The smallest compact of them all doing well with lots of leaves in great condition with no defoliation to ensure a harvest always on time

Pflanze ein weiteres Mal beschnitten und entlaubt. LST angewendet.

Tok off large fan leaves on day 24. Seeing preflower starting. Decided to try out a natural shape instead of doing LST. I hope this doesn't backfire... The blackberry gum on the right is getting big. I like how autopotamus has natural shape... But he also has much more light haha

Eccoci di nuovo qui!!! Super eccitato per questa nuova collab con Sweet Seeds, team davvero al top, che mi ha dato l’opportunità di testare questa nuova genetica e di condividere i progressi con tutti voi!!! Come sempre partiamo nei bicchieri per poi travasare.. Questa volta verrà svolto tutto sotto la Lumatek Zeus 465 ProC, mi aspetto molto da questo ciclo!! Settimana WOW!!! Grazie a tutti per il supporto ❤️🍀🔥

#myseed.ge #soil-N1 #mysun.ge #GROWROOM #MYSEED-GROWROOM We have very progressive vegetation in first 6 days... i am satisfied at all

first week of flower. shes looking good. 👍 20/4 - 550-600 ppfd. reading done with photone, using paper diffuser, close enough to what i was imagining it would be, with 75% at 16’. d.45 - she grew 3 cm over 24 hours, thats pretty impressive! d.48 - light defoliation in the bottom

Hi all 🤗. Runtz did the topping very well :-). I think I will top her 2 more times before she finally goes to the flower tent She grows nice and bushy, 😍👍. This week will be topped again. I wish you all a nice week, stay healthy 🙏🏻 and let it grow 🌱 Type: Runtz ☝️🏼 Genetics: Zkittlez x Gelato 👍 Vega lamp: 2 x Todogrow Led Quantum Board 100 W 💡 Bloom Lamp : 2 x Todogrow Led Cxb 3590 COB 3500 K 205 W 💡💡☝️🏼 Soil : Canna Bio ☝️🏼 Nutrients : Canna bio ☝️🏼🌱 Water: Osmosis water mixed with normal water (24 hours stale that the chlorine evaporates) to 0.2 EC. Add Cal / Mag to 0.4 Ec Ph with Organic Ph - to 6.0 - 6.3 💦💧

Sugar Bomb Punch THC Bomb X (Critical Orange Punch x Bubba Island Kush). Harvested on 63 th day of flowering. A cool strain to grow from Dutch Passion 👍 4 on 4 on germination rate. The 4 ladies were slightly different from each others but they gave some very cool buds ! The "black one" was a real beauty 😍

I turned the autopots on Monday and the plants are really thriving. They are growing super fast and the soil mix seems to be performing well. They have just had pH 6.4 water from the water reservoir. I have tied and bent them twice since Monday but they bouce back so fast. I have also turned in th airdomes , buried at the bottom of the pots this week, so let's see what they can do. Plenty of defoliation to expose lower branches , it always amazes me how quick the removed leaves are replaced by little tops. Day two flower more pictures added. Loads of defoliating this week and tied them all down again yesterday.

Cambio timer a 12/12 cambio spettro,e con il controller cerco di imitare il sole di fine estate,uso le co2 tabs nella soluzione dei nutrienti

Same old, same old.. despite the hot weather and my messiness, i think we are in a slow but good way.. Added 1ml of bio bloom, same schedule.

Questa matanuska alla fine è arrivata nel suo posto definitivo .ha passato qualche stress ma alla fine sé ripresa....

Venga familia, va la décima semana de vida y cuarta semana de floración de estas Frosted Guava de Zamnesia. Que color que sanas se ven como se nota que Agrobeta es de lo mejor, las niñas están de 10. La humedad está en su punto, y por fin puedo controlar la temperatura en 23 grados. Las flores empiezan ya a tricomar bien y desprender aromas bastante llamativos. Ya vamos viendo cómo progresan estas próximas semanas y van formándose esas flores. Os comento que tengo un descuento y para que compréis en la web de Zamnesia de un 20%, el código es ZAMMIGD2023 The discount 20% and the code is ZAMMIGD2023 https://www.zamnesia.com/ Mars hydro: Code discount: EL420 https://www.mars-hydro.com/ Agrobeta: https://www.agrobeta.com/agrobetatiendaonline/36-abonos-canamo Hasta aquí es todo, buenos humos 💨💨💨

10-24-2024 ALL THE STRAIN RECOMMEND FLOWERING TIME IS 7-8 WEEKS TRY TO FINISH WEEK 8 STILL HAS 19 MORE DAYS... LAST FEED WITH NUTS .BURNED SOME OF TOP FAN LEAVES ...... BUT CHECK OUT QUEEN,DR SLEEP , WULFF ,POWER... CRAZY FROST TOE TO HEAD SMELLS .............NEED TO RUN FANS WITH HIGHER SPEED FOR SMELL... NO MORE NUTS....JUST WATER .....STAY IN THE COURSE... STAY GREEN .... 10-27-2024 -HIT THEM WITH HUMBOLDT COUNTY NUTS G10 -5ML PER GAL SNOW STORM -5ML PER GAL PURPLE MAXX-7ML PER GAL EVERY TWO DAY NEED TO WATER....

la semana fue calurosa pero las plantas crecen rapido esperemos que bajen las temperaturas en los proximos dias

This is the start of flowering! I started 5 days ago so we should see some bud formation really soon done some heavy training on GG#1 . Waiting on GG#2 to shoot out abit more then i will start the sliding stake technique on her as well . Waiting on the more serious formation of flowers before i give a good PK spike . Other then that things are looking good in the garden and we are well on our way to the finish line . Thanks everyone for your support keep rocking out! -Happy Growing!

Some of you may have wondered: Why do I use CO2 at average 950 ppfd μmol/m2/s (moral flow)? The answer is quite simple. Because of lack of space in some regions of my cultivation area, I simply cannot keep the ideal distance to my Sanlight high-performance lamp, due to some height growth of various strains. And so some of the main colas have ppfd values of 1250 μmol/m2/s and even more... So this is how I manage to achieve and compensate for such high radiation levels even with a CO 2 balance. And I have to say, my strategy to avoid various light stress symptoms works just fabulously. In combination with CO 2 implementation, my babies are simply unbeatably insensitive to light. Thats it! Beginning of 3rd week flowering: Again feeding my babies by 36 hours fermented potions of Bio Tabs Kompost Tea PK-Booster (15 g pro Liter) and added: 5ml Orgatrex/Liter 1 Spoon of Bactrex 1 Spoon of Mycotrex 1 Spoon of Mycco-Vital 1 Spoon of Dynomyco A little tip for those who are interested in small modifications that have a big difference or influence - on the result - effect - beauty - health - taste! Before adding microorganisms or beneficial bacteria or Mycorrizae and Trichodermas, please use oxygen-saturated water. On the one hand, unwanted chlorine gases evaporate and the small world of the microbiome becomes even faster and more rewarding in compost tea to sprout. Last but not least for this week, I would like to introduce my reasons, why I prefer growing biologically and sustainably. First of all, it’s something which suits very well in these times/days we are living now. Sustainability is a big need and task for our planet. 🌎 Nature means life. Our home, the air we breathe and everything that surrounds us. Not just today. Hopefully tomorrow as well. Maybe I'm starting to protect our environment on a small scale, but maybe I can also make a big difference at all. If you change the way you look at things, the things you look at change... I thought about what’s the difference, between Mineral Feeding and Super Soil Feeding. It’s very easy. Biologically Growing is a similar process than the natural soil activities out there in the lap of nature’s. So plants has to work and interact with the microorganisms and microbiomic communities in the soil. So the plants will never get lazy like the lazy ones of mineral feeding growers. If you grow biologically, you will feed the soil first and the microorganisms will support every parameter next to your plant conditions. And that will generate an unbelievable spectrum of Terpenes and Trichomes you will never forget. It’s the same comparison, when you daily visit McDonalds and you eat only fast food. How does your body and mind react on this shit for money?!?! May I invite you to think about it… See you next week dear Growmies! Have a nice Weekend and take care… Peace out! Addendum for Day 53: At the moment we unfortunately have another winter onset here in Germany. This means that I am forced to take additional heating measures due to structural facts in order to be able to keep the temperatures constant. After all, just tonight the thermometer climbs again to -1 degree Celsius. In addition, my exhaust air system runs out of my bedroom terrace and I therefore grow winter and summer with the patio door open. Well, sometimes I experience real weather-related challenges. But all in all, no problem... "Where there's a will, there's a way." Addendum to pouring out the fermented PK tea: I always administer half a liter of lukewarm aerated water with 3.5 ml of cannazyme per liter to each plant. This means that the "root machine" is not supplied with supplies unprepared and the nutrient solution can thus also be better distributed in the soil. Since I also work with cloth shoes, I spray them evenly moistened everywhere with water that is also warm before pouring them out from the outside. This has the advantage that the moisture stays where it should: in the pot! ... I did the math today ;-) We are still in week 7 until this Friday. And week 8 starts on Friday! OMG... still so much time yeahh! Today my Fast Buds Sour Jealousy and Sweet Seeds Big Devil and Dark Devil Automatics arrived. I'm looking forward to it. This time Fast Buds next Time Sweet Seeds. Love them too. Very beautiful genetics. Today a review video of the beginning of week 3. At the time of the pictures, I had minor signs of nitrogen excess. (Light peaks first at the crown of the roof and then slightly continuing to the middle section.) I then painstakingly racked my brains as to why this could be. I found that very slight dry spots had formed and therefore the root found small accumulations of nitrogen that caused its problems. But then, when I carefully homogeneously checked the moisture content in the substrate, the problem evaporated again. However, they had not shown any loss of growth rate during this time. Nevertheless, they developed as expected. They Strawnanas had no problem with that. In the end, I always have a hard time killing them. But I guess that's the way things go. We live and die. We come and go. But it's not there yet. ;-) Tomorrow is day 56. Tomorrow’s updating day! Can't wait to see their progress. Have a good time and see you tomorrow… 🏽🕊️ 🏽 ☮️🕊️

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.

Día 54 (10/03) Riego 1,25 Litro H20 + Wholly Base 2,5 ml/l + Solid Green 2 ml/l + Early Flower 1,25 ml/l de Gen1:11 TDS 1033 PPMs - pH 6,51 Día 55 (11/03) Defoliation time! Con la increíble ayuda de @miyaguiokpolilla, @dogdoctorofficial y @growwithflow420 hice la defoliación recomendada exactamente después de 21 días cambiada a 12/12 Consejos de defoliación - Elimine menos del 20% de las hojas de abanico y solo las hojas de abanico - Retirar el tercio inferior de la planta, incluidas las ramitas. - Retirar las hojas en forma de abanico dirigidas hacia el interior de la planta. - Retire las hojas de abanico que dan sombra a los futuros cogollos. Día 56 (12/03) Esperando algo de estrés tras la defoliación... Han crecido 2 centímetros en 24 horas 😍🚀 Día 57 (13/03) Riego 1,25 Litro H20 + Wholly Base 2,5 ml/l + Solid Green 2 ml/l + Early Flower 1,25 ml/l de Gen1:11 TDS 1043 PPMs - pH 7,0 Las plantas muestras una ligera deficiencia de CalMag. Voy a subir el pH a 7.0 en este riego para mejorar la biodisponibilidad Día 58 (14/03) Siguen con su crecimientos, los cogollos formándose y las hojas de azúcar empezando a llenarse de resina Parece que la corrección de la deficiencia de CalMag ha sido muy efectiva! No hay más manchas y las plantas no paran! Día 59 (15/03) Como mañana me voy a Spannabis 😍 voy a adelantar 1 día el riego reduciéndolo a 1 litro Riego 1 Litro H20 + Wholly Base 2,5 ml/l + Solid Green 2 ml/l + Early Flower 1,25 ml/l de Gen1:11 TDS 1080 PPMs - pH 6,57 Día 60 (16/03) Spannabis time! 🚀 Día 61 (17/03) Spannabis time! 🚀 💦Nutrients by Gen1:11 - www.genoneeleven.com 🌱Substrate PRO-MIX HP BACILLUS + MYCORRHIZAE - www.pthorticulture.com/en/products/pro-mix-hp-biostimulant-plus-mycorrhizae 🎚️Controlled by TrolMaster TCS-1 Tent-X System Main Controller - https://www.trolmaster.com/Products/Details/TCS-1