Look at those roots! I also believe I under fed mycorrhiza... because the roots on some of my other plants went insane... go check 😉 Flowers came out super nice too! Very lemony Will definetely grow again.

Crazy LemonCherryGelato Smell

Todo sigue en orden, en algunas flores ya se ve como se formas los tricomas, muy rápido todo, calculo que estarán listas al completar la 9na semana de floración. Estoy usando provisoriamente pk13/14 de canna porque no he conseguido booster de green house feeding. Ajuste el agua de riego, baje la cantidad de hybrids y agregue pk 13/14, llegando a 2.5 de EC, subí a 5.9-6.0 de pH. He sacado hojas de la parte inferior de las plantas y algunas ramas débiles que no mostraron flor. Esperaré hasta la 5ta semana para eliminar todas aquellas ramas que no han formado una flor consistente para dejar fuerza a las ramas principales Sin duda cultivar con fibra de coco e iluminación LED de alta potencia es una carrera de aceleración, con un medidor de pH y EC se torna muy manejable. Lo recomiendo.

🔥🔥

I removed the large leaves and hung them up to dry , on day 64.

Overall extremely happy, best yield in this tent and also best average plant yield. Girl crush forever.

She is beautiful and I know her bud is going to be fire!!! But good goodness she stinks!! Kind of like fruity garbage, rotting fruit. Her buds are huge and already pretty heavy ❤️❤️

Eccoci ragazzi! Non vedevo l ora di mandare in fioritura questo mio esperimento idroponico! Le piante sembrano stare bene, ho avuto problemi con un po di radici che stavano marcendo, ma sembra che la situazione si stia risolvendo grazie al acido ipocloroso, sta disinfettando e sbiancando per bene le radici, e quelle nuove che si formano hanno un bel colore bianco sintomo di benessere! Ho provveduto a defogliare un po entrambe le piante per fare spazio a tutti i getti laterali che si stanno diramando dal tronco principale, spero proprio che ci siano un bel po' di cime, questa è la prima settimana e ancora nn ho visto nessun fiore o pre fiore, speriamo che si facciano vedere al più presto, non sto nella pelle per vedere come si svilupperanno i fiori di queste genetiche che sembrano promettere davvero bene! Purtroppo io nn sono molto esperto ancora su come defogliare e potare nel modo giusto, sto facendo del mio meglio e sto imparando piano piano per capire quale sia il modo migliore di farlo senza stressare troppo la pianta, a mio parere probabilmente ho dato troppa vegetativa e queste due piante se tutto va come dovrebbe diventeranno enormi e sono preoccupato che durante queste due settimane di pre fioritura che lo stretching verso l alto diventi un problema serio e che vadano troppo vicino alla luce, ho paura di bruciare tutte le cime principali, spero proprio che questo nn avvenga xke purtroppo già ora sono alte 60 cm e posso arrivare al massimo ad un metro di altezza altrimenti la lampada sarà troppo vicina, xke purtroppo nel posto dove si trovano, dispongo solamente di un altezza totale del box di 180 cm e la lampada può arrivare al massimo ad un altezza di 160 cm prima che tocchi il filtro a carboni sopra di essa.. Spero con tutto me stesso di non commettere il solito errore.. Per ora apparte qualche squilibrio del ph, mi ha provocato una carenza di rame e di calcio /magnesio, ora ho provveduto a tarare il mio misuratore di ph /ec, xke ho notato che usandolo spesso è non pulendo adeguatamente il sensore con acqua distillata, è necessario ricalibrarlo circa ogni 2/3 settimane, altrimenti tende a sballare di 4 o anche 5 punti il ph della soluzione.. Ora il prossimo cambio Dell acqua sarà verso il 20 dicembre contando che l. Ho cambiata il 5 dicembre ogni 15 giorni la cambierò, grazie alla nuova pompa di sentina che ho comprato è un gioco da ragazzi svuotare i secchi in pochi minuti! In ogni caso se volete comprare queste fantastiche genetiche potete utilizzare il mio codice sconto dato i da 2fastbuds e in questo modo aiutate me e voi stessi spendendo meno per l ordine dei loro semi vi lascio qua sotto i miei 2 codici sconto! Un buon 420 a tutti alla prossima settimana!💪😸🌱🌿🧑‍🌾😽💨🔥💥💣

☘️12/12 - Empezo su primera semana en etapa de crecimiento. ☘️Por el momento se encuentra perfecta, está cumpliendo 16 días de vida desde que brotó. ☘️Va a estar tres semanas en etapa de crecimiento para ya despues entrar en floración. ☘️Creció bastante rápido, ya se encuentra transplantada en una maceta de 10L. ☘️En estos dias voy a subir mas imágenes de como viene. Podes seguirme en instagram para mas contenido @bruweed_arg ☘️🇦🇷😶‍🌫️

☘️12/12 - Empieza su primera semana en etapa de crecimiento. ☘️Tiene 18 dias de vida desde que salio el plantin. ☘️Se encuentra perfecta, esta midiendo 15cm de largo y las chalas se encuentran bien. ☘️Ahora mismo se encuentra en una maceta de 10L. ☘️Va estar tres semanas en esta etapa para ya después entrar en flora. ☘️Estos días estare publicando mas imágenes de como viene. Podes seguirme en instagram como @bruweed_arg para mas contenido 🇦🇷☘️😶‍🌫️

Day 37 Everything is going wonderfully. The flowers are getting thicker and thicker and the smell is getting stronger and stronger. Deficiency symptoms from Happiness have not increased any more.

Eccoci arrivati alla 5°settimana di fioritura..le cime sono belle dure. Sono compatte e dure come una pietra... Spero che in queste ultime 2 settimane alimentino di volume. Non che siano piccole ma sé vengono un poco più grandi serei più contento. Come chiunque penso😂🤣😂🤣😂👍💪

Day 35 and things are moving along fantastic and all the girls are very happy.I typically wouldn’t run so many different strains in one tent but Fast Buds genetics are very versatile.I can already tell these girls will have strong,amazing buds in the upcoming weeks into Christmas 🎄😊

Lasst uns geboren werden Sagt - (Sticky Beast Automatic-Zamnesia) zu (Quick One Automatic-Royal Queen Seeds)🎈🎂

Lasst uns geboren werden Sagt - (Quick One Automatic-Royal Queen Seeds) zu (Sticky Beast Automatic - Zamnesia) 🎂🎈

The pound cake is trucking along I could not ask for anything better at this point. This 1st week of them being alive has been decent. They have been healthy and reaching for the light the whole time. I moved them under my spider farmer 100w light so they can start getting used to that light. The smaller 55w light inhave has a significant more blue light in its spectrum I like it alot for seedlings it's just when the plants get to thisbsize that other light doesn't have enough light bounce ming around the tent to get any side lighting. I'm thinking this being an auto I need it to brach out earlier than I normally make my plants branch out. Also I plant to transplant them sometime soon . I have not decided if I want to use my regular 2gal plastic pots or use some of my 4 gal fabric pots. I like fabric pots it's just they are alot harder to take the plants to the bathroom and run water theu the soil at different times thru flower. I don't think I will need to flush my plants nearly as often now that I have switched away from fox farm soil this grow. My grows before I was useing foxfarm happy frog and then mixing happy from with coco loco. That stuff worked decent just the happy frog has so much humlic acid my plants would always go into lockout soon as they started to flower.

Gratitude. Gave her another application of Gibberelin, same as before. 13% of UV light that hits the exclusion zone of water creates a coherent domain, creating almost 1million almost free electrons, using quantum mechanics it reduces the density of water. Anyone who has ever watched a school of fish in the ocean can understand what coherence is. Each fish is free to move independently, yet the group responds simultaneously—as a whole. It is as though the fish follow an unseen conductor, yet no conductor exists. In the world of physics, this kind of relationship is referred to as quantum coherence. At the smallest (quantum) level, there is unity and cooperation (coherence). This allows individual components to respond together as a larger unit. Nature uses a combination of forces to establish and to sustain coherence. Cyclic or spiral movement is paramount. When water molecules cycle within electromagnetic fields, they are forced to align and re-align within the field. This is because water is a polar substance—with a positive and a negative pole. Each cycle refines the structure of the system. Eventually, water molecules “find their place” within a coherent domain and even though molecules may occasionally be relocated, the system as a whole, is not disturbed. The same is true within a school of fish. Predators can temporarily disturb the organization. However, it does not take long before organization re-establishes itself. This is coherence. Water responds very similarly in its living state. It has been shown that liquid water can be considered as two-phases system composed of a coherent phase, in which the molecules oscillate in tune with an electromagnetic field within macroscopic regions called “coherent domains” and non-coherent vapor-like fraction, including uncorrelated molecules. Furthermore, such domains, due to the coherent dynamics, are the pools of quasi-free electrons forming cold coherent vortices upon an energy intake from the outside. Such electrons, in turn, form a plasma that, under suitable conditions, can itself become coherent and oscillate in tune with electromagnetic fields trapped inside it. We will show in this paper that if two or more plasma contained in water coherent domains interact each other, they can adaptively self-adjust their own oscillations in order to synchronize so creating a network of coherent domains oscillating in tune. Depending on the system’s parameters, different clusters of coherent domains, at different space-time scales, can appear. We finally show how this feature could be exploited and used to realize novel advanced quantum information and computational systems and quantum neural networks. What can I do to increase the rate of cellular respiration? We are adding more reactants, like glucose. Photosynthetic efficiency is the fraction of light energy converted into chemical energy during photosynthesis in green plants and algae. The simplified chemical reaction can describe photosynthesis 6 H2O + 6 CO2 + energy → C6H12O6 + 6 O2 where C6H12O6 is glucose (which is subsequently transformed into other sugars, starches, cellulose, lignin, and so forth). The value of the photosynthetic efficiency is dependent on how light energy is defined – it depends on whether we count only the light that is absorbed, and on what kind of light is used (see Photosynthetically active radiation). It takes eight (or perhaps ten or more) photons to use one molecule of CO2. The Gibbs free energy for converting a mole of CO2 to glucose is 114 kcal, whereas eight moles of photons of wavelength 600 nm contains 381 kcal, giving a nominal efficiency of 30%. However, photosynthesis can occur with light up to wavelength 720 nm so long as there is also light at wavelengths below 680 nm to keep Photosystem II operating (see Chlorophyll). Using longer wavelengths means less light energy is needed for the same number of photons and therefore for the same amount of photosynthesis. For actual sunlight, where only 45% of the light is in the photosynthetically active wavelength range, the theoretical maximum efficiency of solar energy conversion is approximately 11%. In actuality, however, plants do not absorb all incoming sunlight (due to reflection, respiration requirements of photosynthesis, and the need for optimal solar radiation levels) and do not convert all harvested energy into biomass, which results in a maximum overall photosynthetic efficiency of 3 to 6% of total solar radiation. If photosynthesis is inefficient, excess light energy must be dissipated to avoid damaging the photosynthetic apparatus. Energy can be dissipated as heat (non-photochemical quenching), or emitted as chlorophyll fluorescence. Starting with the solar spectrum falling on a leaf, 47% lost due to photons outside the 400–700 nm active range (chlorophyll uses photons between 400 and 700 nm, extracting the energy of one 700 nm photon from each one) 30% of the in-band photons are lost due to incomplete absorption or photons hitting components other than chloroplasts 24% of the absorbed photon energy is lost due to degrading short wavelength photons to the 700 nm energy level 68% of the used energy is lost in conversion into d-glucose 35–45% of the glucose is consumed by the leaf in the processes of dark and photorespiration Stated another way: 100% sunlight → non-bioavailable photons waste is 47%, leaving 53% (in the 400–700 nm range) → 30% of photons are lost due to incomplete absorption, leaving 37% (absorbed photon energy) → 24% is lost due to wavelength-mismatch degradation to 700 nm energy, leaving 28.2% (sunlight energy collected by chlorophyll) → 68% is lost in conversion of ATP and NADPH to d-glucose, leaving 9% (collected as sugar) → 35–40% of sugar is recycled/consumed by the leaf in dark and photo-respiration, leaving 5.4% net leaf efficiency. Far-red In efforts to increase photosynthetic efficiency, researchers have proposed extending the spectrum of light that is available for photosynthesis. One approach involves incorporating pigments like chlorophyll d and f, which are capable of absorbing far-red light, into the photosynthetic machinery of higher plants. Naturally present in certain cyanobacteria, these chlorophylls enable photosynthesis with far-red light that standard chlorophylls a and b cannot utilize. By adapting these pigments for use in higher plants, it is hoped that plants can be engineered to utilize a wider range of the light spectrum, potentially leading to increased growth rates and biomass production. Green Green light is considered the least efficient wavelength in the visible spectrum for photosynthesis and presents an opportunity for increased utilization. Chlorophyll c is a pigment found in marine algae with blue-green absorption and could be used to expand absorption in the green wavelengths in plants. Expression of the dinoflagellate CHLOROPHYLL C SYNTHASE gene in the plant Nicotiana benthamiana resulted in the heterologous production of chlorophyll c. This was the first successful introduction of a foreign chlorophyll molecule into a higher plant and is the first step towards bioengineering plants for improved photosynthetic performance across a variety of lighting conditions. Photosynthesis by day, Cellular respiration by night. Co2 doesn't change the parameters of the environment that are suitable for the plant. Co2 increases the efficiency with which the plant captures carbon from the air and mixes with water using stored energy from photosyynthesis into carbo(sugar)hydrates(water). Max energy a plant can convert in any one cycle is 40 mole per day at 400 ppm. 60 mole per day at 12-1800 ppm. Notice that light intensity, carbon dioxide concentration, and temperature are the three main factors that impact photosynthesis. Greater light intensity leads to higher photosynthesis rates, as does increased carbon dioxide concentration. Temperature is also directly linked to the rate of respiration Q10 Temperature coefficient. This is a key factor affecting photosynthesis. Low CO2 affects the Calvin Cycle. If CO2 levels are low, rubisco cannot convert RuBP to GP in step one of the Calvin Cycle. This leads to the accumulation of RuBP and an overall slowing of the Calvin Cycle, which results in a fall in the production of TP/GALP. CO2 is not needed at night so turn it off. Nights should be focused on respiration and dealing with excess moisture spat into the air all night long, keeping ambient canopy RH 40-45%. This keeps a constant negative pressure overnight. Oxygen is what a plant needs at night, only oxygen diffuses into the leaves and only carbon dioxide diffuses out. Vpd is just a measure of temperature and humidity. The drier the air the more space it has to spit more moisture out. As soon as those lights go out she is just spitting moisture. All the energy the plant collects during the day must be processed overnight. Grow tents at night reaching upward of 65%RH or thereabouts things start to drift from optimal. If the plant only converts a percent of all the energy it gathered during the day and doesn't process it all that night, the plant keeps a surplus which will detract from the next day's DLI. I was surprised, stunned even at how much more water she needed to maintain the intense daytime cooling. Daytime priority is keeping temps under 86 and hitting a DLI of 40-60moles, supplement CO2. Nighttime is about maxing out the rate of respiration and getting rid of water ASAP. To make use of all the energy stored in the stems the plant needs to convert a lot of the stored energy to sugars then the plant mixes them with nutrients to make more complex cells, more nutrients, and more water until there is no energy left stored in those stems. If we don't optimize night cycle, like everything else with cannabis plants, the entire production of the plant as a whole will bottleneck at the place in the line that is least efficient. At night If you can stick to 40-45%RH, you should keep semi-optimal turgor pressure, negative pressure, and humidity for quick removal of water vapor generated under the stomata. Keeping 40-45 % should mean keeping temps around 73-83 and keeping your VPD in the "green" for most of the flowering period. I kinda think of it like PH, in that 6.5 is not the best for every nutrient but it's about balance across the spectrum of variables. VPD is similar. Becomes very hard to micro-manage if you focus on too many controllers its hard to keep everything perfect always. You can't keep it perfect 100%, all the time, well you can but the electrical cost of doing so very quickly changes your mind as electrical components sensors start fighting each other and cycling 24/7. I made the decision to pack everything the plant will ever need and then some into the soil, letting the plant dictate its own feeding schedule based on the demand the environment places on it.

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Week 2 of flower 12-5 She is growing nicely. She got a good dose of microbes yesterday. 2k ml she got cal/mag 5ml per gal, Drops 1ml, dusting of yucca, Kelp 1/16th tsp, EM 1 1 ounce per gallon and 1/2 tsp recharge. Top dress is soon. She will only get water x2 waterings. 12-7 2.5 liters plain water ph 6.2 removed any leaf pointing inwards. Fully watered love it. Doing great. Hope not to touch a leaf for a week. Fat chance, but heres for hoping 🤞 12-10 Removed some leafs 12-11 Looks like water tomorrow.

One more week should see this lady to the finish line, which will take her just over 100 days , ive just checked the trichombes and not many ambers so will give it the further week