Inorganic fertilizer is a type of fertilizer that comes from inorganic materials, Inorganic fertilizers usually contain certain nutrients/minerals.
This type of fertilizer is also known as chemical fertilizer. Inorganic fertilizer or synthetic fertilizer is fertilizer produced from a series of chemical processes or the use of chemicals. Inorganic fertilizer initially did not have too many types. It can be used by simply sprinkling or immersing it evenly near the plant.
The main function of inorganic fertilizer is to increase plant nutrients or nutrients. Inorganic fertilizer or what is usually called chemical fertilizer comes from inorganic materials with certain nutrient or mineral content. Types of inorganic fertilizer that are commonly known include urea fertilizer which contains nitrogen elements, SP-36 which contains phosphorus and NPK which is rich in nitrogen, phosphorus and potassium elements. The advantage of inorganic fertilizer is that it decomposes more quickly so that nutrients are absorbed more quickly by plants. This means you use less for each topping. Inorganic fertilizer has a measurable nutritional content and is contained in concentrate form, so it is used quite sparingly.
Inorganic fertilizer is also fertilizer that is produced using chemical compounds such as urea in a form that can be directly used by plants. Another problem with inorganic fertilizers used so far is that they cause damage to the soil structure due to the use of inorganic fertilizers and cause the soil to become infertile. This will also have an impact on the production of the crops produced, as well as the effects of production facilities on the environment which have been widely felt by the farming community
Macro nutrients are nutrients that plants need in large quantities. There are six macro nutrients, namely nitrogen (N), phosphorus (P), potassium (K), calcium (Ca), magnesium (Mg), and sulfur (S). Nitrogen (N) Nitrogen plays a role in the formation of cells and tissues in plants, such as roots, stems, leaves, and the beginning of flower formation. With the presence of nitrogen, leaves will carry out their function well in the photosynthesis process. This is the answer: Phosphorus (P) Phosphorus is needed by plants for vegetative growth, such as root formation, formation of cell nuclei and cell division, stimulating flowering, seed formation, and strengthening plants' resistance to disease attacks. Potassium (K) Potassium plays a role in facilitating all processes that occur in plants. Potassium will strengthen the tissue so that the leaves, flowers and fruit do not fall off easily. Calcium (Ca) For plants, calcium plays a role in regulating and maintaining cell walls. The function of this lime is as an adhesive substance, regulating permeability in cells, and is very essential for cell fluids. 4 elements that plants need for photosynthesis, what are they? Magnesium (Mg) Magnesium is responsible for forming chlorophyll and the green grains of leaves. This element is very necessary for photosynthesis to run smoothly. Sulfur (S) Sulfur functions to facilitate the performance of other elements and produce energy. Also read: 4 elements that plants need for photosynthesis, what are they? Micro elements Micro elements are needed by plants in small quantities. However, this element must always be available in plant tissue. Micro elements are iron (Fe), copper (Cu), Boron (B), iron (Fe), and zinc (Zn). If a plant lacks one micro element, its growth will be disrupted. Boron (B) Boron plays a role in plant growth by transporting carbohydrates from the leaves to other parts of the tissue. Boron also plays a role in cell division so that plant parts can grow actively. Copper (Cu) Copper is one of the ingredients that forms green leaves (chlorophyll). This element plays a role in the process of protein and carbohydrate metabolism. Manganese (Mn) Manganese functions as an activator in several enzymes to facilitate assimilation. Zinc (Zn) Zinc functions to form body hormones. Apart from that, zinc also helps leaf growth and chlorophyll formation. Iron (Fe) The presence of iron in plants should not be taken lightly because planting media that does not contain iron causes plants to suffer. Its main function is as a constituent of active enzymes in photosynthesis and respiration. Chlorine (Cl) Chlorine is needed by plants in the vegetative and generative phases. In addition, chlorine is very important for removing oxygen from photosynthesis. That is an explanation of the meaning and function of each macro nutrient element and micro nutrient element.
Inorganic fertilizer is fertilizer that contains inorganic compounds. Inorganic fertilizers are mostly artificial fertilizers, as well as natural fertilizers made from chemicals. Examples of inorganic fertilizers are NPK Fertilizer, Urea Fertilizer, TSP Fertilizer, ZA Fertilizer etc. The advantage of inorganic fertilizer is that it decomposes more quickly so it is absorbed more quickly by plants. Therefore, inorganic fertilizer is needed in small quantities. Using inorganic fertilizer is also easier because the nutritional content is measured and contained in concentrate form. The disadvantage of inorganic fertilizer is that it easily leaves chemical residues that can harm soil and human health. These residues can also cause an imbalance of nutrients in the soil. Apart from that, inorganic fertilizers also release quickly so they must be applied more frequently. Inorganic fertilizers are also relatively more expensive and cannot be produced yourself. The best inorganic fertilizers and organic fertilizers for us are only at pupukanorganik.com
ORGANIC FERTILIZER IS A TYPE OF FERTILIZER THAT COMES FROM NATURAL INGREDIENTS THAT CONTAIN ORGANIC MATERIALS, SUCH AS PLANT, ANIMAL OR OTHER ORGANIC WASTE.
Organic fertilizer naturally contains essential nutrients for plants, such as nitrogen, phosphorus, potassium, micronutrients and useful organic materials. Organic fertilizer is fertilizer that comes from organic materials, namely the material of living things. Organic fertilizer is widely used to increase agricultural land productivity because it can increase the levels of nutrients and organic matter in the soil.