China EDTA Fertilizer Manufacturer

HUMICO has been manufacturing EDTA Fertilizer for 10+ years.
Supplying EDTA with Cu, Fe, Mg, Mn, Zn, Ca, etc.

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Humico EDTA Fertilizer

EDTA Fertilizer refers to a category of fertilizers that contain essential micronutrients chelated with Ethylenediaminetetraacetic acid (EDTA). This chelation process enhances the nutrients’ solubility and availability to plants, ensuring efficient uptake and utilization. Commonly chelated micronutrients include zinc, iron, manganese, and copper. EDTA Fertilizers are particularly beneficial in correcting micronutrient deficiencies, supporting plant health, growth, and productivity across a wide range of agricultural and horticultural applications.

EDTA Elements

Humico EDTA-Cu Powder Blue Color Appearance
Cu: 14.7-15.3%
Sulphate: 0.05%max
Chloride: 0.05%max
Water Insoluble: 0.01%max
pH: 5-7
Cas No.: 14025-15-1
Einecs No.: 237-864-5
Formula: C10H12N2O8CuNa2
Property: Blue crystalline powder. It is stable water-soluble metal chelate.
Solubility in water: approx.1200g/L (20°C)
Fe: 12.7-13.3%
Sulphate: 0.05%max
Chloride: 0.05%max
Water Insoluble: 0.01%max
pH: 3.5-5.5
Cas No. 15708-41-5
Einecs No.: 239-802-2
Formula: C10H12N2O8FeNa.3H2O
Formula weight: 421.1
Property: Pure Primrose Yellow powder.It is stable water-soluble metal chelate.
Mg: 5.5%-6%
Sulphate: 0.05%max
Chloride: 0.05%max
Water Insoluble: 0.01% max
pH: 5-7
Cas No.: 14402-88-1
Einecs No.: 238-372-3
Formula: C10H12N2O8MgNa2
Formula weight: 358.52
Property: White Crystalline powder. It is stable water-soluble metal chelate.
Mn: 12.7-13.3%
Water Insoluble: 0.1%max
PH (1% solution): 5.0-7.0
Appearance: Light pink crystalline powder
Cas No.: 15375-84-5
Einecs No.: 239-407-5
Formula: C10H12N2O8MnNa2
Formula weight: 389.1
Property: Pure light pink powder. It is stable water-soluble metal chelate.
Zn: 14.7-15.3%
Sulphate: 0.05%max
Chloride: 0.05%max
Water Insoluble: 0.01%max
pH: 5-7
Cas No.: 14025-21-9
Einecs No.: 237-865-0
Formula: C10H12N2O8ZnNa2
Formula weight: 399.6
Property: White Crystalline powder. It is stable water-soluble metal chelate.

EDTA Fertilizer Specification

ProductAppearanceContentpH(1%solution)Water insoluble
EDTA FeYellow powder12.7-13.3%3.5~5.5≤0.1%
EDTA CuBlue powder14.7-15.3%5~7≤0.1%
EDTA MnLight pink powder12.7-13.3%5~7≤0.1%
EDTA ZnWhite powder14.7-15.3%5~7≤0.1%
EDTA MgWhite powder5.5-6%5~7≤0.1%
Play Video about Humico EDTA-Fe Powder Yellow Color Appearance

Product Video
Humico EDTA Powder

EDTA Fertilizer Manufacturing Process

The EDTA Fertilizer manufacturing process entails the chemical synthesis of EDTA, followed by its reaction with metal ions like zinc, iron, manganese, or copper to form metal-EDTA chelates. This sequence includes synthesizing the EDTA ligand, mixing it with specific metal salts, and then undergoing a chelation reaction. The resulting chelated compounds are then purified, tested for quality assurance, and finally formulated into a fertilizer product that is highly soluble and readily available for plant uptake. This method ensures the production of effective micronutrient fertilizers that address specific nutrient deficiencies in plants.

 

Humico EDTA-Mn Powder Light Pink Crystalline Color Appearance
Play Video about Humico EDTA-Cu Powder Water Solubility

EDTA Fertilizer Water Solubility

HUMICO EDTA fertilizer is prized for its exceptional water solubility, ensuring rapid and efficient nutrient uptake by plants. With its unique formulation, our fertilizer readily dissolves in water, forming a clear and homogeneous solution that can be easily applied through irrigation systems, foliar sprays, or soil drenches. This high solubility guarantees uniform distribution of essential nutrients, such as iron, manganese, zinc, and copper, throughout the plant root zone, promoting robust growth and vibrant foliage. Experience the convenience and effectiveness of our EDTA fertilizer, designed to optimize plant nutrition and vitality with ease.

HUMICO EDTA Fertilizer MSDS/TDS

MSDS.pdf

EDTA Fertilizer

TDS.pdf

EDTA Fertilizer

EDTA Fertilizer Documents

Package of HUMICO EDTA Fertilizer

1KG/BAG, 5KGS/BAG, 10KGS/BAG,
20KGS, 25KGS/Kraft Paper Bag,
or customized packing is available.

Play Video about Humico EDTA-Mn Powder Light Pink Crystalline Color Appearance

FAQ of HUMICO EDTA Fertilizer

FAQ HUMICO
Free Sample HUMICO

1. How do you maintain quality control?We place immense value on the quality of our products. To ensure this, our quality control team is deeply involved at every stage of the production process. Each batch of our product undergoes rigorous testing, including HPLC, before dispatch. Additionally, pre-shipment inspections by SGS or PONY are conducted to guarantee the quality of our products.
2. Do you offer samples?Absolutely, we are happy to provide samples upon request. Once we receive your inquiry, we will promptly arrange to send samples to you.
3. What are the payment terms?Typically, our payment terms are 30% TT in advance, with the remaining 70% TT against the BL copy. We also accept LC at sight.
4. How can I track my shipment after payment?Rest assured, we will keep you updated on your shipment. Details including packing, tracking number, loading photos, and shipping documents will be sent to your email promptly.
5. What is your minimum order quantity (MOQ)?Our standard MOQ is 1 kilogram.
6. Can you customize our bags or print our logo on them?
Absolutely, we welcome and accept OEM requests!
7. How long does delivery take?Our general delivery timeframe is 7-10 days, assuming we have the product in stock. If not, it may take between 10-15 days to arrange shipping.
8. Are you trading company or manufacturer?We are manufacturer. Our manufacturing facility is nestled in the scenic landscapes of the Ningxia Autonomous Region. With an annual production capacity of 100,000 tons, we cordially invite you to visit our factory.

EDTA Fertilizer Uses & Application

Fulvic Acid Uses
Fulvic Acid Uses

EDTA fertilizer, containing the chelating agent Ethylenediaminetetraacetic acid, is widely used in agriculture, horticulture, and hydroponics for its versatile applications and benefits. Here’s how it’s applied:

  1. Micronutrient Supply: EDTA fertilizer is primarily used to supply essential micronutrients such as iron, manganese, zinc, copper, and cobalt to plants. These micronutrients are crucial for various physiological processes, including photosynthesis, enzyme activation, and hormone synthesis.
  2. Soil Application: It can be applied directly to the soil, where it serves as a long-lasting source of micronutrients. This method ensures a gradual release of nutrients, promoting sustained plant growth over time. EDTA fertilizer is often incorporated into the soil during planting or applied as a top dressing around established plants.
  3. Foliar Spray: EDTA fertilizer can also be applied as a foliar spray, allowing for quick and efficient nutrient uptake through the leaves. Foliar application is particularly effective for correcting nutrient deficiencies and providing micronutrients during critical growth stages. It’s essential to apply the fertilizer during periods of low sunlight and when the stomata are open for optimal absorption.
  4. Hydroponic Systems: In hydroponic systems, where plants grow in nutrient solutions without soil, EDTA fertilizer is commonly used to supply micronutrients directly to the plant roots. It’s added to the nutrient solution in precise concentrations to ensure balanced nutrition and healthy plant growth.
  5. Greenhouse and Container Gardening: EDTA fertilizer is suitable for greenhouse and container gardening, where precise nutrient management is essential for optimal plant growth. It’s often incorporated into customized fertilizer blends or nutrient solutions tailored to the specific needs of different crops and growing conditions.
  6. Crop Specific Applications: Certain crops, such as citrus fruits, berries, and ornamental plants, have specific nutrient requirements that can be met with EDTA fertilizer. By adjusting application rates and timing according to crop needs, growers can optimize nutrient uptake and enhance crop quality and yield.

Overall, EDTA fertilizer plays a vital role in maintaining plant health and productivity by supplying essential micronutrients in a readily available form. When used correctly and in conjunction with soil tests and crop monitoring, it can help prevent and correct nutrient deficiencies, ensuring vigorous growth and high yields in a variety of agricultural and horticultural settings.

Benefits of EDTA Fertilizer

Benefits of Fulvic Acid Fertilizer
Benefits of Fulvic Acid Fertilizer

EDTA fertilizer, which contains the chelating agent Ethylenediaminetetraacetic acid, offers numerous benefits for plant growth and soil health. Some of the key advantages include:

  1. Improved Nutrient Uptake: EDTA chelates micronutrients such as iron, manganese, zinc, copper, and cobalt, making them more available and accessible to plants. This enhances nutrient uptake, even in soils with poor nutrient availability or pH imbalances, promoting healthy growth and development.
  2. Correction of Micronutrient Deficiencies: EDTA fertilizer is highly effective in correcting and preventing micronutrient deficiencies in plants. By supplying essential trace elements in a readily absorbable form, it helps overcome deficiencies that can lead to stunted growth, yellowing leaves (chlorosis), and decreased yield.
  3. Increased Nutrient Use Efficiency: Chelated micronutrients in EDTA fertilizer remain stable and available in the soil solution over an extended period, reducing the risk of nutrient leaching or fixation. This improves nutrient use efficiency by ensuring that plants have continuous access to essential micronutrients throughout their growth stages.
  4. Enhanced Plant Health and Vitality: Adequate micronutrient supply from EDTA fertilizer supports various physiological processes in plants, including photosynthesis, enzyme activation, and hormone synthesis. This leads to improved plant health, vigor, and stress tolerance, resulting in stronger, more resilient plants with increased resistance to pests, diseases, and environmental stressors.
  5. Optimized Crop Yield and Quality: By addressing micronutrient deficiencies and promoting balanced nutrition, EDTA fertilizer helps maximize crop yield and quality. It contributes to uniform growth, increased biomass accumulation, and improved fruit set, size, color, and flavor, resulting in higher marketable yields and improved economic returns for growers.
  6. Versatile Application Methods: EDTA fertilizer can be applied through various methods, including soil incorporation, foliar spraying, and fertigation, making it suitable for different crops, soils, and growing conditions. Its versatility allows growers to customize application strategies based on crop requirements, soil conditions, and management practices.
  7. Compatibility with Other Inputs: EDTA fertilizer is compatible with most commonly used fertilizers, pesticides, and soil amendments, allowing for integrated nutrient management and optimized agronomic practices. It can be conveniently tank-mixed or applied in rotation with other agricultural inputs, enhancing overall nutrient management efficiency.

Overall, EDTA fertilizer provides a reliable and effective solution for addressing micronutrient deficiencies and optimizing plant nutrition in a wide range of agricultural and horticultural settings. Its ability to enhance nutrient uptake, promote plant health, and maximize crop productivity makes it a valuable tool for sustainable crop production and soil management.

Ultimate FAQ Guide to EDTA Fertilizer

In agriculture, Ethylenediaminetetraacetic acid (EDTA) is primarily used as a chelating agent in fertilizers to improve the availability and uptake of micronutrients by plants. Here’s how EDTA is used in agriculture:

  1. Micronutrient Fertilization: EDTA is added to fertilizers to chelate essential micronutrients such as iron (Fe), manganese (Mn), zinc (Zn), copper (Cu), and cobalt (Co). These micronutrients are vital for various physiological processes in plants, including photosynthesis, enzyme activation, and hormone synthesis. By chelating micronutrients, EDTA prevents them from binding to soil particles, making them more soluble and available for plant uptake.

  2. Nutrient Deficiency Correction: EDTA-containing fertilizers are applied to correct and prevent micronutrient deficiencies in plants. Micronutrient deficiencies can lead to stunted growth, yellowing of leaves (chlorosis), and reduced yield. EDTA helps overcome these deficiencies by supplying chelated micronutrients that are readily absorbed by plant roots or leaves.

  3. Soil Remediation: In some cases, EDTA is used in soil remediation projects to solubilize heavy metals and improve their availability for plant uptake. This process, known as chelate-assisted phytoextraction, involves applying EDTA to contaminated soils to enhance the mobility and uptake of heavy metals by hyperaccumulating plants. However, EDTA-mediated phytoextraction poses environmental risks and must be carefully managed to prevent soil and water contamination.

Overall, EDTA plays a crucial role in agriculture by improving nutrient availability, correcting micronutrient deficiencies, and supporting healthy plant growth. Its use in fertilizers helps optimize nutrient management practices and maximize crop productivity in a wide range of cropping systems.

Ethylenediaminetetraacetic acid (EDTA) is commonly used in fertilizers for several reasons:

  1. Chelation of Micronutrients: EDTA acts as a chelating agent, meaning it can bind to metal ions, such as iron (Fe), manganese (Mn), zinc (Zn), copper (Cu), and cobalt (Co). These micronutrients are essential for plant growth and development. By chelating these micronutrients, EDTA prevents them from forming insoluble compounds in the soil, making them more available and accessible to plants.

  2. Improvement of Nutrient Uptake: Chelated micronutrients are more soluble in water and less prone to reactions with soil particles. This improves their mobility in the soil and enhances their uptake by plant roots. EDTA helps ensure that plants have an adequate supply of micronutrients, even in soils with poor nutrient availability or unfavorable pH conditions.

  3. Prevention of Nutrient Deficiencies: Micronutrient deficiencies can adversely affect plant growth, leading to symptoms such as stunted growth, yellowing of leaves (chlorosis), and reduced yield. By supplying chelated micronutrients, EDTA-containing fertilizers help prevent and correct these deficiencies, promoting healthy plant growth and maximizing crop yields.

  4. Compatibility with Other Inputs: EDTA is compatible with most commonly used fertilizers, pesticides, and soil amendments. It can be easily incorporated into fertilizer formulations or applied in combination with other agricultural inputs. This allows growers to customize their nutrient management strategies and optimize plant nutrition for maximum productivity.

Overall, EDTA is used in fertilizers to improve the availability and uptake of micronutrients by plants, thereby supporting healthy growth, optimizing crop yields, and ensuring sustainable agriculture practices. Its chelating properties make it a valuable tool for addressing nutrient deficiencies and promoting balanced plant nutrition in a wide range of cropping systems.

EDTA (Ethylenediaminetetraacetic acid) is generally considered safe for plants when used appropriately and at recommended rates. Here are some considerations regarding the safety of EDTA for plants:

  1. Micronutrient Chelation: EDTA is commonly used in fertilizers to chelate micronutrients such as iron, manganese, zinc, copper, and cobalt. Chelation helps keep these micronutrients soluble in soil solution and prevents them from forming insoluble compounds that are unavailable to plants. This ensures that plants have access to essential micronutrients for healthy growth and development.

  2. Prevention of Nutrient Deficiencies: By improving the availability and uptake of micronutrients, EDTA helps prevent and correct nutrient deficiencies in plants. Micronutrient deficiencies can lead to stunted growth, yellowing of leaves (chlorosis), and reduced yield. EDTA-containing fertilizers provide a reliable source of micronutrients, ensuring optimal plant nutrition and productivity.

  3. Enhanced Nutrient Uptake: EDTA facilitates the uptake of micronutrients by plant roots, even in soils with poor nutrient availability or unfavorable pH conditions. Its chelating properties improve the mobility and accessibility of micronutrients in the soil, enhancing their absorption by plant roots and promoting vigorous plant growth.

  4. Compatibility with Plants: EDTA is compatible with most plant species and can be used across a wide range of cropping systems, including agriculture, horticulture, and hydroponics. When applied according to label instructions and at recommended rates, EDTA-containing fertilizers are unlikely to cause harm to plants and can instead support their nutritional needs.

  5. Environmental Considerations: While EDTA is generally safe for plants, its environmental impact should be considered, especially in terms of its potential to leach into groundwater or accumulate in soils. Proper application practices, including accurate dosing, targeted placement, and appropriate timing, can help minimize the risk of environmental contamination.

Overall, EDTA is considered safe for plants when used responsibly as part of a balanced fertilization program. Growers should follow label instructions and best management practices to ensure effective and sustainable use of EDTA-containing fertilizers while promoting plant health and productivity.

The eco-friendliness of EDTA (Ethylenediaminetetraacetic acid) depends on several factors, including its use, disposal, and environmental impact. Here are some considerations regarding the eco-friendliness of EDTA:

  1. Chelating Properties: EDTA is a versatile chelating agent commonly used in various industrial, agricultural, and household products. Its ability to bind to metal ions makes it useful for applications such as metal cleaning, water treatment, and fertilizer production. While EDTA can improve the solubility and availability of nutrients in fertilizers, it can also chelate heavy metals and other contaminants, making them more soluble and potentially more mobile in the environment.

  2. Environmental Persistence: One concern with EDTA is its persistence in the environment. EDTA and its chelated complexes can remain stable for extended periods, leading to potential accumulation in soil, water, and biota. This persistence can increase the risk of environmental exposure and impact, particularly in areas with frequent EDTA use or contamination.

  3. Biodegradability: EDTA is relatively resistant to biodegradation under certain conditions, especially in the absence of microbial activity or in environments with low organic matter content. While some microorganisms can metabolize EDTA and its degradation products over time, complete degradation may take years or even decades, depending on environmental factors.

  4. Environmental Impact: The environmental impact of EDTA can vary depending on its use and disposal practices. Improper disposal of EDTA-containing products or wastewater can lead to environmental contamination, particularly in sensitive ecosystems such as rivers, lakes, and groundwater. EDTA can chelate heavy metals and other pollutants, increasing their mobility and potential for environmental harm.

  5. Regulatory Considerations: Due to concerns about its environmental persistence and potential toxicity, regulatory agencies have implemented restrictions on EDTA use and discharge in certain applications. In some regions, EDTA-containing products are subject to labeling requirements, usage restrictions, and environmental monitoring to mitigate potential risks.

Overall, while EDTA can offer benefits in certain applications, its eco-friendliness is subject to careful consideration of its environmental impact, proper use, and disposal practices. Sustainable management practices, including pollution prevention, waste reduction, and the use of alternative chelating agents, can help minimize the environmental footprint of EDTA and promote a more eco-friendly approach to its use.

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