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Difference between chelated and non chelated micro nutrients.

The main difference between chelated and non-chelated micronutrients is their availability for plant uptake.

Chelated micronutrients are those that are chemically bound to a chelating agent, such as EDTA (ethylenediaminetetraacetic acid), DTPA (diethylenetriaminepentaacetic acid), or EDDHA (ethylenediamine-N,N'-bis(2-hydroxyphenyl)acetic acid). This chelation process makes the micronutrient more stable and soluble in water, which enhances its availability for plant uptake. Chelated micronutrients can remain available to the plant for longer periods of time, even in alkaline soils, where non-chelated micronutrients become less available due to their precipitation.

Non-chelated micronutrients, on the other hand, are not bound to any chelating agent and are generally less stable and soluble in water. This makes them more prone to precipitation and adsorption onto soil particles, which reduces their availability for plant uptake. Non-chelated micronutrients are usually more soluble and available in acidic soils, but their availability can be limited in alkaline soils.

Chelated micronutrients are often preferred over non-chelated micronutrients in agriculture because they offer several advantages, such as increased stability and availability, greater control over the application rate, and better absorption by plants. However, chelated micronutrients can be more expensive than non-chelated micronutrients, and excessive use can lead to environmental pollution. Non-chelated micronutrients are generally more cost-effective and are suitable for some soil types and crops.

Radongrow Provides a Hydroponic Nutrient with a Balance amount of Chelated Micronutrients for Leafy greens, Fruting and Vine crops, and Flowering crops.

Iron Deficiency in plants.

Iron deficiency is a common problem in many crops and is one of the most common mineral nutrient deficiencies in plants. Iron is essential for many metabolic processes in plants, including photosynthesis, respiration, and nitrogen fixation. A deficiency of iron can lead to chlorosis (yellowing) of leaves, stunted growth, and reduced yields.

The symptoms of iron deficiency are most apparent in the youngest leaves, which will turn yellow while the veins remain green. The leaves may also become brittle and show signs of necrosis (tissue death). In some plants, such as rice, the entire plant may take on a yellow appearance, which is known as "white chlorosis."

Iron deficiency can occur in soils that are alkaline, poorly aerated, or waterlogged. In alkaline soils, iron becomes insoluble and unavailable for plant uptake. In poorly aerated or waterlogged soils, the availability of iron to plants is reduced because the roots cannot take up enough oxygen to maintain the biochemical processes needed for iron uptake.

To address iron deficiency in plants, iron can be added to the soil in the form of iron chelates or ferrous sulfate. Iron can also be applied as a foliar spray. However, it is important to note that excessive amounts of iron can lead to toxicity in plants. Therefore, it is essential to monitor the iron levels in the soil and the plant tissue to avoid both deficiency and toxicity. Additionally, improving soil drainage and aeration can help to increase the availability of iron to plants.

Radongrow Provides a Hydroponic Nutrient with a Balance amount of Chelated Iron for Leafy greens, Fruting and Vine crops, and Flowering crops.

Iron Toxicity in Plants.

Iron toxicity in plants can occur when the concentration of iron in the soil is too high, or when the pH of the soil is low (acidic). In acidic soils, iron becomes more soluble and available for plant uptake, which can lead to excessive accumulation of iron in plant tissues.


The symptoms of iron toxicity in plants can vary depending on the plant species, but they generally include leaf bronzing, stunted growth, reduced yields, and tissue damage. In some cases, iron toxicity can cause leaf necrosis and death of the entire plant.

Iron toxicity can also lead to an imbalance in other nutrients, such as manganese, zinc, and copper, which can become unavailable for plant uptake when the concentration of iron in the soil is too high.

To address iron toxicity in plants, it is important to reduce the concentration of iron in the soil or adjust the pH of the soil to a more neutral range. This can be achieved by leaching the soil with water, adding lime to raise the soil pH, or adding organic matter to the soil to improve soil structure and nutrient availability. It is also important to avoid over-fertilizing with iron-containing fertilizers, especially in acidic soils. Soil testing and regular monitoring of plant health can help to identify iron toxicity early and prevent further damage to the plants.

Radongrow Provides a Hydroponic Nutrient with a Balance amount of Chelated Iron for Leafy greens, Fruting and Vine crops, and Flowering crops.

Iron Role in plants.

Iron is an essential micronutrient required for plant growth and development. It is a component of many enzymes involved in important metabolic processes, such as photosynthesis and respiration. Iron is also required for the synthesis of chlorophyll, the green pigment that is essential for photosynthesis.


Iron is primarily absorbed by plants in its ferrous (Fe2+) form. In most soils, iron is present in its ferric (Fe3+) form, which is insoluble and unavailable for plant uptake. However, some plants have developed mechanisms to acidify the soil around their roots, which converts the ferric form of iron to the ferrous form and makes it available for plant uptake.

Iron deficiency in plants can lead to chlorosis (yellowing) of leaves, stunted growth, and reduced yields. The symptoms of iron deficiency are most apparent in the youngest leaves, which will turn yellow while the veins remain green.

Iron toxicity can also occur in plants when they are exposed to high levels of iron in the soil. This can lead to leaf bronzing, stunted growth, and reduced yields. Iron toxicity is more likely to occur in acidic soils, where iron is more soluble and available for plant uptake.

To address iron deficiency in plants, iron can be added to the soil in the form of iron chelates or ferrous sulfate. Iron can also be applied as a foliar spray. To address iron toxicity, it is important to reduce the amount of iron in the soil or adjust the soil pH to a more neutral range. In some cases, it may be necessary to leach the soil with water to remove excess iron.

Radongrow Provides a Hydroponic Nutrient with a Balance amount of Chelated Iron for Leafy greens, Fruting and Vine crops, and Flowering crops.

Sulfur toxicity in Plants

While sulfur is an essential macronutrient for plant growth, excessive amounts of sulfur in the soil can lead to toxicity in plants. Sulfur toxicity can occur when plants are exposed to high levels of sulfur in the soil or when they are treated with sulfur-containing pesticides or fungicides.


The symptoms of sulfur toxicity in plants include stunted growth, yellowing of leaves, and a reduced ability to photosynthesize. In severe cases, sulfur toxicity can cause plant death. Sulfur toxicity can also reduce the uptake of other essential nutrients, such as phosphorus, potassium, and calcium, by plants.

Sulfur toxicity can occur in soils that have a high concentration of sulfur, such as soils in areas with volcanic activity or soils that have been heavily fertilized with sulfur-containing fertilizers. It can also occur in plants that are grown in areas with high levels of atmospheric sulfur dioxide, which can be emitted from industrial processes.

To address sulfur toxicity in plants, it is important to reduce the amount of sulfur in the soil or in the environment. This can be achieved by reducing the use of sulfur-containing fertilizers or pesticides, increasing the use of organic matter in the soil, and improving soil drainage to reduce the accumulation of sulfur in the soil. In some cases, it may be necessary to leach the soil with water to remove excess sulfur.

Radongrow Provides a Hydroponic Nutrient with a Balance amount of Sulfur for Leafy greens, Fruting and Vine crops, and Flowering crops.

Sulfur Deficiency in Plants

Sulfur is an essential macronutrient required for the growth and development of plants. It plays a crucial role in protein synthesis, chlorophyll production, and the formation of certain amino acids and vitamins. Sulfur is obtained by plants from the soil in the form of sulfate (SO4^2-) ions.


A sulfur deficiency in plants can result in stunted growth, chlorosis (yellowing) of leaves, and reduced yields. The symptoms of sulfur deficiency are similar to those of nitrogen deficiency, which can make it difficult to diagnose. However, sulfur deficiency tends to affect the new leaves first, whereas nitrogen deficiency affects the older leaves.

Sulfur deficiency can occur in soils that are low in organic matter or have a high pH. It can also occur in soils that have been heavily fertilized with nitrogen, as nitrogen can compete with sulfur for uptake by the plant. Additionally, sulfur deficiency can be exacerbated by environmental factors such as drought, high temperatures, or high light intensity.

To address a sulfur deficiency in plants, sulfur can be added to the soil in the form of sulfate fertilizers. Some organic amendments, such as composted manure or green manure, can also provide a source of sulfur for plants. Additionally, adjusting the soil pH to a slightly acidic range (around 6.0 to 6.5) can improve the availability of sulfur to plants.

Radongrow Provides a Hydroponic Nutrient with a Balance amount of Sulfur for Leafy greens, Fruting and Vine crops, and Flowering crops.

Sulfur role in Plants

Sulfur is an essential macronutrient for plant growth and development. It plays several important roles in various physiological processes. Here are some of the key roles of sulfur in plants:


Protein synthesis: Sulfur is a key component of amino acids, which are the building blocks of proteins. Without sulfur, plants cannot produce proteins, which are essential for growth and development.


Enzyme activation: Sulfur is also involved in activating many enzymes that play a crucial role in various metabolic processes, including photosynthesis, respiration, and nutrient uptake.


Chlorophyll synthesis: Sulfur is an essential component of the chlorophyll molecule, which is responsible for capturing light energy during photosynthesis.


Stress tolerance: Sulfur plays a crucial role in enhancing the stress tolerance of plants, including resistance to diseases, drought, and extreme temperatures.


Sulfur also plays a role in the production of secondary metabolites such as glucosinolates, which are important for plant defense against pests and diseases.

Overall, sulfur is essential for maintaining the growth and health of plants, and its deficiency can lead to various plant disorders and growth problems.

Radongrow Provides a Hydroponic Nutrient with a Balance amount of Sulfur for Leafy greens, Fruting and Vine crops, and Flowering crops.

Magnesium Toxicity in Plants.

Magnesium toxicity can occur in plants when there is an excessive accumulation of magnesium in the soil or growing medium. Here are some of the symptoms of magnesium toxicity in plants:


Reduced plant growth: High levels of magnesium can inhibit plant growth, resulting in stunted growth and reduced yields.


Interveinal chlorosis: Magnesium toxicity can cause interveinal chlorosis, where the veins of the leaves remain green, but the areas between the veins turn yellow.


Mineral imbalances: Excessive magnesium levels can interfere with the uptake and use of other essential minerals such as calcium and potassium, leading to nutrient imbalances.


Leaf damage: Magnesium toxicity can cause leaf margins to become brown and scorched, leading to defoliation.


Reduced photosynthesis: High levels of magnesium can interfere with the process of photosynthesis and reduce the plant's ability to produce energy, leading to reduced yields.

To prevent magnesium toxicity, it is important to maintain proper soil pH and Hydroponic Nutrient pH and avoid over-fertilization with magnesium-containing fertilizers. Testing the soil regularly to monitor magnesium levels and balancing the nutrient levels in the soil can help to prevent magnesium toxicity. If necessary, adding amendments to adjust the pH of the soil can also be helpful in reducing the risk of magnesium toxicity in plants.

Radongrow Provides a Hydroponic Nutrient with a Balance amount of Magnesium for Leafy greens, Fruting and Vine crops, and Flowering crops.

Magnesium deficiency in plants.

Magnesium deficiency is a common problem in plants and can lead to various growth disorders and diseases. Here are some of the symptoms of magnesium deficiency in plants:

Chlorosis: One of the most common symptoms of magnesium deficiency is interveinal chlorosis, where the leaves turn yellow between the veins while the veins remain green.

Stunted growth: Plants with magnesium deficiency may exhibit stunted growth and have smaller leaves than healthy plants.

Poor fruit quality: Magnesium deficiency can also affect fruit quality, leading to disorders such as bitter pit in apples and blossom-end rot in tomatoes and peppers.

Increased susceptibility to diseases: Magnesium plays an important role in strengthening plant cell walls and increasing disease resistance. Plants deficient in magnesium may be more susceptible to diseases such as root rot, fruit rot, and fungal infections.

Leaf curling: Magnesium deficiency can also cause leaves to curl or roll up along the edges.

To prevent magnesium deficiency in plants, it is important to maintain proper soil and Nutrient pH and ensure adequate magnesium levels in the soil and Hydroponic Nutrients. Magnesium-containing fertilizers or soil amendments can also help to correct magnesium deficiency in plants.

Radongrow Provides a Hydroponic Nutrient with a Balance amount of Magnesium for Leafy greens, Fruting and Vine crops, and Flowering crops.

Magnesium Role in Plants.

Magnesium is an essential nutrient for plant growth and development. It plays several important roles in various physiological processes. Here are some of the key roles of magnesium in plants:


Chlorophyll synthesis: Magnesium is a crucial component of the chlorophyll molecule, which is responsible for capturing light energy during photosynthesis.


Enzyme activation: Magnesium is involved in activating many enzymes that play a crucial role in various metabolic processes, including carbohydrate metabolism and protein synthesis.


Nutrient uptake: Magnesium helps plants to absorb other essential nutrients, such as nitrogen and phosphorus, by improving the uptake and transport of these nutrients.


Stress tolerance: Magnesium plays a crucial role in enhancing the stress tolerance of plants, including resistance to diseases, drought, and extreme temperatures.


Structural component: Magnesium is also an important structural component of plant cells, providing stability and strength to plant tissues.

Overall, magnesium is essential for maintaining the growth and health of plants, and its deficiency can lead to various plant disorders and growth problems.

Radongrow Provides a Hydroponic Nutrient with a Balance amount of Magnesium for Leafy greens, Fruting and Vine crops, and Flowering crops.

Calcium Toxicity in plants.

Although calcium is an essential nutrient for plant growth and development, excessive amounts of calcium can be toxic to plants. Here are some of the symptoms of calcium toxicity in plants:

Reduced plant growth: High levels of calcium can inhibit plant growth, resulting in stunted growth and reduced yields.


Chlorosis: Plants with calcium toxicity may exhibit chlorosis, where the leaves turn yellow due to the accumulation of calcium in the leaf tissues.


Mineral imbalances: Excess calcium can also cause imbalances in other essential minerals, such as magnesium and potassium, which can negatively impact plant growth.


Root damage: High levels of calcium can also damage plant roots, reducing the plant's ability to absorb water and nutrients from the soil.


Leaf necrosis: In severe cases, calcium toxicity can lead to leaf necrosis, where the leaves turn brown and die.

To prevent calcium toxicity in plants, it is important to maintain proper soil and Hydroponic Nutrient pH and avoid the over-application of calcium-containing fertilizers. Regular soil testing can also help to monitor calcium levels in the soil and prevent excessive buildup.

Radongrow Provides a Hydroponic Nutrient with a Balance amount of Calcium for Leafy greens, Fruting and Vine crops, and Flowering crops.

Calcium deficiency in plants.

Calcium deficiency is a common problem in plants and can lead to various growth disorders and diseases. Here are some of the symptoms of calcium deficiency in plants:


Leaf tip burns: One of the most common symptoms of calcium deficiency is leaf tip burn, where the edges of the leaves turn brown or black and dry out.


Stunted growth: Plants with calcium deficiency may exhibit stunted growth and have smaller leaves than healthy plants.


Poor fruit quality: Calcium deficiency can also affect fruit quality, leading to disorders such as blossom-end rot in tomatoes and peppers, and bitter pit in apples.


Increased susceptibility to diseases: Calcium plays an important role in strengthening plant cell walls and increasing disease resistance. Plants deficient in calcium may be more susceptible to diseases such as root rot, fruit rot, and fungal infections.


Distorted or discolored leaves: Calcium deficiency can also cause leaves to become distorted, misshapen, or discolored.

To prevent calcium deficiency in plants, it is important to maintain proper pH in soil and Hydroponic nutrients and ensure adequate calcium levels in the soil and Hydroponic Nutrients. Foliar sprays or soil amendments containing calcium can also help to correct calcium deficiency in plants.

Radongrow Provides a Hydroponic Nutrient with a Balance amount of Calcium for Leafy greens, Fruting and Vine crops, and Flowering crops.

Calcium Role in plants.

Calcium is an essential nutrient for plant growth and development. It plays a critical role in various physiological processes such as cell division, cell elongation, and cell differentiation. Here are some of the key roles of calcium in plants:

Structural component: Calcium is an important structural component of cell walls, providing stability and strength to plant cells.


Enzyme activation: Calcium is involved in activating many enzymes that play a crucial role in various metabolic processes, including photosynthesis and respiration.


Signal transduction: Calcium ions serve as important messengers in signal transduction pathways that regulate plant growth and development.


Nutrient uptake: Calcium helps plants to absorb other essential nutrients, such as potassium and magnesium, by improving the cation exchange capacity of soil.


Stress tolerance: Calcium plays a crucial role in enhancing the stress tolerance of plants, including resistance to diseases, drought, and extreme temperatures.

Overall, calcium is essential for maintaining the growth and health of plants, and its deficiency can lead to various plant disorders and growth problems.

 

Radongrow Provides a Hydroponic Nutrient with a Balance amount of Calcium for Leafy greens, Fruting and Vine crops, and Flowering crops.

Essential Nutrients to grow Healthy Plants.

Plants require a variety of essential nutrients to grow and develop properly. These nutrients can be divided into two main categories: macronutrients and micronutrients.

Macronutrients: These are the nutrients required in relatively large quantities.

a. Nitrogen (N): Important for chlorophyll production, amino acid synthesis, and overall growth and development.

b. Phosphorus (P): Important for energy transfer, root development, and overall growth and development.

c. Potassium (K): Important for water regulation, enzyme activation, and stress tolerance.

d. Calcium (Ca): Important for cell wall development, cell division, and overall growth and development.

e. Magnesium (Mg): Important for chlorophyll production, enzyme activation, and overall growth and development.

f. Sulfur (S): Important for protein synthesis, chlorophyll production, and overall growth and development.


Micronutrients: These are the nutrients required in smaller quantities.

a. Iron (Fe): Important for chlorophyll production and energy transfer.

b. Manganese (Mn): Important for photosynthesis and enzyme activation.

c. Zinc (Zn): Important for enzyme activation and overall growth and development.

d. Copper (Cu): Important for chlorophyll production and enzyme activation.

e. Boron (B): Important for cell wall development and reproductive growth.

f. Molybdenum (Mo): Important for nitrogen fixation and enzyme activation.

g. Chlorine (Cl): Important for photosynthesis and water regulation.

A deficiency or excess of any of these nutrients can lead to various growth and developmental issues, including reduced yield and quality. It's important to ensure that plants receive an adequate supply of all essential nutrients to promote healthy growth and development.

Radongrow Provide Hydroponic Nutrient with Balance amount of all Nutrients for Leafy greens, Fruting and Vine crops and Flowering crops. Radongrow Nutrient is suitable for Aeroponic, Hydroponics, Soil less farming and even suitable for Soil base plants too.

Potassium Toxicity in Plants.

While potassium is an essential nutrient for plants, excessive amounts of potassium can also be harmful and lead to potassium toxicity. Some of the symptoms of potassium toxicity in plants include:


Chlorosis: Leaves may start to yellow between the veins, while the veins remain green.


Burnt leaf edges: The edges of leaves may appear scorched or burnt.


Reduced growth: Excessive potassium can reduce plant growth and cause stunted development.


Nutrient imbalances: High levels of potassium can cause imbalances in other essential nutrients, such as calcium and magnesium.


Reduced water uptake: Excessive potassium can reduce the ability of plants to take up water, leading to wilting and stress.


Altered pH: High levels of potassium in the soil can alter the pH, making it more alkaline.

It's important to note that potassium toxicity is less common than potassium deficiency, but it can still occur if plants are over-fertilized with potassium-rich fertilizers or if the soil naturally contains high levels of potassium. To avoid potassium toxicity, it's important to conduct regular soil tests and fertilize appropriately, based on the specific needs of the plant species and the soil conditions.

Radongrow Provide Hydroponic Nutrient with Balance amount of Pottassium for Leafy greens, Fruting and Vine crops and Flowering crops. Radongrow Nutrient is suitable for Aeroponic, Hydroponics, Soil less farming and even suitable for Soil base plants too.

Potassium deficiency in plants.

Potassium deficiency in plants is a common problem that can have several negative effects on plant growth and health. Some of the symptoms of potassium deficiency in plants include:

Stunted growth: Plants with potassium deficiency often exhibit stunted growth, especially in the leaves and stems.


Yellowing of leaves: The older leaves of the plant may turn yellow or brown and start to die back.


Poor fruit quality: Potassium deficiency can affect the quality of fruits and vegetables, leading to reduced size, color, and flavor.


Increased susceptibility to pests and diseases: Potassium-deficient plants are more susceptible to pests and diseases, as their weakened cell walls cannot resist invasion.


Reduced tolerance to stress: Plants deficient in potassium are more vulnerable to environmental stresses such as drought, heat, and cold.

It's important to note that potassium deficiency symptoms may vary depending on the plant species and environmental conditions. If you suspect a potassium deficiency in your plants, it's best to conduct a soil test to confirm and address the issue with appropriate fertilization practices.

Radongrow Provide Hydroponic Nutrient with Balance amount of Potassium for Leafy greens, Fruting and Vine crops and Flowering crops. Radongrow Nutrient is suitable for Aeroponic, Hydroponics, Soil less farming and even suitable for Soil base plants too.

Role of Potassium in Plants

Potassium (K) is an essential macronutrient for plants, meaning it's required in relatively large amounts for healthy growth and development. Potassium plays many important roles in plants, including:

Regulation of water balance: Potassium helps regulate the opening and closing of stomata, the tiny pores on the leaves of plants, which are responsible for gas exchange and water loss. This helps the plant maintain proper water balance.


Enzyme activation: Potassium is required for the activation of many enzymes involved in photosynthesis, respiration, and protein synthesis.


Improved stress tolerance: Potassium helps plants tolerate various abiotic stresses, such as drought, high temperature, and salinity.


Improved quality: Potassium can improve the quality of crops by enhancing flavor, color, and texture.


Improved disease resistance: Potassium can help plants resist certain diseases by strengthening their cell walls and promoting the production of defensive compounds.

In summary, potassium plays a critical role in many aspects of plant growth and development, and a deficiency can lead to reduced yields, poor quality, and increased susceptibility to stress and disease.

Radongrow Provide Hydroponic Nutrient with Balance amount of Potassium for Leafy greens, Fruting and Vine crops and Flowering crops. Radongrow Nutrient is suitable for Aeroponic, Hydroponics, Soil less farming and even suitable for Soil base plants too.

Toxicity of Nitrogen In Plants

While nitrogen is an essential nutrient for plants, too much nitrogen can be toxic and harmful. Nitrogen toxicity can occur when plants absorb too much nitrogen, causing an imbalance in the soil and plant tissue. Some of the symptoms of nitrogen toxicity in plants include:


Dark Green Leaves: Plants with nitrogen toxicity may have dark green leaves that appear shiny and waxy. The leaves may also be thicker than normal.


Stunted Growth: While nitrogen is essential for plant growth, too much nitrogen can cause stunted growth. The plant may appear small and underdeveloped compared to healthy plants.


Burnt or Brown Leaf Tips: Nitrogen toxicity can cause the tips of leaves to turn brown or appear burnt. This is because excess nitrogen can cause salt buildup in the soil, which can lead to dehydration and damage to the plant tissue.


Reduced Fruit and Flower Production: Plants with nitrogen toxicity may produce fewer flowers and fruit than healthy plants. This is because excess nitrogen can interfere with the plant's ability to produce flowers and fruits.


Increased Susceptibility to Pests and Diseases: Plants with nitrogen toxicity may be more susceptible to pests and diseases. This is because excess nitrogen can weaken the plant and make it more vulnerable to attack.

In summary, nitrogen toxicity in plants can cause dark green leaves, stunted growth, burnt or brown leaf tips, reduced fruit and flower production, and increased susceptibility to pests and diseases. It is important to maintain the correct balance of nitrogen in the soil to prevent nitrogen toxicity and ensure healthy plant growth.

Radongrow Provide Hydroponic Nutrient with Balance amount of Nitrogen for Leafy greens, Fruting and Vine crops and Flowering crops. Radongrow Nutrient is suitable for Aeroponic, Hydroponics, Soil less farming and even suitable for Soil base plants too.