Snoops Premium Nutrients Yummy Yield
- Achieve full potential from your plants
- Increases the crop’s ability during the flower & bloom phase
- Snoop Dogg Premium Nutrients!
- Specially formulated for the ideal amount of nutrients
- Unique growth promoter which aids photosynthesis
- Available in 1litre & 5 litres
Snoop’s Premium Nutrients Yummy Yield is a unique growth promoter which aids photosynthesis throughout the entire life cycle as well as flower growth in the bloom phase. Snoop’s Premium Nutrients Yummy Yield also helps regulate the opening and closing of the stomata allowing efficient water use.
– Suitable for use with all substrates and feeding systems.
– Add 4ml of Yummy Yield per gallon of water (1ml per litre). Use throughout the entire lifecycle.
– Store out of direct light.
Conversions: 1 Teaspoon = 5mL | 1 Tablespoon = 15 mL | 1 Ounce = 30mL | 1 Cup = 240 mL
What is photosynthesis and why does Yummy Yield aid it?
Snoop’s Premium Nutrients Yummy Yield is a unique growth promoter which aids photosynthesis throughout the entire life cycle as well as flower growth in the bloom phase. To understand this we must first understand how photosynthesis works.
Plants need food to respire, grow and reproduce. Unlike animals, plants are able to make their own food by the process of photosynthesis.
Photosynthesis takes place in the part of the plant cell containing chloroplasts, these are small structures that contain chlorophyll.
For photosynthesis to take place, plants need to take in carbon dioxide (from the air), water (from the ground) and light (usually from the sun).
Carbon dioxide enters through the stomata on the underside of the leaf.
Water is absorbed by the root hair cells and is transported to the leaf by the xylem vessels.
Sunlight provides the energy needed for photosynthesis to take place. In this process, carbon dioxide and water are converted into oxygen (a waste product that is released back into the air) and glucose (the source of energy for the plant).
Oxygen is released through the stomata on the underside of the leaf; glucose is transported around the plant in the phloem vessels.
How are leaves adapted for photosynthesis?
- They are green because they contain lots of chlorophyll to absorb sunlight.
- They have a large surface area to maximise the amount of sunlight they can absorb.
- They are thin, allowing easy diffusion of gases into and out of the leaf.
- They have veins (xylem and phloem) to allow the transport of water, mineral ions and glucose (food).
“’Being able to source a fantastic selection of high quality hydropnic equipment from one company and at a great price is a hydro garden designer’s dream. I love the fact that the website is constantly updated so that everytime I go back there is always something new for me to peruse over. Throughout the organisation of Gone To Pot Hydropnics the staff are efficient and helpful. I am always delighted to see how much care is taken with deliveries to ensure that my products arrive quickly and well presented! All in all a great company!”
“The pellets and trays all arrived in top condition… Very well done it’s a credit to yourselves. And I will certainly be a return customer and shall have no hesitation in recommending your company to family friends and acquaintances.”
“Thank you so much for despatching my order so promptly. It arrived this morning. First time I have used your site and I must say I am very impressed with how everything has gone so far. I loook forward to doing future business with you all at GTP Hydroponics.“
About Snoop’s Nutrients
Snoop’s Premium Nutrients are available in three different variants to suit every type of grower both big and small.
Our non-circulating nutrients have been formulated so that you achieve premium results from your run to waste system. The recipe is tailor-made taking into consideration the fact that the nutrients pass through the root zone only once. When this happens the exact ratio of each element they require is delivered.
Our circulating nutrients have been formulated so that you achieve premium results from your recirculating system. When using our circulating nutrients your water usage is significantly reduced allowing for a more eco-friendly, economical method of growing. The recipe is tailor-made taking into consideration the fact the nutrients pass through the root zone multiple times.
When nutrients pass through the root zone the cation NH+
4 is always taken first. This results in depleted levels of NH+
4 every time the feed water recirculates. Our circulating recipe has elevated levels of NH+
4 to solve this problem. It is advised you change your tank every 2-3 days or your NH+
4 levels will be too low.
Elevating the levels of the cation NH+
4 means we have to reduce the amount of the other cations. It is essential to keep the cations and anions in a recipe at equal levels, so when elevating the levels of the cation NH+
4 it is essential to reduce the amount of the other cations. This is important for ph regulation in the root zone.
Our coco nutrients have been formulated so that you achieve premium results from your coco substrate. The recipe is tailor-made taking into consideration the elements already present in the background EC of the coco due to the buffering process coco goes through.
The most common process for buffering coco is using potassium nitrate. To correct this potassium is reduced and calcium increased in the recipe. This is because of the cation exchange capacity (CEC ). Cation exchange sites are negatively charged sites on the growing media that attract positively charged cations. Certain cations attach easier to these sites. This is where elements from nutrients exchange with elements present on coco.
The cation exchange sites want to get rid of as much K as they can because they prefer Ca. A coco recipe gives the exchange sites the opportunity to take on Ca. As the exchange sites take on Ca, the K is released to the root zone. The plant still gets the same level of K as a result of this despite a reduced amount in a coco recipe. Elevated levels of Ca are required in a coco recipe because some of the Ca used to knock the K off the sites remains on the exchange sites.