1、Amino Acids In Agriculture – Impello® Biosciences

Although the majority of nitrogen fertilizers used in agriculture today are chemically synthesized to create nutrients like nitrates and ammonium, there’s growing interest in another type of nitrogen fertilizer: amino acids.

2、Amino Acids in Fertilizers: A Wide Range of Applications

Amino acid fertilizers contain various essential amino acids for plants, such as glutamic acid, aspartic acid, and lysine. These amino acids can be directly absorbed and utilized by plants, serving as a nitrogen source and promoting protein synthesis within plants.

3、Types and Advantages of Amino Acid Fertilizer

There are many types of amino acids, including common ones such as glutamic acid, glycine, phenylalanine, serine, methionine, as well as polymers like polyaspartic acid and polyglutamic acid. Due to the variety of amino acids, there are also many amino acid fertilizers on the market.

4、What is amino acid fertilizer?

The nitrogen, phosphorus and potassium in amino acid fertilizers are all rich in free amino acids. The molecular structure of organic matter itself contains nitrogen, phosphorus and potassium.

5、What Is Amino Acid Fertilizer? The Power Of Protein

Amino acid fertilizers are specialized formulations that contain a concentrated blend of amino acids, often derived from natural sources such as hydrolyzed animal proteins, plant extracts, or microbial fermentation.

Amino acids in agriculture – important fertilisers components

Therefore, when selecting foliar fertilisers, it’s worth paying attention to whether they contain amino acids (e.g., INTERMAG’s AMINO ULTRA® series fertilisers). Foliar fertilisation with amino acids is even more effective and offers a range of additional benefits described above.

Types and functions of amino acid fertilizers.

Amino acid fertilizers are organic fertilizers with amino acids as the main ingredients. They can directly provide nutrition for crops and are easily absorbed and utilized by crops. They have the advantages of high nutritional value and high utilization rate.

Learn all about amino acid

Fertilizers rich in amino acids have revolutionized crop care, being a versatile and natural option to boost plant development. This article explains in depth what amino acids are, how they work in plant nutrition, and how you can use them to maximize the benefits in your crops.

Amino Acids, This is the Way

Atmospheric nitrogen can be converted to plant-available amino acids by symbiotic rhizobial bacteria or free-living bacteria such as Azotobacter and Cyanobacterium. Conventional agriculture uses synthetic quick release nitrogen fertilizers such as ammonium nitrate and urea.

Understanding Nutrient Uptake: Amino Acids vs. Inorganic Fertilizers

A key debate in agricultural nutrition revolves around the comparative efficiency of amino acid-based fertilizers versus conventional inorganic fertilizers. Soybean Amino Acid 80% Fertilizer offers a compelling alternative, driven by distinct uptake mechanisms that benefit plant health and nutrient utilization.

Pure nitrogen fertilizers are chemical fertilizers with nitrogen gas as their main component. In soil, nitrogen gas converts into forms such as nitrates, which can be absorbed and utilized by plants. The primary function of pure nitrogen fertilizers is to provide plants with nitrogen nutrition, promoting growth and development.

The main types of amino acid fertilizers are as follows:

1. Urea: Urea is a commonly used nitrogen fertilizer, with its main components being ammonia (NH₃) and carbon dioxide (CO₂). Urea reacts with nitrogen in the soil, converting it into nitrates and other forms for plant absorption. It is suitable for various crops, especially those with high nitrogen demands.

2. Ammonium Nitrate (NH₄NO₃): This is a compound fertilizer containing nitrogen, phosphorus, and potassium. Its main component, ammonium nitrate, transforms nitrogen into nitrates through chemical reactions. It is suitable for various crops, particularly those requiring high nitrogen levels.

3. Diammonium Phosphate (NH₄H₂PO₄): A compound fertilizer containing nitrogen, phosphorus, and potassium, its main components are diammonium phosphate and potassium dihydrogen phosphate (KH₂PO₄). Nitrogen in this fertilizer converts into nitrates via chemical reactions. It is ideal for crops with high nitrogen needs.

4. Monoammonium Phosphate (NH₄H₂PO₄): Another compound fertilizer with nitrogen, phosphorus, and potassium, its main components are monoammonium phosphate and potassium dihydrogen phosphate (KH₂PO₄). Nitrogen undergoes chemical transformation into nitrates. It is suitable for crops requiring significant nitrogen.

5. Ammonium Sulfate [(NH₄)₂SO₄]: A compound fertilizer containing nitrogen, sulfur, and potassium, its main components are ammonium sulfate and potassium sulfate. Nitrogen is converted into nitrates through reactions. It works well for nitrogen-demanding crops.

6. Ammonium Chloride (NH₄Cl): This compound fertilizer contains nitrogen, chlorine, and potassium, with main components being ammonium chloride and potassium chloride (KCl). Nitrogen is transformed into nitrates. It is suitable for crops with high nitrogen requirements.

7. Potassium Nitrate (KNO₃): A compound fertilizer containing nitrogen and potassium, its main component is potassium nitrate. Nitrogen converts into nitrates through chemical processes. It is effective for nitrogen-intensive crops.

8. Potassium Sulfate (K₂SO₄): A compound fertilizer with nitrogen, sulfur, and potassium, its main components are potassium sulfate and ammonium sulfate. Nitrogen is converted into nitrates. It is suited for crops demanding high nitrogen.

9. Potassium Chloride (KCl): A compound fertilizer containing nitrogen, chlorine, and potassium, its main components are potassium chloride and ammonium chloride. Nitrogen undergoes chemical conversion into nitrates. It is ideal for nitrogen-hungry crops.

10. Potassium Carbonate (K₂CO₃): A compound fertilizer with nitrogen, carbon, and potassium, its main components are potassium bicarbonate (KHCO₃). Nitrogen is transformed into nitrates. It is suitable for crops requiring abundant nitrogen.

pure nitrogen fertilizers encompass various amino acid fertilizer types, each with unique characteristics and optimal crop applications. When selecting and applying these fertilizers, factors such as crop requirements, soil conditions, and climate should be comprehensively considered to achieve the best fertilization results.