Hydroponic Plant Nutrient Composition

because plants also need a healthy balanced diet to be productive!

Hydroponic nutrients can be a complex issue or as simple as mixing and pouring. Anyone not familiar with hydroponic nutrients should just stick with a proven formula from a reputable manufacturer, and simply follow the directions on the container. This will let you learn the basics of growing hydroponically before experimenting.

Nutrients are one of the basics of any hydroponic system. In order for a fertilizer to be incorporated into a hydroponic system, it must be soluble in water. If not, the plant cannot access it. With Hydroponics the grower has complete control over the implementation of fertilizer, regarding type and concentration. They also have the ability to immediately monitor and maintain a relative consistency, provided a nutrient meter is available. The composition of the nutrients is important and there are over twenty elements that are needed for a plant to grow. Carbon, hydrogen, and oxygen are absorbed from the air and water.

The rest of the elements, called mineral nutrients, are dissolved in the nutrient solution and need to be in the correct ratios. Any good Hydroponic nutrient should contain all of these elements; Nitrogen (N), Potassium (K), Phosphorous (P), Calcium (Ca), Magnesium (Mg), Sulphur (S), Iron (Fe), Manganese (Mn), Copper (Cu), Zinc (Zn), Molydenum (Mo), Boron (B), Chlorine (Cl). For the most part, this is taken care of with any pre-formulated commercial hydroponic nutrients. Often, these pre-made nutrients come in 1, 2, 3, or even more “parts” so the grower can change the ratio of the mineral elements to allow for either vegetative or fruiting and flowering growth, or for different crops. It is best for the beginner to just fallow the general directions before experimenting with changing the ratios.

Be sure to use nutrients designed for Hydroponics in a Hydroponic system. The composition of elements in nutrients designed for soil are very different from that for Hydroponics because soil grown plants get most of these elements from the soil. With Hydroponics there is no soil to get the elements from, so the two are very different in composition because they are not designed to be a complete plant food and they may not water-soluble. For example, Nitrogen in the form of urea is not immediately available to a plant in hydroponics because urea is not soluble in water. For this reason, Nitrogen must be delivered in its Nitrate form in order to be utilized in hydroponics.

Hydroponic nutrients can be a complex issue or as simple as mixing and pouring. Anyone not familiar with hydroponic nutrients should just stick with a proven formula from a reputable manufacturer, and simply follow the directions on the container. This will let you learn the basics of growing hydroponically before experimenting.

Nutrients are one of the basics of any hydroponic system. In order for a fertilizer to be incorporated into a hydroponic system, it must be soluble in water. If not, the plant cannot access it. With Hydroponics the grower has complete control over the implementation of fertilizer, regarding type and concentration. They also have the ability to immediately monitor and maintain a relative consistency, provided a nutrient meter is available. The composition of the nutrients is important and there sixteen essential elements that are needed for a plant to grow. Carbon, hydrogen, and oxygen are absorbed from the air and rest in Ionic form form water.

The rest of the elements, called mineral nutrients, are dissolved in the nutrient solution and need to be in the correct ratios. Any good Hydroponic nutrient should contain all of these elements; Nitrogen (N), Potassium (K), Phosphorous (P), Calcium (Ca), Magnesium (Mg), Sulphur (S)(These ar called Macaro nutrients) and, Iron (Fe), Manganese (Mn), Copper (Cu), Zinc (Zn), Molydenum (Mo), Boron (B), Chlorine (Cl).(These are called Micro nutrients) For the most part, this is taken care of with any pre-formulated commercial hydroponic nutrients. Often, these pre-made nutrients come in 1, 2, 3, or even more “parts” so the grower can change the ratio of the mineral elements to allow for either vegetative or fruiting and flowering growth, or for different crops. It is best for the beginner to just fallow the general directions before experimenting with changing the ratios.

Be sure to use nutrients designed for Hydroponics in a Hydroponic system. The composition of elements in nutrients designed for soil are very different from that for Hydroponics because soil grown plants get most of these elements from the soil. With Hydroponics there is no soil to get the elements from, so the two are very different in composition because they are not designed to be a complete plant food and they may not water-soluble. For example, Nitrogen in the form of urea is not immediately available to a plant in hydroponics because urea is not soluble in water. For this reason, Nitrogen must be delivered in its Nitrate(Ionic) form in order to be utilized in hydroponics.

One thing that is often overlooked when it comes to nutrients is the nutrient solution temperature. The roots of plants grow underground in nature and to duplicate what they would receive in nature it is very important to keep the root zone to 68-72 degrees. That’s not to say if the nutrient temp reaches 73 or 74 the plants will die, but it should be kept as close to 68-72 degrees as you can. Plants with nutrient tempters too high can have problems including (but not limited to) flowers turning yellow and falling off, damaged fruits and a lack of new growth. At Highter temperature the dissolved oxygen usefull for the roots also gets depleted.

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I spent several years managing a hydroponics store in Michigan, and I can’t tell you how many times a customer would come in and say, “My plant’s leaves are turning yellow. What’s wrong?” I’d usually stop and take a deep breath, because I knew I was going to have to...
Humic or Fulvic Acid: What Kind are Your Plants On?

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Do you know the difference between humic and fulvic acids? If you don’t, you’re not alone. Even the regulators at the USDA haven’t been able to agree on a definition, and it has been causing a lot of confusion in product labeling. Nevertheless, humic and fulvic acids...
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