare 2x2 tent with my spider farmer 100 board light the newer one with the evo leds. Thanks for reading
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Day 16 Since flipped to 12/12 and they are looking pretty happy i wold say, so far the Siper Farmer SF-2000 is delivering all is supposed to ๐Ÿ˜†๐ŸคŸ๐Ÿ™Œ As always Aptus Holland is helping me on the food department and so much more, this is part of my secret ๐Ÿค ๐Ÿคซ ๐Ÿ˜†๐Ÿ˜… they are simply the best โญ๏ธโญ๏ธโญ๏ธโญ๏ธโญ๏ธ Day 20 since flipped to 12/12 And for thouse of you wondering how i feed my girls, i do it in 3 times each time, and i do it by adding water to the pot trays leting them aboserve, in the video you can see what i mean ๐Ÿ˜…๐Ÿ’š growers love guys and hope you all having a wonderful week ๐Ÿ’š๐Ÿ’š๐Ÿ’š Seeds @seedsmanseeds Gelato OG 3x - 2 Pop out Light spider farmer SF-2000 ( test run from seed to stone ) https://spiderfarmer.eu/collections/full-spectrum-led-grow-light/products/sf-2000-led-grow-light https://www.amazon.es/Spider-Farmer-SF-Crecimiento-Espectro/dp/B07TYM44D6?ref_=ast_sto_dp&th=1&psc=1 https://www.amazon.com/dp/B07TVD1Y3K?ref_=ast_sto_dp All i grow is medicine for myself, nothing to sell, donโ€™t even ask Do it with love for the love ๐Ÿ’š๐Ÿ’š๐Ÿ’š growers love ๐Ÿ’š๐Ÿ’š๐Ÿ’š
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@Roberts
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Been fading great, and full of colors. Will be placing it in 48 hours of darkness today. Trichromes are really cloudy and about 10 percent are amber. Will update a video of harvest when done. Next update will be last one. Thanks again for likes, follows, and subscriptions. I appreciate the support. Happy growing everyone and be safe out there ๐Ÿ‘
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@Hawkbo
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She came down yesterday, was done much before yesterday but was waiting for the coco to dry out. I'm growing this one again soon this one got stunted. The buds came out decent and smell like lemon and pine to me.
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Last week before cutting. I eliminated all fertilizers and only gave the flawless finish fertilizer. The smell of the buds is truly that of watermelon - I can't believe it! The plant never suffered and the result was exactly what I imagined. What do you think? In the next few days I will post the photos of the harvest!
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This Girl has caught up to her sisters. And is looking great. We need some fast growth. So I may have to clean under her skirt, so as to give her some extra momentum skywards. Funny thing is later down the road I will be in a battle to keep her low.
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@Dunk_Junk
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Wow she's looking lovely this week. Marching through her flowering phase. I'm getting excited about her next few weeks!! ๐Ÿ˜
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@BodyByVio
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It was a longer road until here. With all the reading I did I still made rookie mistakes. To much nutrients and to much light stunt my plant and created some deficiencies ( CaMg). Hopefully I will do ok from now on.... Lifted the light at 3 feet on 100% power and decreased the PPMโ€™s to 600. Hopefully that will help and I did not create to much damage. Wish me luck. I invested a lot of time and money on this grow but the experience is not there yet. Iโ€™m ok with what it is, Iโ€™ve learned a lot from this grow.
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@camo420
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NEW BOX: 130x60x120 DIY: storage shelf, solid sheet metal ELECTRO ################################ thermometer top thermometer bottom hydrometer wlan ip cam (+ir filter) ---------------------------------------------------------------- input: x2 USB PC fan exhaust: x2 USB PC fan circulation: x2 USB fan ---------------------------------------------------------------- led panel 1: 300W ASUNDOM LED (Veg/Bloom/Full) led panel 2: 300W XHGrow Reflector-Series LED (Full) ---------------------------------------------------------------- studio light 1 (vegetation): 36W TaoTronics LED Gold studio light 1 (vegetation): 50W Balai LED full studio light 2 (vegetation): 8W VINGO LED blue ligh studio light 2 (vegetation): 50W Balai LED full ---------------------------------------------------------------- studio light 1 (bloom): 36W TaoTronics LED Green studio light 1 (bloom): 36W TaoTronics LED Gold studio light 1 (bloom): 50W JADIDIS LED IR full studio light 2 (bloom): 36W TaoTronics LED Green studio light 2 (bloom): 36W TaoTronics LED Green studio light 2 (bloom): 36W KINGBO LED Deep red 660nm 3x PLANTS ############################### FastBuds Girl Scout Cookies pots: 14L soil: plagron grow mix