Skip to Main Content
AB BC MB NB ON PE QC SK AL AR AZ CA CO CT DC DE FL GA IA ID IL IN KS KY LA MA MD ME MI MN MO MS MT NC ND NE NH NJ NM NV NY OH OK OR PA RI SC SD TN TX UT VA VT WA WI WV WY NS

Personalize your experience

Create an enhanced site experience specific to your needs by providing your region and crop.

To begin, select on the map where your farm is located.

You're located in the

Select your desired crop

    Enjoy an enhanced site experience tailored to growing in the

    Scroll Select

    Potassium Chloride

    Potassium (K) fertilizers are commonly used to overcome plant deficiencies. Where soils cannot supply the amount of K required by crops, farmers must supplement this essential plant nutrient. Potash is a general term used to describe a variety of K-containing agricultural fertilizers. Potassium chloride (KCl), the most commonly used source, is also frequently referred to as muriate of potash, or MOP (muriate is the old name for any chloride-containing salt).

    Potassium is always present in minerals as a single-charged cation (K⁺).

    Production

    Deeply buried potash deposits exist throughout the world. The dominant mineral is sylvite mixed with halite (sodium chloride), which forms a mixed mineral called sylvinite. Most K minerals are harvested from ancient marine deposits deep beneath the Earth’s surface. They are then transported to a processing facility where the ore is crushed and the K salts are separated from the sodium salts. The color of KCl can vary from red to white, depending on the source of the sylvinite ore. The reddish tint comes from trace amounts of iron oxide. There are no agronomic differences between the red and white forms of KCl.

    chemical properties - potassium chloride

    Some KCl is produced by injecting hot water deep into the ground to dissolve the soluble sylvinite mineral and then pumping the brine back to the surface, where the water evaporates. Solar evaporation is used to recover valuable potash salts from brine water in Utah’s Dead Sea and Great Salt Lake, for example.

    Agricultural use

    Potassium chloride is the most widely applied K fertilizer because of its relatively low cost and because it includes more K than most other sources: 50 to 52 percent K (60 to 63 percent K₂O) and 45 to 47 percent Cl⁻.

    More than 90 percent of global potash production goes into plant nutrition. Farmers spread KCL onto the soil surface prior to tillage and planting. It may also be applied in a concentrated band near the seed. Since dissolving fertilizer will increase the soluble salt concentration, banded KCl is placed to the side of the seed to avoid damaging the germinating plant.

    Potassium chloride rapidly dissolves in soil water. The K⁺ will be retained on the negatively charged cation exchange sites of clay and organic matter. The Cl⁻ portion will readily move with the water. An especially pure grade of KCl can be dissolved for fluid fertilizers or applied through irrigation systems.

    Management practices

    potassium chloride

    Potassium chloride is found in various shades and particle sizes.

    Potassium chloride is primarily used as a source of K nutrition. However, there are regions where plants respond favorably to application of Cl⁻. Potassium chloride is usually the preferred material to meet this need. There are no significant impacts on water or air associated with normal application rates of KCl. Elevated salt concentrations surrounding the dissolving fertilizer may be the most important factor to consider.

    Non-agricultural use

    Potassium is essential for human and animal health.

    Potassium chloride can be used as a salt substitute for individuals on a restricted salt (sodium chloride) diet. It is used as a deicing agent and has a fertilizing value after the ice melts. It is also used in water softeners to replace calcium in water.

    Source: Nutrient Source Specifics (No. 3), International Plant Nutrition Institute.