Diamond Grow ® 100% soluble organic Humi[K] WSG (Water Soluble Granule), is the latest addition to the Diamond Grow® product line. After many years of research and product development, our patented Humi[K] Granulation Process was in full operation early 2014. Humi[K] WSG is produced from our Humi[K] WSP, which is 100% spray dried powder that can be difficult to handle in certain applications.
Our Humi[K] Granulation technology allows us to offer the same 100% solubility in a granule form. Humi[K] WSG can be used in many applications such as dry broadcast spreading, blending/mixing with fertilizer, or liquefied for liquid application. Humi[K] WSG also has time release properties when applied dry, slowly dissolving as irrigated. Humi[K] WSG was specifically designed for three distinct functions: Rapid 100% solubility, ease of use and dry broadcast application. Diamond Grow® Humi[K] Granules are a mirror image of our Powdered Humi[K], with all of the same features and benefits.
PATENTED GRANULATION TECHNOLOGY
SPREADABLE FOR DRY APPLICATION
BLENDABLE WITH NPK FERTILIZER
RELIABLE QUALITY HUMIC ACID
- Increases yield and improves quality of plants
- Improves soil structure and increases water holding capacity
- Increases and stimulates beneficial microorganisms
- Enhances soil cation exchange capacity (CEC)
- Increases the efficiency of fertilizers and reduces nutrient leaching
- Promotes root development
- Increases nutrient uptake
- Decreases drought- and pesticide-induced stress
- Reduces residues of herbicides and toxic substances in soil
- Increases seed germination
Functional Humate Groups
AGRONOMIC USES: Apply directly to the soil in fall or early spring and as many as 4 to 6 applications per growing season. Always conduct a soil test to determine nutrient levels and make needed amendments to assure good fertility levels in your soil. Diamond Grow® - Humi[K] WSG is an ideal supplement to aid in the effectiveness of your fertilizer program. Application rates will vary depending on soil conditions, plant type, nutrient requirement, and application method. Consult your local agronomist or Ag Extension Agent for more information for your specific application.
MIXING INSTRUCTIONS: Mix 1lb of Humi[K] WSG into 1 gallon of water (1kg into 5 liters) to create a Liquid Humi[K] Concentrate.
SHAKE WELL prior to further diluting/mixing. When mixing with water, fill container half full, then add Liquid Humi[K] Concentrate to the remaining water. When mixing with pesticides, dilute Liquid Humi[K] Concentrate with water prior to the addition of buffering agents and pesticides. DO NOT tank-mix with carbonate-based pesticides, as efficacy will decrease. Follow all directions and precautions on pesticide labels prior to mixing with Liquid Humi[K] Concentrate. Ensure adequate agitation in all situations. DO NOT mix Humi[K] Concentrate with calcium nitrate, phosphoric acid, zinc sulfate or other solutions with a pH of less than 6.5
DIRECTIONS FOR USE: Proper timing, rate, and placement of Diamond Grow ® Humi[K] is important for desired results and highly dependent on the stage of crop growth, soil fertility levels, and environmental conditions. If unsure of application rates for your specific soils, please consult your local Ag Extension Agent
Agronomic Crops: 4 - 10 pounds per acre
SPRAY INSTRUCTIONS: Apply 2 quarts of Liquid Humi[K] Concentrate per acre diluted with a minimum of 20 gallons of water.
Berries and other similar fruits
Wheat and other grains
banana and other fruits
cucumber, herbs and vegetables
and other roots
saffron and other special crops
orange, lemon, mandarin etc
✔ 100% organic and non gmo
✔ Great for hydroponics and soil mediums
✔ Detoxifies various pollutants
✔ Stronger and healthier plants
✔ Improves soil
✔ Feeds beneficial microbes
✔ Enhance root initiation and improve root growth
✔ Accelerate seed germination
✔ Regulate hormone levels in stressed plants
Available Packaging :
- 2,200lb/1MT (Super Sack)
- 55lb/25kg Bags (Pallet)
At this point, no scientists have been able to provide a descriptive and definitive molecular picture of humic substances. They are polydispersed polyanions and are supermixtures of many different acids containing carboxylate and phenolate groups and others, so that mixtures behave functionally as dibasic or tribasic acids. Humic acids can form complexes with ions that are commonly found in environments creating colloids. Research has shown carboxylate and phenolate group substituents link together for functionality. These delicate and relative ratios allow humic acids to form complexes with ions. Many humic acids have two or more of these groups arranged so as to enable formation of chelate complexes. The combination of these functional groups thus regulates bioavailability of metal ions.
The formation of humic substances is one of the least understood facets of humic sciences. There have been various theories posited on this matter. If we had a clearer molecular picture, it would be much easier to infer what is occurring, and by extension the nature of these fascinating interactions. For example, if we knew urea, ammonium sulfate, calcium nitrate…. we would know their precise molecular makeup and be able to unlock their inherent mysteries.
Humic is a complex and fascinating creation. A plethora of unknown dynamics, such as chemical, biological, and bioorganic molecules, along with physical, biophysical, physiological, and other elements of combinatorial chemistry makes it difficult to make fair and clear judgments about interactions which are consistently occurring. It is long term combinatorial chemistry that creates these mysterious balances. To put this into perspective, most of us five fingers. If we added one more, its impact would be difficult to assess. The same applies to the unique biosignature of humic chemistry. We cannot say how adding one thing or another is going to have a profound influence on these complex super mixtures and their unique web of interactions.
To give another example that illustrates these inherent mysteries, another component in humic chemistry is charged density. The molecules may form a supramolecular structure held together by a myriad of noncovalent forces. In a nutshell, there are major complexities that we cannot resolve by adding this and that such as enzymatic and autoxidation, peptides, amino acids, phenolic radicals, etc.
The best course of action is to do comparative work under controlled conditions in greenhouses and fields, assess plant performance, yield, and quality, allowing the results to speak for themselves. Some studies have been done to further identify these components, using various methods such as liquid chromatography and liquid-liquid extraction, which can be used to separate the components that comprise humic substances. The substances identified, according to some research, include mono, di, and tri-hydroxy acids, fatty acids, carboxylic acids, linear alcohols, phenolic acids, and terpenoids.
Humic substances are natural phenomena that have been developed in humic chemistry over lengthy periods of time. They reflect the mystery of the universes intelligent and marvelous design. The proverbial proof is in the pudding. Again, with that in mind, the best course of action is to do comparative work under controlled conditions and allowing these plants to communicate these dynamic mysteries through their unique metabolisms.