420 Fastbuds Week 5 Blackberry Auto What up what up. Weekly updates on these two magnificent girls. They both are showing some really cool colors not only on the flowers but leafs as well. It's been getting cold a few day this week so possibly temperature manipulation. Both seem to be happy and healthy up to this point so continuing with the same routine should work fine. I think I'll add some nutes this coming week to boost flower production and give them a little helping hand. All in all Happy Growing

Howdy growfessors, Green Crack looks like she needs a bit of nutrients, going to switch to bloom/flower nutrients later this week with both plants. Not much else to report, thanks for stopping by!

Been doing a lots of defoliation in this week(Especially on ETHOS-Lilac Diesel) and all the plant are looking great. Still waiting for the bloom fertilizer and then we will start flowering stage as soon as we received the fertilizers.

Was fun to grow and looks beautifull in any garden 💜 u can really taste the blueberry crossed in this strain

Here we go into flower. If what they say is true, we're in for a nice color show.

Water only, all good 😊

The girl's flowers are sick :) The girl looks hungry, this week she received Potassium and Epsom salts. this growth is different for me from my previous ones, the temperature difference is almost 10° C :)

Hi meine lieben, 🤗 Die Sämling-Phase hat begonnen... In dieser Phase braucht es am meisten geduld, da der sämling noch recht empfindlich ist. Wie mein Ablauf in dieser Woche genau aussah, habe ich hier für uns Dokumentiert. Ich wünsche dir viel Spaß & Happy Growing 🌱🤗: ______________________________________________________________________________ Umgebungswerte der Woche: - Temperatur: 24°C - Luftfeuchtigkeit: 80% - 75% zum Ende der Woche - VDP (Room): 0,65 Tag 1: - Licht eingestellt: PPFD: 100 µmol - Lampen Entfernung auf 60cm - Lichtzyklus: 18/6 Tag 2: - Pflanzen Höhe gemessen: 5cm - Licht eingestellt: PPFD: 155 µmol Bewässert 👇(Nur Wasser): - Volumen: 65ml - PH-Wert: 6,0 - EC-Wert: 0,5 - Temperatur: 20°C Tag 3: - Nur beobachtet Tag 4: - Nur beobachtet Tag 5: - Licht gemessen (aktuell): PPFD: 165 µmol - Pflanzen Höhe gemessen: 9cm Tag 6: - Nur beobachtet Tag 7: - Licht gemessen (aktuell): PPFD: 175 µmol Bewässert 👇(Nur Wasser): - Volumen: 200ml (120ml hätten auch gereicht) - PH-Wert: 6,0 - EC-Wert: 0,5 - Temperatur: 21°C Run-Off gemessen 👇(Drain): - Volumen: 100ml - PH-Wert: 6,0 - EC-Wert: 2,25 - Temperatur: 21°C

Could have done her better.

Eccoci qui... Tutto va per il meglio, questa settimana ho eseguito Lollipopping e Defoliation per far si che le cime principali sprigionino al meglio il loro vigore. Siamo verso la fine del progetto ora bisogna solo aspettare la fine... Grazie a tutti per il supporto🔥🌲❤️

I had to defoliate major part of the leaves, due to week lights that I have. She wasn't getting light at the bottom down. Hope she recover

La planta sigue ramificando e inicia la pre floración, se prepara para dar el último estiron. Mientras tanto yo le cambié el fotoperiodo a 20/4 y le agregué un foco de sodio de 400w a los 200w de cfl que ya tenía en vegetación. Volví a ajustar el lst creo que por última vez antes de dejarlas ser hasta el final. Riego cada 4 días aproximadamente con 2L de agua estacionada con ph entre 6.2 y 6.4. Ayer le tocó agua pura y en cuanto me pida más le daré un poquito de extracto de algas de top crop. Big one y top auto en muy bajas dosis, pues la planta no ha mostrado signos de deficiencia alguna.. Hice un riego foliar con aceite de Neem, extracto de canela y jabón potásico a modo preventivo. Ha respondido bien a la nueva luz, la distancia entre el sodio y la copa es de 60cm, iré acortando más adelante 10cm más si la temperatura me lo permite, La sigo!

3 seeds from barneys farm : glue gelato auto. Diary : Day 1: I dug a pit and cleaned my dirt with metal grid and a wheelbarrow & Installed the greenhouse. Day 2 : I rotated my dirt and added universal soil. 4 x 70l to area of 6m2. I also planted seeds in universal soil without sprouting first. Day 3 : I gave water and checked for sprouts. Bought moist meter and dripping hose. Installed those and making the greenhouse more moisty now. Feeling : Verry happy for my first time. Lots to learn.. . Excited

It doesn’t look so good. Can someone tell me if i under-watered or over watered? They look sad?

RAW GROW is a tested blend of all 12 RAW Soluble plant nutrients, essential elements and supplements. This blend has been proven to be an optimal all-in-one base “Grow” horticultural fertilizer. RAW GROW is used through out the entire vegetative stage. Derived from: Plant protein hydrolysate, mono potassium phosphate, potassium sulfate, cane molasses, sodium borate, copper sulfate, iron DTPA, magnesium sulfate, manganese sulfate, zinc sulfate and azomite. Also contains non-plant food ingredients: Humic acids derived from leonardite and peat, kelp (ascophyllum nodosum), silicon dioxide derived from diatomite and yucca extract. When you overlap a copper wire to attract ions, it is called ion exchange. Copper wire is often used as a material for ion exchange because it has a high affinity for positively charged ions, such as copper, zinc, and nickel. When copper wire is overlapped or wound into a coil, it creates a surface area that attracts ions and allows them to bind to the wire or gather within the space. This process is used in various applications, such as electroplating, water treatment, chemical separation processes and cultivation. Electrolysis is a chemical process that involves passing an electric current through a liquid or solution containing ions. This process causes the ions to migrate towards the electrodes, where they undergo a chemical reaction. In the context of plant growth, electrolysis is used to increase the availability of your nutrient-rich solution that can be used to feed plants. Electrolysis and nutrient rich reservoirs work well together since your cannabis nutrients are salt based. The process involves passing an electric current through a solution of water and plant nutrients, which causes the water molecules to break down into their constituent parts, hydrogen, and oxygen. The hydrogen ions (H+) then combine with the nutrients in the solution to form a nutrient-rich substance that can be absorbed by the plant roots easier. This will only work in a nutrient rich solution as it requires the salt-based nutrients to engage. This process, known as hydrolysis, provides the plant with a continuous supply of nutrients and oxygen, which can help to increase plant growth and improve yields. By providing the plant with a more efficient method of absorbing nutrients, electrolysis can help to increase the uptake of essential elements such as nitrogen, phosphorus, and potassium. Additionally, electrolysis can help to maintain the pH balance of the growing medium, which is essential for optimal plant growth. One of the key advantages of using electrolysis to increase plant growth is that it allows for greater control over the growing system. This is exactly why this is generally a technique reserved for advanced hydroponics growers. By adjusting the voltage and current levels, cultivators can custom control the nutrient concentration and pH level of the solution, ensuring that the plant receives the optimal amount of nutrients sitting perfectly on potential hydrogen spectrum. Carotenoids absorb light in the blue-green range of the visible spectrum, complementing chlorophyll's absorption in the red range. Carotenoids protect photosynthetic machinery from excess light. They deactivate singlet oxygen, which is a harmful oxidant formed during photosynthesis. Carotenoids quench triplet chlorophyll, which can be harmful to photosynthesis. Carotenoids scavenge reactive oxygen species (ROS), which can damage cell membranes and proteins. Carotenoid derivatives signal plant development and responses to environmental cues. Carotenoids provide precursors for the biosynthesis of phytohormones like abscisic acid (ABA) and strigolactones (SLs). Carotenoids are pigments that give fruits and vegetables their orange, red, and yellow colors. They also act as free radical scavengers to protect plants during photosynthesis. Beta-carotene is the most common provitamin A carotenoid. It's found in orange and yellow fruits and vegetables like carrots, sweet potatoes, and mangos. Other carotenoids include lycopene, lutein, and zeaxanthin. These carotenoids have antioxidant and photoprotective properties. In plants, Vitamin A is found as carotenoids, which are pigments that give plants their color. Vitamin A is a fat-soluble vitamin. Vitamin B plays a vital role in plant growth and development. It acts as a coenzyme in many metabolic reactions, which are the basis for plant growth and maintenance. Vitamin B helps plants metabolize nutrients, which are essential for growth and development. Vitamin B helps plants respond to biotic and abiotic stress. Vitamin B can help plants grow new roots, which can reduce transplant shock. Vitamin B can help plants grow shoots, especially slow-growing plants. Vitamin B1 Also known as thiamine diphosphate, vitamin B1 is a key component of metabolic pathways like glycolysis and the tricarboxylic acid cycle. Vitamin B3 Also known as nicotinamide or niacin, vitamin B3 is a biostimulant that can improve plant growth and yield. Vitamin B6 Vitamin B6 acts as an antioxidant and cofactor, and is involved in plant stress responses. Vitamin C, also known as ascorbic acid, is a vital nutrient for plants that helps with growth and protects them from excess light. Vitamin C acts as a redox buffer, which is important for regulating photosynthesis. Vitamin C helps enzymes that regulate photosynthesis, hormone production, and regenerating antioxidants. Vitamin C is a coenzyme in the xanthophyll cycle, which converts excess energy into heat. This process helps plants protect themselves from too much light. seedlings to young plants can feed on 200-400 PPM, Teenage plants that have a maturing root zone can feed on 350-550 PPM and adults will feed 600-1000 PPM. The more you feed plants and watch them grow you'll get a feel for how much to give them. Less is more when trying to grasp this. High level of CEC in organic soil so I'm watering 5-gallon

She got a bit taller then i like but the flowers are so amazing, i had to deal with a heatwave (40celcius) mid flower so she got a bit heat stress on top but nothing dramatic

today was the day 🙏 time was running out and i have to harvest "Hilde" 😏 summary of "Hilde" 92 days in under 3 min. enjoy 😅🙏 I dry the plant in the boiler room because the climate there is very good. I also darkened the room so that no sunlight disturbs the drying process.😏 "Darkroom" Day 2 for "Hilde" 😏😄😜

The two blueberry autos are coming along great! They are just now starting to fade out but trichomes for the most part are still clear and cloudy. I’m guessing these girls will be ready in about 1-2.5weeks! When I open the door I get a really pleasant burst of a fruity cereal type smell. It’s comparable to something like crunch berries or as other growers have noticed fruity pebbles 🍓🥣 Right now I’m just feeding the girls spring water, with a little bit of Alaska humus (around 15ml/5L), molasses, fish sh!t and great white. I let this aerate for around 12-36hr. Unfortunately while moving the pot one of the branches snapped under its own weight. The entire plant needs to be supported now as it’s leaning a good amount from the weight being packed on!

So this week I added nutrients for the flowering stage. I gave her a little trim as well as added her netting. I flipped her on last Sunday PP