This was the last week for the Cookies Gelato. They've turned purple. Weather is not that great anymore, and I want to avoid more budrot, so I had to chop them down 😛

Start of 12/12 light cycle, round 2 with the citrus skunk strain. Increased feeding to 6L per plant (water + nutes), hopefully this increase will keep the plants healthier throughout the grow.

436 grams with branches and leaves harvested from just one plant and waiting for drying and trimming to see the real weight. Need to wait for more infos

- Ich hab die erste Woche des Biobizz Allmix Düngeschemas gestartet und gebe wie immer erstmal vorsichtige 100%, da meine Erde an sich durch den Kompost recht potent sein sollte. - Außerdem hab ich mit meinem Calmag-Rechner mein Leitungswasser angepasst. Die Werte könnt ihr auf den Bildern sehen. - Den PH-Wert passe ich ebenfalls auf 6,5 an.# - Die Lampe bringt zur Zeit etwa einen PPFD-Wert von 350 - 360 µmol/s/m² bei 18 Stunden Beleuchtungszeit (DLI von 22 - 23 mol/d/m²). Sie wird aber nur eingesetzt bis es warm genug draußen bleibt. Tagsüber stehen sie jetzt schon draußen, sofern es nicht regnet oder stürmt. Die Papaya Cookies macht sich hervorragend und sie ist sehr uniform mit den anderen Fastbuds Strains bis jetzt. Sieht gut aus finde ich 💪😁👍

GG4 clone day 174 11-23-24 - Gave 4 cups of water GG4 clone day 175 11-25-24 - Gave 2 cups of water GG4 Clone day 178 11-28-24 - Gave 2 cups of water

Stanno sempre meglio. Le mie Barney farm runtz ..

Hi all buddies! First crop from hydro nft growth. Growth went well, I had some management problems in changing nutrients from veg to bloom which delayed the harvest for a week or two. Sensi Seeds' Skunk # 1F is incredibly resistant to mold and insect attacks, very close internodes ensure low height and compact buds. Unfortunately I chose the mother phenotype wrong, I found the lowest as I wanted but I lost the fatness of the buds present in other phenotypes, but the game was worth the same and I am very proud of it! I collected after 94 days of flowering, the last 72h 20kg ice cubes in the tank and total darkness which the last 24h without irrigation. After cutting I hung the whole plants in the tent for 24 / 48h 19 ° C 55% HR. Two days of wet trim to 8 girls and I hung their colas in the tent to continue drying. With a girl i tried dry trim but i will avoid next time. After a week in the tent I cleaned the colas and removed all the sticks, I placed everything in airtight bags in the refrigerator for 5 days 12 ° C 65% HR (daily check). Now dark storage room at a temperature of 18 ° C 65% HR. At the last weighing a few days ago it was more than 500g, from now it does not lose any more weight. Next week I will take pictures of the weigher and the finished harvest🍀🍀🍀 target!!🍀500g dry/cured🔥 Thank you GD community you are precious for everything, criticism, advice, curiosity, thanks 💚🌱✊🏼 Awesome people here on GD🔥🔥🔥

Cogollos duros como piedra!🍇🍨

Heute beginnt die 3. Woche der kleinen 3 Z-Up's von FastBuds. 💚 Die Ladies waren inzwischen bei Ihrem ersten Friseurtermin und wurden getoppt. ✂️ Sie haben sich seitdem bereits gut erholt und wachsen bereits wieder. Ich freue mich bereits sehr auf die kommenden Wochen. Genießt euren Sonntag. 🌤️

I really enjoyed watching the ladies grow.i just sprayed again against bugs.but did not see anymore damage by bugs..so ecocure seems to work.one was really infected at so cut some away.the focus is really on the other one.maked her a grid so I can tie the buds when they getting big and hopefully heavy.this is a strong strain. I'm impressed by the way she bounces back from root problems do to wrong container and heat.also bugs.Also broke main stem at top. Started bloom so I give grow and bloom nutritions.cannacure is hopefully preventing molds..

Rikos olores frutales y florales Falto parte de. La. Vegeta fue. Largan1mes1/2 deje que fuéra asi son regulares deje que se. Expresara sexo para asegurarme de los rasgos femininos, solo se. Expreso pre flora 1 macho considerado hembra resto 90 se. Mantuvieron femeninas, primer canopy ny a. Mejorar la. Tecnica Receta propia de super suelo

This is the first day of the first week of flower in the first video and the 6th day of flower in the second video.. you can see me shit myself when I saw that one of my main top sights snapped from tying the branch down … the lights were using are lights we designed and are testing at the moment also we are trying to keep a good distance between the tops and the lights to keep the temps down around the bud sites ! You can tell there are a couple other strains thrown in there the one purple punch from Barney’s farm is just Caking on nodes upon nodes like it’s impossible to get light to them unless they are pulled down in really liking the structure of the ocean fruit and am looking forwards to the finish!

🌱: top dressed her with some Dolomite Lime 💧 : 6l 💡 : Dli: 45 mol/m²/d 🤔: Day 67 back from mountain biking. I think I overdid it with the watering before the trip, and my vacation replacement was also too generous with the watering and didn't allow the soil to dry out. The CalMag problem, or whatever it was, could also have been caused by the new, more powerful lights, even though I added 50g/20L of dolomite lime to the soil when I started the grow. That was sufficient with the old lights.

It’s the time....Luke is now ready to finish his training. He changed location to much bigger and taller tent for his flowering period. Everything under MarsHydro TS3000 light 💡 Before switching to 12/12 got quick defoliation and transplanted to final 30l pot 🤘 Tomorrow getting his trellis net # Keep it locked and stay tuned! 😎🤘 Couldn’t resist and managed to put trellis in place before sleep 😎 🚨 —-> second plant (one on left side) is LemonWalker OG as well from DNA Genetics started in same time as Skywalker. There was some issues with it on early veg stages and to be honest I was almost sure she will not make it.....surprise, surprise as you can see recovered to the point where I decided to switch her to flower and see what she will bring 😉 Day6 update Girls going both strong 💪 We can see first flowers starting to shape. Second and probably last defoliation today to push all the power into forming tops 🤘 Stay tuned!

Nothing to really say except that they are growing very well Thank you for reading I will continue to update have a happy grow

Green light is radiation with wavelengths between 520 and 560 nm and it affects photosynthesis, plant height, and flowering. Plants reflect green light and this is why they appear green to our eyes. As a result, some growers think that plants don’t use green wavelengths, but they actually do! In fact, only around 5 – 10% of green light is reflected from leaves and the rest (90 – 95 %) is absorbed or transmitted to lower leaves [1]. Green wavelengths get used in photosynthesis. Chlorophyll pigments absorb small amounts of green wavelengths. Light that doesn’t get absorbed is transmitted to leaves that are shaded out from direct light. This means that leaves at the bottom of the canopy get more green light than leaves at the top. A high proportion of green wavelengths compared to other colors tells lower leaves that they are being shaded out, so they are able to react accordingly. Lower leaves may react by opening or closing their stomata or growing longer stems that help the leaves reach brighter light [1, 2, 3]. When it comes to growing cannabis, many cultivators are interested in the quality of light used for the flowering stage. In many plants, flowering is regulated by two main photoreceptors: cryptochrome and phytochrome. Both photoreceptors primarily respond to blue light but can also respond to green, although to a lesser extent. Green can accelerate the start of flowering in several species (although cannabis has yet to be tested) [1, 4, 5]. However, once flowering has begun, it’s important to provide plants with a “full spectrum” light that has high amounts of blue and red light, and moderate amounts of green, in order for photosynthesis to be optimized. Green light mediates seed germination in some species. Seeds use green wavelengths to decide whether the environment is good for germination. Shade environments are enriched in green relative to red and blue light, so a plant can tell if it is shady or sunny. A seed that senses a shaded environment may stay dormant to avoid poor growing conditions [1]. Some examples of plant species where researchers have documented this response are: ryegrass (a grass that grows in tufts) and Chondrilla (a plant related to dandelion) [1, 6]. Although green wavelengths generally tell plants NOT to germinate, there are some exceptions! Surprisingly, green wavelengths can stimulate seed germination in some species like Aeschynomene, Tephrosia, Solidago, Cyrtopodium, and Atriplex [1, 6, 7]. Of course, light is not the only factor affecting seed germination – it’s a combination of many factors, such as soil moisture, soil type, temperature, photoperiod, and light quality. When combined with red and blue light, green can really enhance plant growth [1, 8]. However, too much green light (more than 50% of the total light) can actually reduce plant growth [8]. Based on the most current research, the ideal ratio of green, red, and blue light is thought to be around 1:2:1 for green:blue:red [9]. When choosing a horticultural light, choose one that has high amounts of blue and red light and moderate amounts of green and other colors of light. Not many studies can be found about the effect of green light on cannabis growth or metabolism. However, if one reads carefully, there are clues and data available even from the very early papers. Mahlberg and Hemphill (1983) used colored filters in their study to alter the sunlight spectrum and study green light among others. They concluded that the green filter, which makes the environment green by cutting other wavelengths out, reduced the THC concentration significantly compared to the daylight control treatment. It has been demonstrated that green color can reduce secondary metabolite activity with other species as well. For example, the addition of green to a light spectrum decreases anthocyanin concentration in lettuce (Zhang and Folta 2012). If green light only reverses the biosynthesis of some secondary metabolites, then why put green light into a growth spectrum at all? Well, there are a couple of good reasons. One is that green penetrates leaf layers effectively. Conversely red and blue light is almost completely absorbed by the first leaf layer. Green travels through the first, second, and even third layers effectively (Figure 2). Lower leaf layers can utilize green light in photosynthesis and therefore produce yields as well. Even though a green light-specific photoreceptor has not yet been found, it is known that green light has effects independent from the cryptochrome but then again, also cryptochrome-dependent ones, just like blue light. It is known that green light in low light intensity conditions can enhance far red stimulating secondary metabolite production in microgreens and then again, counteracts the production of these compounds in high-intensity light conditions (Kim et al. 2004). In many cases, green light promoted physiological changes in plants that are opposite to the actions of blue light. In the study by Kim et al. blue light-induced anthocyanin accumulation was inhibited by green light. In another study it has been found that blue light promotes stomatal opening whereas green light promotes stomatal closure (Frechilla et al. 2000). Blue light inhibits the early stem elongation in the seedling stage whereas green light promotes it (Folta 2004). Also, blue light results in flowering induction, and green light inhibits it (Banerjee et al., 2007). As you can see, green light works very closely with blue light, and therefore not only the amount of these two wavelengths separately is important but also the ratio (Blue: Green) between these two in the designed spectrum. Furthermore, green light has been found to affect the elongation of petioles and upward leaf reorientation with the model plant Arabidopsis thaliana both of which are a sign of shade avoidance symptoms (Zhang et al. 2011) and also gene expression in the same plant (Dhingra et al. 2006). As mentioned before, green light produces shade avoidance symptoms which are quite intuitive if you consider the natural conditions where the plants grow. Not all the green light is reflected from the highest canopy leaves in nature but a lot of it (50-90%) has been estimated to penetrate the upper leaves at the plant level ((Terashima et al., 2009; Nishio, 2000). For the plant growing in the understory of the forest green light is a signal for the plant of being in the shade of a bigger plant. Then again, the plants growing under unobstructed sunlight can take advantage of the green photons that can more easily penetrate the upper leaves than the red and blue photons. From the photosynthetic pigments in higher plants, chlorophyll is crucial for plant growth. Dissolved chlorophyll and absorb maximally in the red (λ600–700 nm) and blue (λ400–500 nm) regions of the spectrum and not as easily in the green (λ500–600 nm) regions. Up to 80% of all green light is thought to be transmitted through the chloroplast (Terashima et al., 2009) and this allows more green photons to pass deeper into the leaf mesophyll layer than red and blue photons. When the green light is scattered in the vertical leaf profile its journey is lengthened and therefore photons have a higher chance of hitting and being absorbed by chloroplasts on their passage through the leaf to the lower leaves of the plant. Photons of PPFD (photosynthetic photon flux density) are captured by chlorophyll causing an excitation of an electron to enter a higher energy state in which the energy is immediately passed on to the neighboring chlorophyll molecule by resonance transfer or released to the electron transport chain (PSII and PSI). Despite the low extinction coefficient of chlorophyll in the green 500–600 nm region it needs to be noted that the absorbance can be significant if the pigment (chlorophyll) concentration in the leaf is high enough. The research available clearly shows that plants use green wavelengths to promote higher biomass and yield (photosynthetic activity), and that it is a crucial signal for long-term developmental and short-term dynamic acclimation (Blue:Green ratio) to the environment. It should not be dismissed but studied more because it brings more opportunities to control plant gene expression and physiology in plant production. REFERENCES Banerjee R., Schleicher E., Meier S. Viana R. M., Pokorny R., Ahmad M., Bittl R., Batschauer. 2007. The signaling state of Arabidopsis cryptochrome 2 contains flavin semiquinone. The Journal of Biological Chemistry 282, 14916–14922. Dhingra, A., Bies, D. H., Lehner, K. R., and Folta, K. M. 2006. Green light adjusts the plastic transcriptome during early photomorphogenic development. Plant Physiol. 142, 1256-1266. Folta, K. M. 2004. Green light stimulates early stem elongation, antagonizing light-mediated growth inhibition. Plant Physiol. 135, 1407-1416. Frechilla, S., Talbott, L. D., Bogomolmi, R. A., and Zeiger, E. 2000. Reversal of blue light -stimulated stomatal opening by green light. Plant Cell Physiol. 41, 171-176. Kim, H.H., Goins, G. D., Wheeler, R. M., and Sager, J. C. 2004.Green-light supplementation for enhanced lettuce growth under red- and blue-light emitting diodes. HortScience 39, 1617-1622. Nishio, J.N. 2000. Why are higher plants green? Evolution of the higher plant photosynthetic pigment complement. Plant Cell and Environment 23, 539–548. Terashima I., Fujita T., Inoue T., Chow W.S., Oguchi R. 2009. Green light drives leaf photosynthesis more efficiently than red light in strong white light: revisiting the enigmatic question of why leaves are green. Plant & Cell Physiology 50, 684–697. Zhang, T., Maruhnich, S. A., and Folta, K. M. 2011. Green light induces shade avoidance symptoms. Plant Physiol. 157, 1528-156. Wang, Y. & Folta, K. M. Contributions of green light to plant growth and development. Am. J. Bot. 100, 70–78 (2013). Zhang, T. & Folta, K. M. Green light signaling and adaptive response. Plant Signal. Behav. 7, 75–78 (2012). Johkan, M. et al. Blue light-emitting diode light irradiation of seedlings improves seedling quality and growth after transplanting in red leaf lettuce. HortScience 45, 1809–1814 (2010). Kasajima, S., et al. Effect of Light Quality on Developmental Rate of Wheat under Continuous Light at a Constant Temperature. Plant Prod. Sci. 10, 286–291 (2007). Banerjee, R. et al. The signaling state of Arabidopsis cryptochrome 2 contains flavin semiquinone. J. Biol. Chem. 282, 14916–14922 (2007). Goggin, D. E. & Steadman, K. J. Blue and green are frequently seen: responses of seeds to short- and mid-wavelength light. Seed Sci. Res. 22, 27–35 (2012). Mandák, B. & Pyšek, P. The effects of light quality, nitrate concentration and presence of bracteoles on germination of different fruit types in the heterocarpous Atriplex sagittata. J. Ecol. 89, 149–158 (2001). Darko, E. et al. Photosynthesis under artificial light: the shift in primary and secondary metabolism. Philos. Trans. R. Soc. B Biol. Sci. 369 (2014). Lu, N. et al. Effects of Supplemental Lighting with Light-Emitting Diodes (LEDs) on Tomato Yield and Quality of Single-Truss Tomato Plants Grown at High Planting Density. Environ. Control Biol. 50, 63–74 (2012).

04/02/2024 - All the plants are looking healthy but Im suspecting that one of them is a hemafrodite, i would like to read your opinion about it, guys.