Chemical Fertilizer vs Organic Fertilizer
A chemical fertilizer is defined as any inorganic material of wholly or partially synthetic origin that is added to the soil to sustain plant growth. Organic fertilizers are substances that are derived from the remains or by products of organisms which contain the essential nutrients for plant growth.
Comparison chart
Chemical Fertilizer
Currently 3.25/5
Rating: 3.3/5 (336 votes)
Organic Fertilizer
Currently 4.08/5
Rating: 4.1/5 (345 votes)
Advantages:
Chemical fertilizers are rich equally in three essential nutrients that are needed for crops and always ready for immediate supply of nutrients to plants if situation demands. Adds natural nutrients to soil, increases soil organic matter, improves soil structure and tilth, improves water holding capacity, reduces soil crusting problems, reduces erosion from wind and water, Slow and consistent release of nutrients,
Disadvantages:
Several chemical fertilizers have high acid content. They have the ability to burn the skin. Changes soil fertility. Have slow release capability; distribution of nutrients in organic fertilizers is not equal.
A chemical fertilizer is defined as any inorganic material of wholly or partially synthetic origin that is added to the soil to sustain plant growth. Chemical fertilizers are produced synthetically from inorganic materials. Since they are prepared from inorganic materials artificially, they may have some harmful acids, which stunt the growth of microorganisms found in the soil helpful for plant growth naturally. They’re rich in the three essential nutrients needed for plant growth. Some examples of chemical fertilizers are ammonium sulphate, ammonium phosphate, ammonium nitrate, urea, ammonium chloride and the like.
Organic fertilizers are substances that are derived from the remains or by products of organisms. Organic fertilizers depend upon the microorganisms found in soil to break them down and release the essential nutrients. Organic nutrients are rich in phosphorous, nitrogen, and potassium, but in unequal proportions. Examples of organic fertilizers are cottonseed meal, blood meal, fish emulsion, and manure and sewage sludge. There are two types of organic fertilizers: first is the synthetic type which is organic compound produced artificially (e.g., Urea, a common organic fertilizer; the other type is natural organic fertilizers because 100% of the ingredients used to create a typical natural organic fertilizer come from nature (e.g., fish extract, seaweed and manure, guano, and compost materials).
Distribution of nutrients:
Fertilizers are used to provide nutrients to the plants for their good growth. Soil nutrients’ deficiency is the prevalent problem among home-garden owners. One of the distinct advantages of chemical fertilizers over organic fertilizers is that chemical fertilizers are rich equally in all three essential nutrients: nitrogen, phosphorous, and potassium. On the other hand, organic fertilizers may be rich in one of the three nutrients, or may have low levels of all the three nutrients.
Cost:
Organic fertilizers are much cheaper as compared to chemical fertilizers. One can prepare organic fertilizers on their own by composting or mixing cow, sheep, or poultry manure with other organic matters. On the other hand, one has to buy the chemical fertilizers from nearby gardening shops or horticulturists.
Supply of nutrients:
One aspect of the organic fertilizers is their slow-release capability. Slow-release capability of organic fertilizers has both advantages and disadvantages: Slow-release means there is less risk of over-fertilization but sometimes this slow-release of organic fertilizers is not able to fulfill to needed supply of the nutrients, whenever required. In contrast to organic fertilizer, chemical fertilizers are always there to provide immediate supply of nutrients to plants if situation demands.
Acid content:
One of the main disadvantages of chemical fertilizers is that, in contrast to organic fertilizers, several chemical fertilizers have high acid content like sulfuric acid and hydrochloric acid. This high acid content results in the destruction of the nitrogen-fixing bacteria, which is helpful in supplying the nitrogen to a growing plant. In contrast, organic fertilizers support the growth of nitrogen-fixing bacteria.
NPK ratio:
Chemical fertilizers always have a high total NPK (nitrogen:phosphorous:potassium), from 20 to 60 percent or more. The total NPK for organic fertilizer blends will always be low. Fourteen percent is about as high as it gets.
History:
Natural fertilizers like manure have been in use for centuries as these were the only form of nutrition that could be provided to crops before the invention of chemical fertilizers. Chemicals were added to natural fertilizers after the second world war. Post the war, with advancement of technology there was an explosive growth in artificial fertilizers due to improved productivity. But of late, there has been mass awareness of the eco friendliness of the use of organic fertilizers and many are using those methods again.
Use:
There are two ways to measure fertilizer use in a country. One is by nutrient content — how much nitrogen, phosphate and potash are contained in the fertilizer applied. In fiscal year 2004, 23.4 million tons of nutrients were applied in the US. Another way to measure is in total tonnage — the total tons it takes to deliver the nutrient content. In fiscal year 2004, 57.8 million total tons were used in the United States. The world's largest producers and users of fertilizers are the United States, China, India, Russia and Brazil.
Some reports suggest the US Fertilizer market to be around $40 Billion of which organic fertilizers occupy only about $60 Miliion. The rest of it is the share of the various artificial fertilizers.
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