Time for some light defoliation to allow more light penetration. Might gave gone a little overboard with the defoliation, I tend to do that.

Strain grew very easy, I mixed nutrients and dumped em in the hopper every few days and they did the rest. Very encouraging to be able to pull some very sticky and much thicker flowers than my first try. Very nice job Sweet Seeds with the Jack 47 Autos. The quality and smell is amazing, I am going to continue to cure, but after 8 days of drying and 9 days of curing I am very impressed.

Ein pheno konnte schon geerntet werden von der fast Diesel von Izi

The buds are starting to get ready. I cut all the nutes and gonna feed her only sink water from now on. She getting some crazy colors. Hope she'll finish fast. I have some time restrictions on my apartment haha. Good week and keep growing 💚

White Widow - 3 weeks

Apollo is coming along nicely and enjoying new friends, zkittles, gorilla cookies and granddaddy purple. All autos. Godzilla cookies is the runt. Apollos schedule : Water & feed Tues, Thurs, and Sunday. Increased TPS to early bloom at 9ml/g and Signal to 3ml/g. I think she could use more fertilizer but I'm gun shy on feeding too much. I noticed the new leafs are thinner than veg leaves indicating early flower. No pics on 10/12. My special day. 10/13 pics and video outside before first defoliation. And after defoliation. Note to reduce impact of stress, I ground up 1 of my B vitamins and dispersed in water after feeding on Friday 13th. Apollo is strong. Once I did definition you can really see her. 1)Very thick strong stem. 2) Very tight node structure. There was no space between the first and 2nd leaf group. 3) Side shoots almost as thick as the mail stem 4) roots at the soil top. I used MycoBliss in the soil and planting hole. Friends, Royal Queen Seeds Is offering a discount on purchases 👉**GROWERS20** for 20% 👈 Https://www.royalqueenseeds.com Link to Apollo https://www.royalqueenseeds.com/us/56-f1-hybrid-cannabis-seeds Variety: F1 Hybrid auto Genetic Background: Lemon x Black Domina x Sugar Mangolia THC: Very high Yield: XXL Height: 55 - 75 cm Flowering time: 45 - 50 days Harvest: 75 - 80 days after sprouting Effect: Calming, Creative, Motivating , Physically Relaxing Flavor: Citrus, Herbal, Lavender, Pine, Vanilla Major terpenes: Caryophyllene, Farnesene, Myrcene, Terpinolene Climate: Short Summers ==================================== Equipment: AC Infinity CLOUDLAB 844 – Advance Grow Tent 48”x48”x80” CONTROLLER 69 PRO – Grow Tent Controller CLOUDLINE LITE 6 - Inline Fan 6" IONBOARD S44 – LED Grow Light Board 400W CLOUDRAY S6 – Oscillating Circulation Clip Fan Carbon Filter 6” Pots: 5 gallon Air pots Soil Fox Farm Happy Frog amended with worm castings, dolomite lime and mycorrhiza. Seeds provided by Royal Queen Seeds Check them out 😎 Https://www.royalqueenseeds.com Link to the seeds https://www.royalqueenseeds.com/us/56-f1-hybrid-cannabis-seeds use Discount Code 👉 **GROWERS20** for 20% discount 👈 Nutrients: Total Plant Solution >TPS1 >Canopy >Signal Amended soil recipe #2 used for soil prep. https://www.paramountseedfarms.com/super-soil-recipes/

~Entry for the 'Best Rarest & Smallest Pot by Seedsman' contest~ Starring 🤩.... ~ Seedsman Zkittlez Auto ~ Zkittlez (Grape x Grape Apple) Auto x Auto Fruit (Auto Fruit Cheese x Auto Blueberry) Zkittlez Auto is one of the very sweetest-tasting auto strains available anywhere. It is a sativa-dominant (60%) strain that was bred from Zkittlez (Grape x Grape Apple) Auto crossed with a male Fruit Kush Auto, the latter a remarkable fruity strain bred from Fruit Cheese Auto and Blueberry Auto. Growers can expect to harvest some good yields of high-THC buds. Zkittlez Auto remains a fairly short plant, rarely exceeding 120 cm. in height wherever it is grown. This is a vigorous plant which is able to metabolize a high level of nutrients and she's a thirsty girl too! If growing indoors close to neighbors it is strongly advised to ensure good and effective carbon air-filtration in order to neutralize powerful odors. This strain's life-cycle is approximately 90 days from seed to harvest. The leaves on this plant are big and wide serving to convert every lumen available into Zkittlez goodness. Indoor growers should obtain between 400 - 500 gr/m2 while plants cultivated outdoors will produce slightly more at 500 - 600 gr/m2. Lateral branching is very good and it is recommended to use supports/ties to prevent snapping and keep buds close to the light source. This strain's scent is sweet and fruity with candy and berry notes. Its high-THC has been measured at between 21 - 24% with less than 1% CBD. The effect is well-balanced, cerebral and euphoric, and is very good for social situations as well as for relaxing in front of the TV either alone or with company. It also has the added effect of helping to relieve chronic pain, helping with nausea, insomnia and depression as well as stimulating the appetite.** **Credit to Seedsman.com ______________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________ ~ The Setup ~ ~ Grown in a 2qt plastic popcorn pot filled with Mother Earth Grow 70/30 Coco/Perlite with Xtreme Gardening Mykos added. ~ Seed was germinated directly in the medium without any 'pre-soak' ~ Feeding will be by Dutch Pro Nutrients ~ 24hr light cycle while germinating ~ 20/4 light cycle after first leaves appear. ~ 4x8 Gorilla Tent ~ HLG 650R w/ 30w Supplemental UVA Bar controlled by a Trolmaster Hydro X controller set for a 15min Sunrise/Sunset simulation. (also a HLG Blackbird for additional side lighting if necessary) ~ Supplemental co2 controlled by an AutoPilot APC 8200 co2 controller ~ AC Infinity Cloudline T6 with Controller 67 using a Terrabloom 6x24" carbon filter ~ De-Humidifier and Humidifier when needed. ~ 14k BTU IdealAir portable A/C unit plumbed into tent for temperature control. ~ BlueLab testing instruments ~ Two Hurricane 18" oscillating fans ~ Two 6" Clip-on fans ~ Two 10" floor mounted fans ______________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________ Weekly Update: 1/24- Well, here we go into the Seedsman Zkittlez Auto's 9th week of flower which will be her last! This fine looking lady has been growing for 80 days since she broke ground and has turned out simply AMAZING! 🤩❤️ I'm flushing every day now with well water that's ph'd to 6.5-6.7 @ 71℉ until I have good runoff and that's exactly what I did today in addition to giving her pot a 1/4 turn. 1/26- Today I flushed the Zkittlez Auto for the last time and I'm going to put her in the dark for 72 hours today after checking her trichomes one last time. 1/30- Yesterday the Seedsman Zkittlez Auto was released from 'Dark Jail' and looked absolutely amazing, covered in frost and sporting some gorgeous coloration on her flowers! After snapping some pic's I chopped and hung her to begin the drying/curing process. She's hanging in total darkness with a fan, de-humidifier and humidifier to keep the air circulating gently and the RH at 60% (I usually run the RH down to 50% for the first 24hrs, then up it to 60% for the remainder of the hanging time). The air temperature in my drying room stays a constant 53-60℉ which I find ideal for getting the drying time to the 12-14 days I like it to be to ensure a nice S L O W drying which, I've found, ensures a super delicious product after it's finished curing for 3-4 months in jars! This has been such a fun grow to participate in, and as always, I learned a few things I didn't know previously as I've always grown in much larger containers which made this grow that much more interesting to me! I hope you enjoyed following along half as much as I did growing this little gem from Seedsman Genetics, I truly appreciate all the love and positive comments that I've received throughout this run.... THANK YOU!❤️❤️❤️ See you at the Harvest! 😎🤙 ~ Thank you from the bottom of my heart for following my grows and for all the ❤️and support you give! 💚What you grow - Grow what you💚

Plants has great structure and nice low height, perfect for a stealth grow. Pot is running low on nitrogen so i have to add some nettles juice

Grow has been going well! Tryna grow those roots and spread out the canopy. Have been doing a lot of hard LST, even to the point where I’ve accidentally topped a few. Soil grows are looking great. Very low maintenance.

Well we’re finally here after 20 long weeks Humboldt seeds Chemdawg is down, looking very colourful ranging from light greens to a near red violet colour. The buds are nice and dense so after been hung they will go into glass jars for 36hrs then into brown bags until dry, for me the brown bag helps dry the buds perfect whilst locking in the terpenes which we all want thanks for watching and as arnie said “I’ll be back”00

ANTHOCYANIN production is primarily controlled by the Cryptochrome (CR1) Photoreceptor ( !! UV and Blue Spectrums are primary drivers in the production of the pigment that replaces chlorophyll, isn't that awesome! 1. Diverse photoreceptors in plants Many civilizations, including the sun god of ancient Egypt, thought that the blessings of sunlight were the source of life. In fact, the survival of all life, including humans, is supported by the photosynthesis of plants that capture solar energy. Plants that perform photosynthesis have no means of transportation except for some algae. Therefore, it is necessary to monitor various changes in the external environment and respond appropriately to the place to survive. Among various environmental information, light is especially important information for plants that perform photosynthesis. In the process of evolution, plants acquired phytochrome, which mainly receives light in the red light region, and multiple blue light receptors, including his hytropin and phototropin, in order to sense the light environment. .. In addition to these, an ultraviolet light receptor named UVR8 was recently discovered. The latest image of the molecular structure and function of these various plant photoreceptors (Fig. 1), focusing on phytochrome and phototropin. Figure 1 Ultraviolet-visible absorption spectra of phytochrome, cryptochrome, phototropin, and UVR8. The dashed line represents each bioactive absorption spectrum. 2. Phytochrome; red-far red photoreversible molecular switch What is phytochrome? Phytochrome is a photochromic photoreceptor, and has two absorption types, a red light absorption type Pr (absorption maximum wavelength of about 665 nm) and a far-red light absorption type Pfr (730 nm). Reversible light conversion between the two by red light and far-red light, respectively(Fig. 1A, solid line and broken line). In general, Pfr is the active form that causes a physiological response. With some exceptions, phytochrome can be said to function as a photoreversible molecular switch. The background of the discovery is as follows. There are some types of plants that require light for germination (light seed germination). From that study, it was found that germination was induced by red light, the effect was inhibited by subsequent far-red light irradiation, and this could be repeated, and the existence of photoreceptors that reversibly photoconvert was predicted. In 1959, its existence was confirmed by the absorption spectrum measurement of the yellow sprout tissue, and it was named phytochrome. Why does the plant have a sensor to distinguish between such red light and far-red light? There is no big difference between the red and far-red light regions in the open-field spectrum of sunlight, but the proportion of red light is greatly reduced due to the absorption of chloroplasts in the shade of plants. Similar changes in light quality occur in the evening sunlight. Plants perceive this difference in light quality as the ratio of Pr and Pfr, recognize the light environment, and respond to it. Subsequent studies have revealed that it is responsible for various photomorphogenic reactions such as photoperiodic flowering induction, shade repellent, and deyellowing (greening). Furthermore, with the introduction of the model plant Arabidopsis thaliana (At) and the development of molecular biological analysis methods, research has progressed dramatically, and his five types of phytochromes (phyA-E) are present in Arabidopsis thaliana. all right. With the progress of the genome project, Fi’s tochrome-like photoreceptors were found in cyanobacteria, a photosynthetic prokaryotes other than plants. Furthermore, in non-photosynthetic bacteria, a homologue molecule called bacteriophytochrome photoreceptor (BphP) was found in Pseudomonas aeruginosa (Pa) and radiation-resistant bacteria (Deinococcus radiodurans, Dr). Domain structure of phytochrome molecule Phytochrome molecule can be roughly divided into N-terminal side and C-terminal side region. PAS (Per / Arndt / Sim: blue), GAF (cGMP phosphodiesterase / adenylyl cyclase / FhlA: green), PHY (phyto-chrome: purple) 3 in the N-terminal region of plant phytochrome (Fig. 2A) There are two domains and an N-terminal extension region (NTE: dark blue), and phytochromobilin (PΦB), which is one of the ring-opening tetrapyrroles, is thioether-bonded to the system stored in GAF as a chromophore. ing. PAS is a domain involved in the interaction between signal transduction-related proteins, and PHY is a phytochrome-specific domain. There are two PASs and her histidine kinase-related (HKR) domain (red) in the C-terminal region, but the histidine essential for kinase activity is not conserved. 3. Phototropin; photosynthetic efficiency optimized blue light receptor What is phototropin? Charles Darwin, who is famous for his theory of evolution, wrote in his book “The power of move-ment in plants” published in 1882 that plants bend toward blue light. Approximately 100 years later, the protein nph1 (nonphoto-tropic hypocotyl 1) encoded by one of the causative genes of Arabidopsis mutants causing phototropic abnormalities was identified as a blue photoreceptor. Later, another isotype npl1 was found and renamed phototropin 1 (phot1) and 2 (phot2), respectively. In addition to phototropism, phototropin is damaged by chloroplast photolocalization (chloroplasts move through the epidermal cells of the leaves and gather on the cell surface under appropriate light intensity for photosynthesis. As a photoreceptor for reactions such as escaping to the side of cells under dangerous strong light) and stomata (reactions that open stomata to optimize the uptake of carbon dioxide, which is the rate-determining process of photosynthetic reactions). It became clear that it worked. In this way, phototropin can be said to be a blue light receptor responsible for optimizing photosynthetic efficiency. Domain structure and LOV photoreaction of phototropin molecule Phototropin molecule has two photoreceptive domains (LOV1 and LOV2) called LOV (Light-Oxygen-Voltage sensing) on the N-terminal side, and serine / on the C-terminal side. It is a protein kinase that forms threonine kinase (STK) (Fig. 4Aa) and whose activity is regulated by light. LOV is one molecule as a chromophore, he binds FMN (flavin mononucleotide) non-covalently. The LOV forms an α/βfold, and the FMN is located on a β-sheet consisting of five antiparallel β-strands (Fig. 4B). The FMN in the ground state LOV shows the absorption spectrum of a typical oxidized flavin protein with a triplet oscillation structure and an absorption maximum wavelength of 450 nm, and is called D450 (Fig. 1C and Fig. 4E). After being excited to the singlet excited state by blue light, the FMN shifts to the triplet excited state (L660t *) due to intersystem crossing, and then the C4 (Fig. 4C) of the isoaroxazine ring of the FMN is conserved in the vicinity. It forms a transient accretionary prism with the tain (red part in Fig. 4B Eα) (S390I). When this cysteine is replaced with alanine (C / A substitution), the addition reaction does not occur. The effect of adduct formation propagates to the protein moiety, causing kinase activation (S390II). After that, the formed cysteine-flavin adduct spontaneously dissociates and returns to the original D450 (Fig. 4E, dark regression reaction). Phototropin kinase activity control mechanism by LOV2 Why does phototropin have two LOVs? Atphot1 was found as a protein that is rapidly autophosphorylated when irradiated with blue light. The effect of the above C / A substitution on this self-phosphorylation reaction and phototropism was investigated, and LOV2 is the main photomolecular switch in both self-phosphorylation and phototropism. It turns out that it functions as. After that, from experiments using artificial substrates, STK has a constitutive activity, LOV2 functions as an inhibitory domain of this activity, and the inhibition is eliminated by photoreaction, while LOV1 is kinase light. It was shown to modify the photosensitivity of the activation reaction. In addition to this, LOV1 was found to act as a dimerization site from the crystal structure and his SAXS. What kind of molecular mechanism does LOV2 use to photoregulate kinase activity? The following two modules play important roles in this intramolecular signal transduction. Figure 4 (A) Domain structure of LOV photoreceptors. a: Phototropin b: Neochrome c: FKF1 family protein d: Aureochrome (B) Crystal structure of auto barley phot1 LOV2. (C) Structure of FMN isoaroxazine ring. (D) Schematic diagram of the functional domain and module of Arabidopsis thaliana phot1. L, A’α, and Jα represent linker, A’α helix, and Jα helix, respectively. (E) LOV photoreaction. (F) Molecular structure model (mesh) of the LOV2-STK sample (black line) containing A’α of phot2 obtained based on SAXS under dark (top) and under bright (bottom). The yellow, red, and green space-filled models represent the crystal structures of LOV2-Jα, protein kinase A N-lobe, and C-robe, respectively, and black represents FMN. See the text for details. 1) Jα. LOV2 C of oat phot1-to α immediately after the terminus Rix (Jα) is present (Fig. 4D), which interacts with the β-sheet (Fig. 4B) that forms the FMN-bound scaffold of LOV2 in the dark, but unfolds and dissociates from the β-sheet with photoreaction. It was shown by NMR that it does. According to the crystal structure of LOV2-Jα, this Jα is located on the back surface of the β sheet and mainly has a hydrophobic interaction. The formation of S390II causes twisting of the isoaroxazine ring and protonation of N5 (Fig. 4C). As a result, the glutamine side chain present on his Iβ strand (Fig. 4B) in the β-sheet rotates to form a hydrogen bond with this protonated N5. Jα interacts with this his Iβ strand, and these changes are thought to cause the unfold-ing of Jα and dissociation from the β-sheet described above. Experiments such as amino acid substitution of Iβ strands revealed that kinases exhibit constitutive activity when this interaction is eliminated, and that Jα plays an important role in photoactivation of kinases. 2) A’α / Aβ gap. Recently, several results have been reported showing the involvement of amino acids near the A’α helix (Fig. 4D) located upstream of the N-terminal of LOV2 in kinase photoactivation. Therefore, he investigated the role of this A’α and its neighboring amino acids in kinase photoactivation, photoreaction, and Jα structural change for Atphot1. The LOV2-STK polypeptide (Fig. 4D, underlined in black) was used as a photocontrollable kinase for kinase activity analysis. As a result, it was found that the photoactivation of the kinase was abolished when amino acid substitution was introduced into the A’α / Aβ gap between A’α and Aβ of the LOV2 core. Interestingly, he had no effect on the structural changes in Jα examined on the peptide map due to the photoreaction of LOV2 or trypsin degradation. Therefore, the A’α / Aβ gap is considered to play an important role in intramolecular signal transduction after Jα. Structural changes detected by SAXS Structural changes of Jα have been detected by various biophysical methods other than NMR, but structural information on samples including up to STK is reported only by his results to his SAXS. Not. The SAXS measurement of the Atphot2 LOV2-STK polypeptide showed that the radius of inertia increased from 32.4 Å to 34.8 Å, and the molecular model (Fig. 4F) obtained by the ab initio modeling software GASBOR is that of LOV2 and STK. It was shown that the N lobes and C lobes lined up in tandem, and the relative position of LOV2 with respect to STK shifted by about 13 Å under light irradiation. The difference in the molecular model between the two is considered to reflect the structural changes that occur in the Jα and A’α / Aβ gaps mentioned above. Two phototropins with different photosensitivity In the phototropic reaction of Arabidopsis Arabidopsis, Arabidopsis responds to a very wide range of light intensities from 10–4 to 102 μmol photon / sec / m2. At that time, phot1 functions as an optical sensor in a wide range from low light to strong light, while phot2 reacts with light stronger than 1 μmol photon / sec / m2. What is the origin of these differences? As is well known, animal photoreceptors have a high photosensitivity due to the abundance of rhodopsin and the presence of biochemical amplification mechanisms. The exact abundance of phot1 and phot2 in vivo is unknown, but interesting results have been obtained in terms of amplification. The light intensity dependence of the photoactivation of the LOV2-STK polypeptide used in the above kinase analysis was investigated. It was found that phot1 was about 10 times more photosensitive than phot2. On the other hand, when the photochemical reactions of both were examined, it was found that the rate of the dark return reaction of phot1 was about 10 times slower than that of phot2. This result indicates that the longer the lifetime of S390II, which is in the kinase-activated state, the higher the photosensitivity of kinase activation. This correlation was further confirmed by extending the lifespan of her S390II with amino acid substitutions. This alone cannot explain the widespread differences in photosensitivity between phot1 and phot2, but it may explain some of them. Furthermore, it is necessary to investigate in detail protein modifications such as phosphorylation and the effects of phot interacting factors on photosensitivity. Other LOV photoreceptors Among fern plants and green algae, phytochrome ɾphotosensory module (PSM) on the N-terminal side and chimera photoreceptor with full-length phototropin on the C-terminal side, neochrome (Fig. There are types with 4Ab). It has been reported that some neochromes play a role in chloroplast photolocalization as a red light receiver. It is considered that fern plants have such a chimera photoreceptor in order to survive in a habitat such as undergrowth in a jungle where only red light reaches. In addition to this, plants have only one LOV domain, and three proteins involved in the degradation of photomorphogenesis-related proteins, FKF1 (Flavin-binding, Kelch repeat, F-box 1, ZTL (ZEITLUPE)), LKP2 ( There are LOV Kelch Protein2) (Fig. 4Ac) and aureochrome (Fig. 4Ad), which has a bZip domain on the N-terminal side of LOV and functions as a gene transcription factor. 4. Cryptochrome and UVR8 Cryptochrome is one of the blue photoreceptors and forms a superfamily with the DNA photoreceptor photolyase. It has FAD (flavin adenine dinucle-otide) as a chromophore and tetrahydrofolic acid, which is a condensing pigment. The ground state of FAD is considered to be the oxidized type, and the radical type (broken line in Fig. 1B) generated by blue light irradiation is considered to be the signaling state. The radical type also absorbs in the green to orange light region, and may widen the wavelength region of the plant morphogenesis reaction spectrum. Cryptochrome uses blue light to control physiological functions similar to phytochrome. It was identified as a photoreceptor from one of the causative genes of UVR8 Arabidopsis thaliana, and the chromophore is absorbed in the UVB region by a Trp triad consisting of three tryptophans (Fig. 1D). It is involved in the biosynthesis of flavonoids and anthocyanins that function as UV scavengers in plants. Conclusion It is thought that plants have acquired various photoreceptors necessary for their survival during a long evolutionary process. The photoreceptors that cover the existing far-red light to UVB mentioned here are considered to be some of them. More and more diverse photoreceptor genes are conserved in cyanobacteria and marine plankton. By examining these, it is thought that the understanding of plant photoreceptors will be further deepened.

Lampe 100% Sooo… die Mädels sehen richtig gut aus. 🌱🔥 Die Blüte hat sich prächtig entwickelt, schön kompakt und richtig harzig. In der letzten Woche sind sie gefühlt explodiert. Einige Colas ziehen sich jetzt schon ca. 30 cm den Stängel entlang. 💪 Ich bereite jetzt alles auf die Ernte vor, Ende der Woche ist es soweit. Eventuell nehme ich vorher nur die Headbuds runter. ✂️ Die mittlere lasse ich allerdings noch weiterlaufen, sie hängt hinterher und bekommt deshalb ein anderes Gießschema, während die anderen schon in den Flush gehen. 🌿 Ende der woche wurde teil geerntet Mo: Gießen: #1:#3 4L-6L je Dünger für Links und Rechts: Canna Coco A&B = 1 ml/L CalMag = 0,6 ml/L Cannazym = 0,5 ml/L Boost = abgesetzt. pH: 5.8 EC: 0.8 Gießen: #2 4L-6L je Dünger für Mitte: Canna Coco A&B = 2 ml/L CalMag = 0,8 ml/L Cannazym = 0,5 ml/L Sugar Royal = 0 ml/L Green Sensation = 1 ml/L pH: 5.8 EC: 2,1 Di: nichts Mi: Gießen: #1:#3 4L-6L je Dünger für Links und Rechts: Canna Coco A&B = 1 ml/L CalMag = 0,6 ml/L Cannazym = 0,5 ml/L Boost = abgesetzt. pH: 5.8 EC: 0.8 Gießen: #2 4L-6L je Dünger für Mitte: Canna Coco A&B = 2 ml/L CalMag = 0,8 ml/L Cannazym = 0,5 ml/L Sugar Royal = 0,8 ml/L Green Sensation = 0,8 ml/L pH: 5.8 EC:1,9 Do: nichts Fr: Gießen: #1:#3 4L-6L je Dünger für Links und Rechts: Canna Coco A&B = 0,8 ml/L CalMag = 0,6 ml/L Cannazym = 0,5 ml/L Boost = abgesetzt. pH: 5.8 EC: 0.8 Gießen: #2 4L-6L je Dünger für Mitte: Canna Coco A&B = 2 ml/L CalMag = 0,8 ml/L Cannazym = 0,5 ml/L Sugar Royal = 1 ml/L Green Sensation = 1 ml/L pH: 5.8 EC:2.1 Sa : nichts So: Gießen: #2 4L-6L je -nur wasser mit pH5.8 -Teil geerntet Gießen: #2 4L-6L je Dünger für Mitte: Canna Coco A&B = 2 ml/L CalMag = 0,8 ml/L Cannazym = 0,5 ml/L Sugar Royal = 0 ml/L Green Sensation = 1 ml/L pH: 5.8 EC: 1,9

SATIVA DREAM by KANNABIA Week #8 Overall Week #7 Veg She's doing great with the weather and the heat she's trying to stretch and get tall but I'm going to top her next week again. Overall no issues this week. Stay Growing!! Kannabia.com SATIVA DREAM

Going a bit slow but nice;)))))

Easy strain to grow, tolerant a high ppm. Very good smoke. Buds are not very dense.

Last mile... On the Flush at 450ppms mostly K 🙏 Stay Bless

welcome to week 6 of flower. she is coming along very good and she is healthy i started overdrive today as this looks to be the last 2 weeks before flush enjoy to pics and drop any ? or comments below. keep you stick on the ice

Hola a todos , he aplicado la primera dosis de Myco+ para estimular el crecimiento de las raíces , hay dos plantines que tienen algunas deformidades , hay 21 plantines voy a escoger las mejores 16 para meter al sistemas RDWC Gracias por venir a visitar el jardín 😎