The last two days of flowering. I am really glad with the grow so far. Haven't watered them for 5-6 days before chopping them

we pass 5. week, in this week i been spred my girls and make some defoliation. I had an accident when spreed but she doing just fine. grow nicely week by week. in next week i will flip them on flower mode. tent is ollmost full.

D83 F36: Hello everyone! I apologize for the quality of the photos, I really have a shitty phone! Apart from that everything is going well! The plants are growing very well, still no signs of deficiency. I started cooling the box at night 2 days ago and the colors are already appearing! I upgraded my LED panel to 600w F33, I was sure I was correct with 400 but I noticed that the flowers were not developing correctly The smells are really incredible, more and more marked! I have a little crush on the code red #1, a smell of strawberry candy, cream and syrup. the white runtz x Hollywood is very very special too! a very runtz smell, with a very marked smell of marinated ginger and lemongrass! very special, it's also the one that makes the biggest heads, incredible I did a big defoliation (schwazzing) a few days ago and they recovered very well. I moved the plants again, I'll put the locations below. I will apply tco F40 in my flowering TCO, I put: - kelp hydrolysate - epsom salt - bat guano - mealworm guana - castor bean shell ash - palm ash - vermicompost - blackstrap molasses - elycitor -Yeasts Saccharomyces Cerevisiae Bottom right: Papaya Bang Bang #1 Bottom middle: LA Vanilla cake #2 Bottom left: Papaya bang bang #2 middle right: cherry gar see ya #4 clone middle: white runtz x Hollywood middle left: code red #2 Top right: Code red #1 Top middle: B-45 Top left: LA Vanilla Cake #1

day 70 Light hits with around 850 - 1000 PPFD had nothing to do this week. I just let her finish out. Terps are already there.

Sono contento e difficilmente sono contento. Cinque piante identiche e sembra di fumare la vera gorilla glue con note dolci quasi a ricordare delle caramelle. Una pianta invece ricorda di più la zkittlez. Davvero contento di aver scelto questa casa 😊

Beautiful flower full of trichomes. Smell and test fantastic. Very fast flowering. She was done on day 49 but I cut her down few days later. I love the strain, the only thing that I will like this strain to have is a better yield. Beast quality buds I ever grew.

**Encontrarás la traducción a español al final de la descripción** From/Desde: 05/04/19 || To/Hasta: 11/04/19 From day/Desde día: 43 || To day/Hasta día: 49 You can find the Gorillas Diary here: ** Podéis encontrar el diario de las Gorilla aquí:** https://growdiaries.woodroom.tel/diaries/25675-makingmoney-with-gorilla-mm-vs-gorilla -----IMAGES & VIDEOS----- Video 1: Complete week 7 in 2 minutes (Original frame rate modified), i used something composed by me playing with Logic Audio, please don't blame me 👉😳👊 Video 2: Complete growing stage plus some flowering days in 2 minutes, same audio Photo 3: Additives used at day 5, all but Iguana Video 13: Overview video of the Moneys and the Gorillas Photo 14: Nutrients & additives used on day 9, again all but Iguana -----WEEK SUMMARY----- Finally I decided to Switch to 12/12 the first day of this week, and at the end of the week i will leave the SCROG mall fixed. As you can see it's not a tru SCROG as the man-lining Gorilla is taller than the Moneys. In the other hand i'm very happy on how the plants are distributing themselves after i removed the training structures. I removed those structures to prevent more stress to the plants, as they have recieved a hard training and i want to give them a breath and also grow as they like. You can see how many vegetation they have, it almost cover the 85-90% of the tent, in the middle of flowering week 3 i will perform a massive defoliation. This week i can see how the Gorilla with the main-lining is developing more defined and taller colas than the other plants, let's see how they evolve in some weeks. Also this week i will apply the last foliar irrigation, just to help them a bit. -----WATERING CALENDAR----- 05/04/19 - 1.250 ml with all week nutrients -(Foliars, Bloom Stimulator & Bloom Nutrition) @ 1.1 E.C. PH6.4 - Foliar application of 250 ml of water with (Foliar Nutrition & Plant Vitality+) among the 4 plants 09/04/19 - 1.250 ml with (Sensizym, Bloom Stimulator, Bloom Nutrition & bud Ignitor) @ 1.4 E.C PH6.4 *****ESPAÑOL***** -----IMÁGENES Y VÍDEOS----- Vídeo 1: Semana 7 completa en 2 minutos (Frame rate original modificado), he usado algo que he compuesto jugando con el logic audio, disculpadme por esto 👉😳👊 Vídeo 2: Fase de crecimiento completa y algunos días de floración en 2 minutos Foto 3: Aditivos usados el día 5 excepto Iguana Vídeo 13: Vídeo general de las Moneys y las Gorilas Foto 14: Nutrientes y Aditivos usados el día 9, de nuevo todos menos Iguana -----SUMARIO SEMANAL----- Finalmente he decidido cambiar a 12/12 el primer día de esta semana y al final de la semana dejaré fina la red de SCROG, como veréis no es realmente un SCROG pues la Gorilla con Man-Lining tiene colas más largas que las Moneys. Por otro lado estoy muy contento en como se están distribuyendo las plantas después de haberles quitado las estructuras de entrenamiento, las he quitado para quitarlas stress ya que han tenido un entrenamiento duro y quiero dejarlas respirar e ir por si solas a partir de aquí. También podéis observar como tienen mucha vegetación que casi cubre el 85-90% de la superficie del armario, a mitad de semana 3 de floración les haré una defoliación masiva dejándolas peladas. Esta semana ya puedo observar cómo la Gorilla con man-lining está creando colas más definidas y largas que el resto de las plantas, veremos a ver en unas semanas como evolucionan las Moneys. Por último esta semana también aplicaré el último riego foliar para ayudarlas un poco con el cambio de estado y el stress recibido. -----CALENDARIO DE RIEGO----- 05/04/19 - 1.250 ml con todos los nutrientes semanales excepto -(Foliars, Bloom Stimulator & Bloom Nutrition) @ 1.1 E.C. PH6.4 - Aplicación foliar de 250 ml de agua con (Foliar Nutrition & Plant Vitality+) para las 4 plantas 09/04/19 - 1.250 ml con (Sensizym, Bloom Stimulator, Bloom Nutrition & bud Ignitor) @ 1.4 E.C PH6.4

New Plant New Adventure, let’s see together what kind of girl Amirani Auto will be 💚🌱

Beginning to get into her stride, and rather larger than the 20:1 CBD auto plant growing alongside her.

Looking good no issues to report. Watching flowers develop rapidly CO2? The light? The tent? Not sure what but loving the set ups effect on my babies added my red growstar light to head into week 5 Smells and swells time. Also the sprayed branch has male flowers in currently waiting to extract pollen

Metals in general reflect all of the light energy that comes onto them but copper doesn't reflect all of them. It absorbs part of the spectrum. It absorbs the blue part of the light and maybe some of the green light and reflects all the coppery colored light which comes back into our eyes. That's what happens with the metal. In compound copper sulfate, the blue color is due to the light energy being used to promote or excite electrons that are in the atom of the copper when it's combined with other things such as the sulfate or carbonate ions and so on. In solution what you actually have - in the same way when you dissolve salt in water you end up with sodium ions and chloride ions not bound together any longer as they are in the crystals but surrounded by water - the water interacts with the copper ions. The color that you see isn't really copper sulfate, it's copper ions surrounded by lots of water. The green pigment in leaves is chlorophyll, which absorbs red and blue light from sunlight. Therefore, the light the leaves reflect is diminished in red and blue and appears green. The molecules of chlorophyll are large (C55H70MgN4O6). They are not soluble in the aqueous solution that fills plant cells. Instead, they are attached to the membranes of disc-like structures, called chloroplasts, inside the cells. Chloroplasts are the site of photosynthesis, the process in which light energy is converted to chemical energy. In chloroplasts, the light absorbed by chlorophyll supplies the energy used by plants to transform carbon dioxide and water into oxygen and carbohydrates, which have a general formula of Cx(H2O)y. In this endothermic transformation, the energy of the light absorbed by chlorophyll is converted into chemical energy stored in carbohydrates (sugars and starches). This chemical energy drives the biochemical reactions that cause plants to grow, flower, and produce seed. Chlorophyll is not a very stable compound; bright sunlight causes it to decompose. To maintain the amount of chlorophyll in their leaves, plants continuously synthesize it. The synthesis of chlorophyll in plants requires sunlight and warm temperatures. Therefore, during summer chlorophyll is continuously broken down and regenerated in the leaves. Another pigment found in the leaves of many plants is carotene. Carotene absorbs blue-green and blue light. The light reflected from carotene appears yellow. Carotene is also a large molecule (C40H36) contained in the chloroplasts of many plants. When carotene and chlorophyll occur in the same leaf, together they remove red, blue-green, and blue light from sunlight that falls on the leaf. The light reflected by the leaf appears green. Carotene functions as an accessory absorber. The energy of the light absorbed by carotene is transferred to chlorophyll, which uses the energy in photosynthesis. Carotene is a much more stable compound than chlorophyll. Carotene persists in leaves even when chlorophyll has disappeared. When chlorophyll disappears from a leaf, the remaining carotene causes the leaf to appear yellow. A third pigment, or class of pigments, that occur in leaves are the anthocyanins. Anthocyanins absorb blue, blue-green, and green light. Therefore, the light reflected by leaves containing anthocyanins appears red. Unlike chlorophyll and carotene, anthocyanins are not attached to cell membranes but are dissolved in the cell sap. The color produced by these pigments is sensitive to the pH of the cell sap. If the sap is quite acidic, the pigments impart a bright red color; if the sap is less acidic, its color is more purple. Anthocyanin pigments are responsible for the red skin of ripe apples and the purple of ripe grapes. A reaction between sugars and certain proteins in cell sap forms anthocyanins. This reaction does not occur until the sugar concentration in the sap is quite high. The reaction also requires light, which is why apples often appear red on one side and green on the other; the red side was in the sun and the green side was in shade. During summer, the leaves are factories producing sugar from carbon dioxide and water using by the action of light on chlorophyll. Chlorophyll causes the leaves to appear green. (The leaves of some trees, such as birches and cottonwoods, also contain carotene; these leaves appear brighter green because carotene absorbs blue-green light.) Water and nutrients flow from the roots, through the branches, and into the leaves. Photosynthesis produces sugars that flow from the leaves to other tree parts where some of the chemical energy is used for growth and some is stored. The shortening days and cool nights of fall trigger changes in the tree. One of these changes is the growth of a corky membrane between the branch and the leaf stem. This membrane interferes with the flow of nutrients into the leaf. Because the nutrient flow is interrupted, the chlorophyll production in the leaf declines and the green leaf color fades. If the leaf contains carotene, as do the leaves of birch and hickory, it will change from green to bright yellow as the chlorophyll disappears. In some trees, as the sugar concentration in the leaf increases, the sugar reacts to form anthocyanins. These pigments cause the yellowing leaves to turn red. Red maples, red oaks, and sumac produce anthocyanins in abundance and display the brightest reds and purples in the fall landscape. The range and intensity of autumn colors is greatly influenced by the weather. Low temperatures destroy chlorophyll, and if they stay above freezing, promote the formation of anthocyanins. Bright sunshine also destroys chlorophyll and enhances anthocyanin production. Dry weather, by increasing sugar concentration, also increases the amount of anthocyanin. So the brightest autumn colors are produced when dry, sunny days are followed by cool, dry nights. The secret recipe. Nature knows best. Normally I'd keep a 10-degree swing between day and night but ripening will see the gap increase dramatically on this one. Anthocyanin color is highly pH-sensitive, turning red or pink in acidic conditions (pH 7) Acidic Conditions (pH 7): Anthocyanins tend to change to bluish or greenish colors, and in very alkaline solutions, they can become colorless as the pigment is reduced. The color changes are due to structural transformations of the anthocyanin molecule in response to pH changes, involving the protonation and deprotonation of phenolic groups. Anthocyanins, responsible for red, purple, and blue colors in plants, differ from other pigments like carotenoids and chlorophylls because their color changes with pH, making them unique pH indicators, while other pigments are more stable in color. Anthocyanins are a whole family of plant pigments. They are present in lilac, red, purple, violet or even black flower petals. Anthocyanins are also found in fruits and vegetables, as well as some leaves. Cold weather causes these purple pigments to absorb sunlight more intensely, which, in turn, raises the core temperature of the plant compared to that of the ambient air. This protects the plant from cold temperatures. In hot weather or at high altitudes, anthocyanins protect the plant cells by absorbing excessive ultraviolet radiation. Furthermore, a vivid petal coloration makes it easier for insects to find the flowers and pollinate them. Adding NaHSO4 (sodium hydrogen sulfate) to water increases the number of protons H+ in the solution. In other words, we increase the acidity of the medium because sodium hydrogen sulfate dissociates in water, or, in other words, it breaks down into individual ions: NaHSO4 → HSO4- + Na+ HSO4- SO42- + H+ In turn, the H+ protons react with the anthocyanin molecules transforming them from the neutral into cationic form. The cationic form of anthocyanins has a bright red color. The color of anthocyanins is determined by the concentration of hydrogen ions H+. When we add the sodium carbonate Na2CO3 solution, the H+ concentration drops. A decrease in the number of H+ causes a pigment color change, first to purple and then to blue and dark green. Anthocyanins are unstable in a basic environment, and so they gradually decompose. The decomposition process produces yellow-colored substances called chalcones. This process is quite slow, allowing us to track how a solution changes its color from blue to various shades of green and finally to yellow. The best petals would be brightly colored dark petals of red, purple, blue, or violet. You are particularly lucky if you can get your hands on almost black petals from either petunia, roses, irises, African violets, tulips, or lilies. These flowers contain a maximum concentration of anthocyanins. British scientist Robert Boyle (1627–1691) made a number of remarkable discoveries in chemistry. Interestingly, one of these discoveries involved the beautiful flowers known as violets. One day, Boyle brought a bouquet of violets to his laboratory. His assistant, who was performing an experiment at the time, accidentally splashed some hydrochloric acid on the flowers. Worried that the acid would harm the plants, the assistant moved to rinse them with water, but Boyle suddenly stopped him. The scientist’s attention was fixed on the violets. The places where acid had splashed the petals had turned from purple to red. Boyle was intrigued. “Would alkalis affect the petals, too?” he wondered and applied some alkali to a flower. This time the petals turned green! Experimenting with different plants, Boyle observed that some of them changed colors when exposed to acids and alkalis. He called these plants indicators. By the way, the violet color of the petals is produced by anthocyanins – pigments that absorb all light waves except violet. These vibrant pigments help attract bees, butterflies, and other pollinators, facilitating the flower’s reproduction. Anthocyanins are a type of flavonoid, a large class of plant pigments. They are derived from anthocyanidins by adding sugars. Sugars, particularly sucrose, are involved in signaling networks related to anthocyanin biosynthesis, and sucrose is a strong inducer of anthocyanin production in plants. Sugar-boron complexes, also known as sugar-borate esters (SBEs), are naturally occurring molecules where one or two sugar molecules are linked to a boron atom, and the most studied example is calcium fructoborate (CaFB). Boron is a micronutrient crucial for plant health, playing a key role in cell wall formation, sugar transport, and reproductive development, and can be deficient in certain soils, particularly well-drained sandy soils. Narrow Range: There's a small difference between the amount of boron plants need and the amount that causes toxicity. Soil concentrations greater than 3 ug/ml (3ppm) may indicate potential for toxicity. Anthocyanins, the pigments responsible for the red, purple, and blue colors in many fruits and vegetables, are formed when an anthocyanidin molecule is linked to a sugar molecule through a glycosidic bond. Glycosidic bonds are covalent linkages, specifically ether bonds, that connect carbohydrate molecules (saccharides) to other groups, including other carbohydrates, forming larger structures like disaccharides and polysaccharides. Formation: Glycosidic bonds are formed through a condensation reaction (dehydration synthesis) where a water molecule is removed, linking the hemiacetal or hemiketal group of one saccharide with the hydroxyl group of another molecule. Types: O-glycosidic bonds: The most common type, where the linkage involves an oxygen atom. N-glycosidic bonds: Less common, but important, where the linkage involves a nitrogen atom. Orientation: Glycosidic bonds can be alpha or beta, depending on the orientation of the anomeric carbon (C-1) of the sugar. Alpha (α): The hydroxyl group on the anomeric carbon is below the ring plane. Beta (β): The hydroxyl group on the anomeric carbon is above the ring plane. Disaccharides: Lactose (glucose + galactose), sucrose (glucose + fructose), and maltose (glucose + glucose) are examples of disaccharides linked by glycosidic bonds. Polysaccharides: Starch (amylose and amylopectin) and glycogen are polysaccharides formed by glycosidic linkages between glucose molecules. Significance: Glycosidic bonds are crucial for forming complex carbohydrates, which play vital roles in energy storage, structural support (like in cell walls), and as components of important biomolecules like glycoproteins and glycolipids.

Plante exceptionnelle !! Elle m'a donner 210g dry cured et l herbe est juste magnifique niveau goût comme effet !! Et en plus de tous sa en seulement 12 semaine .merci mr fast bud^^ et c est une plante qui pousse sans difficulté faudra juste faire en sorte d avoir du cal mag et une bonne dose de nutriments^^

90x60x140 (Mars Hydro) FC-E4800 (Mars Hydro) Easy2go Aquavalve5 (Autopot) Living Soil (Demetearth) Bruce Banner (PEV Seed) Gorilla GG4 (Ganja Farmer) Cream Caramel (Sweet Seed) Gorilla Gelato (Ganja Farmer) Blueberry (00 Seed) Kalini Asia (Zamnezia) Banana Frosting (Sensi Seed) Biscotti Mintz (Barney's Farm) Blackberry Cake (Sensi Seed) Amsterdam Amnesia (Dutch Passion) Gelato Cookie (Ganja Farmer) Purple OG Punch (Ganja Farmer) Sweet ZZ (RQS) Rainbow Road (Paradise Seed) Substrat ~50L: 30L Super Light Mix Biotechnologie 18L coco 2L perlite 1,7kg lombricompost 350g guano de chauve-souris 350g Zéolithe 350g Basalte 170g guano vers de farine 170g biochar 0,7g Endomychorise glomus intraradices 0,7g Bacillus Amyloliquefaciens Paillage de luzerne alfalfa Arrosage avec 2ml/L de mélasse de canne 1x par semaine

Another Day another Dollar, a week later and I am starting to like being attentive when it comes to my babies, reminds me of the lock down days… dark times, but cultivation kept the days ticking and the mind clear. This Lady over has truly made a leap from her miniature pot to a whole 20lt highly rich compost mix, posted a video showing my mixing skills… it is getting warmer as the days progress, I am nervously awaiting the first Thunder storms, my makeshift greenhouse will be put to the sword, would be a sad day if that sword prove mighty, this structure has saved my babies through cold fronts, negative temperatures, speaking of weather the picture of the thermometer and my catalogued weather don’t correspond due to, The thermometer is showing my greenhouse’s room temperature, and I am cataloguing atmospheric temperature and humidity, I will get better in logging other such as water ph, for now all I know is I use rain water, and when I water I use 250ml of water per 24hrs, each plant to keep soil moist, I will increase the volume as soon as the morning temperature are at double digits. I cannot be disappointed with how this grow is proceeding. When Summer Shines it burns.

Day 86 12/05/2021- Week 5 of flower almost done hopefully by the end of the month. Went out on a trip and GoPro never turn on for the last two days bummer but will upload time lapse videos daily. Today the lady got nutrients as well. Day 89 12/08/2021- Today the lady got water, really hoping to see buds starting to fatten up. Day 91 12/10/2021- So today the lady got a special treat, freshly collected rain water. She is just doing her thing and making those buds. I have also finally put the spider farmer SF-2000 at 100%. Also end of another flowering week, see you guys next week. --------Have a good one friends and stay high--------

They didn't show any transplant shock after the transplant to their final pots. They do all show increasingly bad signs of calcium deficiency though. I'm going to give them a feed consisting of at least 0.5 ec of calmag in the next week. At the end of the week, I moved them to the flower tent in preparation of flipping them. They are now on a 18/6 light schedule. First days didn't look too great, seems like the humidity in the room was off.

Day 59 week 3 of