Growing great. Growth took off when I gave it recharge. Going to give it some mammoth p this week when it arrives 😎

6/30 I messed up and put 8 days last week so I'll have tp do a six day week to get back on schedule. Pounded rain last night I guess. Very intense but very brief. As you can see in the video the plants are found great. A few have revegged so I'll need to defoliate the middle. I could make a TON of clones but it's pretty late for that. I might clone a couple outstanding plants to keep the genetics. Still seeing some pillar damage. Might do bt tonight. I'll keep this updated. 7/1 Super hot yesterday. Reached 90°. We are getting SOME rain today and thunder showers day after tomorrow. Bags still had some heft and everything looked good. I went back aroundcand found about half were at the point of needing water. He'll, they probably all did. My watering can is 2 gallons not 1.5 as advertised. So that means I used 5 gallons on the garden (not watering the 50) focusing the more water on the lightest bags. That tenth planet I'm seeing more septoria like leaves. This makes enough for me to be fairly positive ill need to treat it. I have plant doctor but I think copper works better. I also see more pillar damage so I've gotta apply something. I also need to lst more and I keep to clean put the interior of the plants so they don't get pm. EDIT: IT WAS 80° and no rain at 6:30. Humidity close to 100% bit plants look AMAZING! I'm hoping this may be my best year yet! I won't grow a bigger plant than tjat blue cheese in the 50 but so far everything is looking good. I may add some nutes to the pink kush in the 50 due to tje slightly less green color. I assume it's just because the other soil is all New amd this was a mix. I defoliated lightly to prevent pm but I have more to do. I just wanted to get a video of the girls looking good. 7/2 82° at 9am. Glad I decided to water even thoughvi watered yesterday. I need to up my volume. Thirty degree temp swings don't help much either. I said I used 4 gals but I used 5. I had one phed already. I'm hoping this will be one of my best years. IT looks like it! I won't have that MONSTER blue cheese in the 50. It was the smallest plant anyway and shows the difference between using NEW soil and mixing old soil WITH new soil. It's a much lighter green. Still need to apply bt and do a little more defoliation. EDIT: IT'S 90° WITH LIKE 100% RH. PLANTS LOOK A LITTLE HEAT STRESSED BUT OTHERWISE PRETTY DAMN GOOD. EVEN MY FATHER MENTIONED (KNOCK ON WOOD) "THAT I DONT HAVE ANY SHOT ON THEM THIS YEAR." LOL. I UPLOADED A VIDEO TO SHARE. HOPE YOU GUYS ARE HAVING AS MUCH FUN AS I AM! 7/3 83° at 9:40a.m. I need to increase my watering volume so I don't need to water every day. I used 5 gallons to water everything but the 50. I think I'm underwatering. However it was supposed to be severe thunder storms with torrential rain, high winds and hail. I'll gratefully take this hot sunny day instead. However in the future I think I'm not goingvto add in the predicted rainfall in my schedule. Unless it's a torrential down pour obviously. Everything g is still looking good and I've still got some work to do.

Today plants 2 and 3 are hanging. Hanging them in the tent 👌

She’s been growing flawlessly, been watering every 3 days as needed 🌱

Heute am 5.07.25 steht die junge Dame sehr vital da und hat bereits eine Höhe von 2.5cm⭐️ Aktuell bekommt sie nur paar Tropfen Regenwasser und steht in einem 20Liter Stofftopf mit BioBizz Lightmix Erde✅ Ihr neues Zuhause ist ein 80x80x160 MarshydroTent mit einer GC Pure 80Watt. Weitere Technik ist aktuell nicht im Zelt verbaut. Kommt aber noch wenn der letzte Durchgang getrocknet ist 😉 🔥Lets Go and Happy Growing🔥 Update: 07.07.25 Sie entwickelt ihr erstes richtiges Blattpaar und streckt sich. Sie scheint ziemlich fit zusein Sie bekommt einmal am Tag 3 bis 4 Sprühstöße Wasser (Regenwasser) Damit die Oberfläche über den Tag hinaus leicht feucht bleibt 💦 Die Temperatur liegt bei 24 Grad und die Luftfeuchtigkeit bei 65% Aktuelle Lichtstärke ist bei 230 PPFD☀️ ✅💚✅💚✅💚✅💚✅💚✅💚✅💚 EQUIPMENT: Licht🌞: GC PURE 80Watt ✅️ Rohrventilator💨: S&P TD 350 silent.✅️ Aktivkohlefilter💢: Can-lite 300 Zelt⛺️: Marshydro 80x80x160 ✅ Luftbefeuchter: Spider Farmer 6L. ✅️

increible crecimiento de las nenas. 5 semana ya proxima a flora como le encanta el bokashi a estas cepas de royalqueenseeds. se ven sanas y comen bien muy pequeñas, muy compactas me sirguen ayudando a darles mas vegeta.

They are looking no different to 2 weeks ago and I’ve no idea what is going on... can someone please tell me if I’m in the right direction or what is going on... confused right now. Also they are supposed to be ready in a week according to seed stockers but was wondering if they will take longer due to the weather and the greenhouse situation. They are starting to smell a bit more but not much.. had mixed reviews people saying the pots are too small or maybe they just need little longer

4/9/25 Welcome to another week. Week 5 since the flip of 12/12 just ended. So today is day 36 since 12/12. The begining of week 6. About halfway done with flowering. Time to start packing on weight. also its important to note that it took a week or so after 12/12 to have pistils show up. So its closer to 28 -30 days of Flowering. I have a foxtailing pheno thats mostly green with thin buds. I have a super chonker green pheno with ridiculously chunked up golfball sized nugs everywhere.(R3) I have a sativa style but thicker buds with nice long connected colas (R2) another smaller pheno with traits of some of the others and also green. and then a singlular pheno that looks gelato dominant and its purple pretty much everywhere to the point that i didnt notice its coloring until it was next to all of its sisters that are straight green. Very beautiful plants and a nice display of phenotypical expressions Top dressed 2tsp bloom 2tsp microbe charge 1tsp bloom booster A Special thank you to Zamnesia and

Day 22: Honestly didn't think I would have made it this far. The girls are looking great minus a couple of issues. I have over watered them and over fed too! Not to mention trying to LST too early. I will wait a bit longer before watering this time. Day 23: MORNING - They were super dry. I have been over watering a bit so I watered maybe 1/2 gallon for all 6. I also did some more LST and took 1 large fan leaf off of each plant. I will update again before lights out. Day 23: NIGHT - The girls are responding very well to the LST. I don't think they are liking the 80°. I am starting to have issues with lower humidity again. I need to try and figure some sort of ducting out or possibly even get a small AC unit for the grow room. Day 24: MORNING - I removed a couple more leaves that were covering potential bud sites. I have also done a partial main-line on the smallest girl. It looks to be already showing pistols. I've had to open the tent with a big fan blowing directly in with the humidifier behind it. The girls were getting hot and dry. Day 24: NIGHT - Well 5 are showing to be female. The biggest plant is showing no signs of sex. I am guessing it will be the mystery seed. I will be doing no more LST to these ladies for at least a week or better. I think I have stressed them out enough the past 2 days. Day 25: These girls are very resilient!! I tortured them all weekend and the one I nopped off to do a sort of mainline grew by 20% at least. Day 26: It is the official 3 week mark today and the girls are starting to flower. I tied em down to get light to all bud sights. I will 100% not touch them unless they need it from this point!!!! They are soo small and I need not stunt them any more!! I have removed the Mystery Seed as it looks to be a male and I do not want to take the chance!! Also fed and watered today. Only 200 ppm for the feed. Day 27: Nothing new to report. These girls are gonna be tiny :| I must've stressed em too much too soon :( Looking good though I think! 💪 Day 28: I never do what I say. Dumb! Broke main stem on one of the best plants. Taking it as a lessons learned. It's been two hours and she looks SICK! Oh well.

Fantastic thc production and buds nicely developed, swapped out the shogun boost for the bud xl which I like to do for the last week before flush. Dropped EC down to 1.1-1.2 as they are in the final stages of flowering. Only issue is I regret getting rid of one of the phenos so may try and take a clone from a small flower to save it.

******************************************** Week 14 Fade (week 10 flower) ******************************************** Light cycle=12/12 Light Power=110w 47% Extractor controller settings (during lights on). High temp= 26c Temp step=0c High Rh= 46% Rh step=0% Speed max=10 Speed min=3 Extractor controller settings (during lights off). High temp= 20c Temp step=0c High Rh= 50% Rh step=0% Speed max=10 Speed min=3 Smart controller settings (during lights on). Lights on=9.00am Smart controller settings (during lights off). Lights off=9.00pm VPD aim=1.0-1.5 DLI aim=40-45 EC aim=1.0-1.8 PH aim=6.0-6.5 💧💧💧💧💧💧💧💧💧💧💧💧💧💧💧💧 NPK= 0-0-0 Method= Automatic Feed=Fade nutes Neutralise=0.1ml/L Advanced Nutrients Flawless Finish=2ml/L Easy Ph down=0ml/L (1ml=24 drops, 1 drop=0.04ml) Easy Ph Up=0.0ml/L (1ml=24 drops, each drop is 0.04ml) Ec=0.33 PH=7.0/6.9 Runs=10 Run times=3mins (0.75L/0.375L each) Gap times= 17mins Total runtime=30mins(6.0L/3.0L each) Total flowrate= 0.25L/0.125L/min each Auto start time=10.00am Auto stop time=1.03pm 💧💧💧💧💧💧💧💧💧💧💧💧💧💧💧💧 ******************************************** ******************************************** 📅10/5/25 Saturday(Day 92) 📋 Reduced light power to 110w 💧 Automatic Fade nutes Ec=0.3 PH=7.0/6.9 Volume=6L Volume left=3L Volume used=3L Manually Volume =1L Total used=4L Total runoff=0.5L Ec=2.1 PH=6.5/6.5 💧 📅11/5/25 Sunday(Day 93) 📋 📅12/5/25 Monday(Day 94) 📋 removed quite a few faded leaves from the top. 📅13/5/25 Tuesday(Day 95) 📋 💧 Automatic water Ec=0.2 PH=6.5/6.6 Volume=6L Volume left=3L Volume used=3L Manually Volume=2L Total used=5L Total runoff=1.3L Ec=1.6 PH=6.4/6.5 💧 📅14/5/25 Wednesday(Day 96) 📋 📅15/5/25 Thursday(Day 97) 📋 📅16/5/25 Friday(Day 98) 📋 Day 70 of flower. 14 days left for the competition. ******************************************** Weekly roundup. 📋 Been a hot week, hard to keep temps as low as I'd like. As you can see this is extremely frosty, not as big a buds as past runtz but definitely the most frosty. Tops are pretty much done, lowers need a bit more time. Looks like harvest could be a week away. Back soon. Take it easy. ********************************************

31.05 yesterday was the end of the fifth week for the plants, some were transplanted yesterday, some today, and some not yet, but most of them were transplanted and topped for the first time... I was late with the topping because I didn't want to top before transplanting.. I topped most of the plants between the sixth and seventh nodes instead of between the fifth and sixth, some I even topped between the seventh and the eighth, but what's up... the weather normalized for a day and immediately started with severe heat... in the sun now it will be 40+ degrees C, until the other day it was 15, this is definitely not normal...the pictures and video are from yesterday, in the next update I will post pictures from the site Stay high ‘n’ keep growing!!!

result for the first one: after 7 days of drying, a cleaning of the last leaves, and by removing the branches, I obtain 51g dry; for a first session in cocot, I hoped 100g with my 2 plants; this one thus made its job. just barely. 😉 2 weeks to go before I know if the other one will do better 👌

What's in the soil? What's not in the soil would be an easier question to answer. 16-18 DLI @ the minute. +++ as she grows. Probably not recommended, but to get to where it needs to be, I need to start now. Vegetative @1400ppm 0.8–1.2 kPa 80–86°F (26.7–30°C) 65–75%, LST Day 10, Fim'd Day 11 CEC (Cation Exchange Capacity): This is a measure of a soil's ability to hold and exchange positively charged nutrients, like calcium, magnesium, and potassium. Soils with high CEC (more clay and organic matter) have more negative charges that attract and hold these essential nutrients, preventing them from leaching away. Biochar is highly efficient at increasing cation exchange capacity (CEC) compared to many other amendments. Biochar's high CEC potential stems from its negatively charged functional groups, and studies show it can increase CEC by over 90%. Amendments like compost also increase CEC but are often more prone to rapid biodegradation, which can make biochar's effect more long-lasting. biochar acts as a long-lasting Cation Exchange Capacity (CEC) enhancer because its porous, carbon-rich structure provides sites for nutrients to bind to, effectively improving nutrient retention in soil without relying on the short-term benefits of fresh organic matter like compost or manure. Biochar's stability means these benefits last much longer than those from traditional organic amendments, making it a sustainable way to improve soil fertility, water retention, and structure over time. Needs to be charged first, similar to Coco, or it will immobilize cations, but at a much higher ratio. a high cation exchange capacity (CEC) results in a high buffer protection, meaning the soil can better resist changes in pH and nutrient availability. This is because a high CEC soil has more negatively charged sites to hold onto essential positively charged nutrients, like calcium and magnesium, and to buffer against acid ions, such as hydrogen. EC (Electrical Conductivity): This measures the amount of soluble salts in the soil. High EC levels indicate a high concentration of dissolved salts and can be a sign of potential salinity issues that can harm plants. The stored cations associated with a medium's cation exchange capacity (CEC) do not directly contribute to a real-time electrical conductivity (EC) reading. A real-time EC measurement reflects only the concentration of free, dissolved salt ions in the water solution within the medium. 98% of a plants nutrients comes directly from the water solution. 2% come directly from soil particles. CEC is a mediums storage capacity for cations. These stored cations do not contribute to a mediums EC directly. Electrical Conductivity (EC) does not measure salt ions adsorbed (stored) onto a Cation Exchange Capacity (CEC) site, as EC measures the conductivity of ions in solution within a soil or water sample, not those held on soil particles. A medium releases stored cations to water by ion exchange, where a new, more desirable ion from the water solution temporarily displaces the stored cation from the medium's surface, a process also seen in plants absorbing nutrients via mass flow. For example, in water softeners, sodium ions are released from resin beads to bond with the medium's surface, displacing calcium and magnesium ions which then enter the water. This same principle applies when plants take up nutrients from the soil solution: the cations are released from the soil particles into the water in response to a concentration equilibrium, and then moved to the root surface via mass flow. An example of ion exchange within the context of Cation Exchange Capacity (CEC) is a soil particle with a negative charge attracting and holding positively charged nutrient ions, like potassium (K+) or calcium (Ca2+), and then exchanging them for other positive ions present in the soil solution. For instance, a negatively charged clay particle in soil can hold a K+ ion and later release it to a plant's roots when a different cation, such as calcium (Ca2+), is abundant and replaces the potassium. This process of holding and swapping positively charged ions is fundamental to soil fertility, as it provides plants with essential nutrients. Negative charges on soil particles: Soil particles, particularly clay and organic matter, have negatively charged surfaces due to their chemical structure. Attraction of cations: These negative charges attract and hold positively charged ions, or cations, such as: Potassium (K+) Calcium (Ca2+) Magnesium (Mg2+) Sodium (Na+) Ammonium (NH4+) Plant roots excrete hydrogen ions (H+) through the action of proton pumps embedded in the root cell membranes, which use ATP (energy) to actively transport H+ ions from inside the root cell into the surrounding soil. This process lowers the pH of the soil, which helps to make certain mineral nutrients, such as iron, more available for uptake by the plant. Mechanism of H+ Excretion Proton Pumps: Root cells contain specialized proteins called proton pumps (H+-ATPases) in their cell membranes. Active Transport: These proton pumps use energy from ATP to actively move H+ ions from the cytoplasm of the root cell into the soil, against their concentration gradient. Role in pH Regulation: This active excretion of H+ is a major way plants regulate their internal cytoplasmic pH. Nutrient Availability: The resulting decrease in soil pH makes certain essential mineral nutrients, like iron, more soluble and available for the root cells to absorb. Ion Exchange: The H+ ions also displace positively charged mineral cations from the soil particles, making them available for uptake. Iron Uptake: In response to iron deficiency stress, plants enhance H+ excretion and reductant release to lower the pH and convert Fe3+ to the more available form Fe2+. The altered pH can influence the activity and composition of beneficial microbes in the soil. The H+ gradient created by the proton pumps can also be used for other vital cell functions, such as ATP synthesis and the transport of other solutes. The hydrogen ions (H+) excreted during photosynthesis come from the splitting of water molecules. This splitting, called photolysis, occurs in Photosystem II to replace the electrons used in the light-dependent reactions. The released hydrogen ions are then pumped into the thylakoid lumen, creating a proton gradient that drives ATP synthesis. Plants release hydrogen ions (H+) from their roots into the soil, a process that occurs in conjunction with nutrient uptake and photosynthesis. These H+ ions compete with mineral cations for the negatively charged sites on soil particles, a phenomenon known as cation exchange. By displacing beneficial mineral cations, the excreted H+ ions make these nutrients available for the plant to absorb, which can also lower the soil pH and indirectly affect its Cation Exchange Capacity (CEC) by altering the pool of exchangeable cations in the soil solution. Plants use proton (H+) exudation, driven by the H+-ATPase enzyme, to release H+ ions into the soil, creating a more acidic rhizosphere, which enhances nutrient availability and influences nutrient cycling processes. This acidification mobilizes insoluble nutrients like iron (Fe) by breaking them down, while also facilitating the activity of beneficial microbes involved in the nutrient cycle. Therefore, H+ exudation is a critical plant strategy for nutrient acquisition and management, allowing plants to improve their access to essential elements from the soil. A lack of water splitting during photosynthesis can affect iron uptake because the resulting energy imbalance disrupts the plant's ability to produce ATP and NADPH, which are crucial for overall photosynthetic energy conversion and can trigger a deficiency in iron homeostasis pathways. While photosynthesis uses hydrogen ions produced from water splitting for the Calvin cycle, not to create a hydrogen gas deficiency, the overall process is sensitive to nutrient availability, and iron is essential for chloroplast function. In photosynthesis, water is split to provide electrons to replace those lost in Photosystem II, which is triggered by light absorption. These electrons then travel along a transport chain to generate ATP (energy currency) and NADPH (reducing power). Carbon Fixation: The generated ATP and NADPH are then used to convert carbon dioxide into carbohydrates in the Calvin cycle. Impaired water splitting (via water in or out) breaks the chain reaction of photosynthesis. This leads to an imbalance in ATP and NADPH levels, which disrupts the Calvin cycle and overall energy production in the plant. Plants require a sufficient supply of essential mineral elements like iron for photosynthesis. Iron is vital for chlorophyll formation and plays a crucial role in electron transport within the chloroplasts. The complex relationship between nutrient status and photosynthesis is evident when iron deficiency can be reverted by depleting other micronutrients like manganese. This highlights how nutrient homeostasis influences photosynthetic function. A lack of adequate energy and reducing power from photosynthesis, which is directly linked to water splitting, can trigger complex adaptive responses in the plant's iron uptake and distribution systems. Plants possess receptors called transceptors that can directly detect specific nutrient concentrations in the soil or within the plant's tissues. These receptors trigger signaling pathways, sometimes involving calcium influx or changes in protein complex activity, that then influence nutrient uptake by the roots. Plants use this information to make long-term adjustments, such as Increasing root biomass to explore more soil for nutrients. Modifying metabolic pathways to make better use of available resources. Adjusting the rate of nutrient transport into the roots. That's why I keep a high EC. Abundance resonates Abundance.

Day 42

•••••••••••••••••••••••••• Oct 1 - Oct. 7 Week 5 of 12/12 •••••••••••••••••••••••••• WEEKLY SUMMARY: •••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••• 🙋‍♀️Fo' Twenny here!🙋‍♀️ We're back with another update on our 🍌🍌 FAT BANANA AUTO cultivar bred by ROYAL QUEEN SEEDS! It's week 5 and she is already looking and smelling amazing! She just seems to get frostier ❄️ by the day and her aroma just keeps getting stronger. I love the terps this girl is throwing out! This week we will lighten up the feeds substantially and get her moving towards harvest. Let's growwww! 📝 Side Note 📝 Irealized my BlueLab Conductivity Meter has the option to switch to EC. Since EC is the most accurate way to measure the nutrient concentration in a solution, I will now be measuring and reporting EC readings rather than PPM. Any advice, suggestions, or constructive criticisms are always welcome. Now, for the weekly break down! •••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••• THIS WEEK'S BREAK DOWN •••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••• 9/30 - Day 52 & Day 28 of BLOOM °°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°° 📸 PHOTOSHOOT! 📸 🎥 FILMING! 🎥 •••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••• 10/2 - Day 54 & Day 30 of BLOOM °°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°° 🚿FEED DAY!🚿 - She received approximately 12 oz of nutrient solution. I mixed 6 gallons of solution for all the plants I have running in this SOG. 12 oz of that was then measured and fed to this cultivar. This week I used some gallon bottles filled with water and frozen to lower temps in the reservoir. She was followed up with another 12 oz of water ph adjusted to 6.4 👩‍🔬NUTRIENT SOLUTION👩‍🔬 ⬇️Mixing Rundown⬇️ - The solution starts with 6 gal tap H2O through two kdf filters mixed in a 36 gallon reservoir. The solution is applied via wand sprayer powered by a submersible pump attached to a garden hose. Nutrients and additives are added to the reservoir in the order listed below and thoroughly mixed using a plastic stir spoon. The reservoir is oxygenated by four 4 inch air stones. Start pH: 7.8 Start EC 1.0 TEMP: 69°F .75 tsp/gal - Fox Farm BIG Bloom .5 Tsp/gal - Fox Farm Tiger Bloom .75 tsp/gal - Fox Farm BEMBÉ .0625 tsp/gal - Fox Farm Cha-Ching Our target pH is in the range of 6.0- 6.6 prior to adding any microbial innocclants. pH already in range, no adjustments needed. pH: 6.5 (No adjustments needed) EC: 1.5 TEMP: 60 °F Mammoth P. .6 ML/gal •••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••• 10/6 - Day 58 & Day 34 of BLOOM °°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°°° - She received approximately 36 oz of nutrient solution. I mixed 15 gallons of solution. 36 oz of that was then measured and fed to this cultivar. This week I used bottles filled with water and frozen to lower temps in the reservoir. 👩‍🔬NUTRIENT SOLUTION👩‍🔬 ⬇️Mixing Rundown⬇️ - The solution starts with 15 gallons of tap H2O run through two kdf filters and mixed in a 36 gallon reservoir. The solution is applied via wand sprayer powered by a submersible pump attached to a garden hose. Nutrients and additives are added to the reservoir in the order listed below and thoroughly mixed using a plastic stir spoon. The reservoir is oxygenated by four 4 inch air stones. 🚿FEED DAY!🚿 Start pH: 7.7 Start EC 1.0 TEMP: 67°F 2 tsp/gal - BudSwell Our target pH is in the range of 6.0- 6.6 prior to adding any microbial innocclants. Adjusted pH to 6.3 using General Hydroponics pH Down .75 tsp/gal - Mycos WP 1 tsp/gal - Recharge .6 ml/gal - Mammoth P pH: 6.2 EC: 1.4 Temp: 67° F •••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••• SUPPLIES & EQUIPMENT CURRENTLY IN USE: •••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••• • A/C: Whynter ARC-14S 14,000 BTU Dual Hose Portable Air Conditioner • TENT: VIVOSUN 48"x24"x60" Mylar Hydroponic Grow Tent with Observation Window & Floor Tray • POTS: Black 8"tall Active Aqua brand 6" x 6" one gallon square pots/Black 12" tall Active Aqua brand12" x 12" 3.4 gallon square pots • VEG/AUTOFLOWER INTAKE FAN: None (PASSIVE) VEG/AUTOFLOWER EXHAUST FAN : VIVOSUN 6 Inch 390 CFM Inline Duct Fan with Variable Speed Controller • BLOOM INTAKE FAN: VIVOSUN 6 Inch 390 CFM Inline Duct Fan with Variable Speed Controller • VEG/AUTOFLOWER EXHAUST FAN : VIVOSUN 6 Inch 390 CFM Inline Duct Fan with Variable Speed Controller • BLOOM EXHAUST FAN: AC Infinity CLOUDLINE T8, Quiet 8” Inline Duct Fan with Temperature Humidity Controller - Ventilation Exhaust Fan • VEG/AUTOFLOWER AIR MOVEMENT: 6-Inch Lasko FBA 2004W 2-Speed Clip Fan • BLOOM AIR MOVEMENT: One Honeywell TurboForce Air Circulator Fan Black, HT-900 and Three 6-Inch Lasko FBA 2004W 2-Speed Clip Fans • Bluelab PENPH pH Pen Fully Waterproof Pocket Tester • Bluelab PENCON Conductivity Pen Fully Waterproof Pocket Tester • Kolder Multi-Purpose Liquid and Dry Measuring Cup, 16-Ounce • Fox Farm Measuring Spoons • WATER TREATMENT: Tap H2O run through two AQUACREST Garden Hose Water Filters to remove chlorine and chloramine. – COMING SOON: Hydro-Logic 31023 1000-GPD Evolution RO1000 High Flow RO System, White (HL31023). • WATER APPLICATION: I use 2 different watering systems. The pump sprayer is typically used in early veg, between feeds, or for lighter feeds. Most feeds are usually run through the pump and reservoir because it's faster and easier when dealing with larger volume feeds. – 2 GALLON LAWN & GARDEN PUMP PRESURE SPRAYER. * I removed the spray head due to clogs and it's just faster. – Superior Pump 91250 Utility Pump, 1/4 HP in a heavy duty 27 gallon Tote attatched to a 10 foot garden hose to an Orbit Underground 56246 Green Thumb 9-Pattern Telescoping Wand. – Aeration of the reservoir is accomplished using a General Hydroponics HGC728040 Dual Diaphragm Air Pump 320 GPH 4 Outlet attached with standard aquarium air hose to four 4-Inch Air Stone Disc Bubble Diffusers. • VEG/AUTOFLOWER LIGHTING: 320w MosterBoard V4-PLUS powered by a MEANWELL 320H-48AB DRIVER. There are three V4-PLUS boards prewired and mounted on a 935x195x10mm black heatsink. Dimmer, UV Switch, and IR Switch included. Each board contains two hundred fifty two 3000k lm301h diodes + twelve Osram 660nm diodes plus 4 separately switchable LG UV 395nm diodes and 4 separately switchable Osram IR 730nm diodes. • BLOOM LIGHTING: Two custom mounted lighting units: Each mount has one 480w MEANWELL 480H-48B driver and one 240w MEANWELL 240H-48AB powering 6 KingBright Quantum Boards. Each board contains two hundred fifty two 3500k lm301h diodes + twelve CREE XP-E2 660nm diodes plus four separately switchable CREE XP-E2 730nm diodes and four LG UV 395nm diodes. Hanging between the two mounts are two additional quantum boards with two hundred fifty two 3000k lm301h diodes + twelve 660nm diodes plus four constant power 730nm IR diodes and four 395nm UV diodes. That's a total of 1680w of quantum board power in our 96" x 48" bloom tent. ⚠️ ALL DRIVERS MOUNTED REMOTELY IN AN AIR COOLED BOX INSTALLED BETWEEN THE FILTER AND EXHAUST FAN ⚠️ • SLMOTO Universal Oil Drain Pan, 2 Gallon (8 Liter) Capacity ABS Low Profile Oil Drain Pan w/Spout Fit for Motorcycles • Modified Botanicare Low Tide LT Black Tray - 4' x 4' - Modification: Cutaway at corners and used flex-seal tape to create a new edge that will be soft to fit between tent supports. She is supported by 6 Standard Cored Concrete Blocks (Common: 4-in x 8-in x 16-in; Actual: 3.625-in x 7.625-in x 15.625-in). ⚠️THIS TRAY WILL NOT FIT BETWEEN SUPPORTS IN A 48" x 48" or 48" x 96" TENT WITHOUT MAKING MODIFICATIONS TO THE TRAY!⚠️ • Blue Sticky Pads • Yellow Sticky Pads •••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••• SOIL MIX DETAILS: •••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••• All components were mixed into a 50 gallon tote that is kept in a warm environment to help innocculate to promote a vast and diverse microbial life in the rhizosphere. Once mixed, add 32-64oz water once every 7-14 days as needed. The goal is to keep the soil moisten without oversaturating. 2 Part - Royal Gold Tupur INGREDIENTS: Coco fiber, aged forest materials, perlite, and basalt 1 Part - Fox Farms Ocean Forest INGREDIENTS: Aged forest products, sphagnum peat moss, earthworm castings, bat guano, fish emulsion, and crab meal. 1 Part - Roots Organics INGREDIENTS: Perlite, Coco Fiber, Peat Moss, Composted Forest Material, Pumice, Worm Castings, Bat Guano, Soybean Meal, Alfalfa Meal, Fishbone Meal, Kelp Meal, and Greensand. Also contains beneficial mycorrhizal fungi: Funneliformis mosseae, Rhizophagus intraradices, Septoglomus desertícola .5 Part - Wiggle Worm Soil Builder Pure Earthworm Castings .5 Part - Ancient Forest Humus .5 Part - Coarse Grade Perlite Inocculated by mixing 1 cup of Extreme Gardening Mycos Watered with pH 6.5 h2O 1 Tsp/gal - Real Grower's Recharge 1 tsp/gal - Hi-Brix Molasses 2 tsp/gal - Fox Farms Kangaroots •••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••• Want to see more cultivars I have growing❓ Please, be sure to check out my other diaries & give me a follow! 👍👍 🙏Thank you for stopping by my garden!🙏 Peace, ☮️✌️ Love, 💚🤟 & Frosty Nugs! ❄️🌲 Happy farmin' my friends! ☺️🌱 - Fo' Twenny 👩‍🌾🏻

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