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| == Modern Agriculture == | | == Modern Agriculture == |
− | In contrast to the traditional agricultural practices, modern systems of agriculture use genetically engineered and/or hybrid seeds of single crop variety, technologically driven implements and equipments such as tractors, shredders, spreaders etc, chemical fertilizers and pesticides, and water to produce large amounts of single crop. A few characteristics of modern agriculture include the following | + | In a stark contrast to the traditional agricultural practices, modern systems of agriculture use genetically engineered and/or hybrid seeds of single crop variety, technologically driven implements and equipments such as tractors, shredders, spreaders etc, chemical fertilizers and pesticides, and water to produce large amounts of single crop. A few characteristics of modern agriculture include the following |
| * It has higher levels of input and output per unit of agricultural area | | * It has higher levels of input and output per unit of agricultural area |
| * It has higher use of inputs such as capital, labor, fertilizers, pesticides, plant growth regulators, and mechanization for higher crop yields per unit land area. Many gadgets and implements are needed and higher electricity and fuel costs are involved. | | * It has higher use of inputs such as capital, labor, fertilizers, pesticides, plant growth regulators, and mechanization for higher crop yields per unit land area. Many gadgets and implements are needed and higher electricity and fuel costs are involved. |
| * Indiscriminate usage of fertilizers, pesticides, fungicides and other such chemicals destroy the ecological balance hurting the other agronomy dependent creatures such as bees, birds, snakes, and frogs. | | * Indiscriminate usage of fertilizers, pesticides, fungicides and other such chemicals destroy the ecological balance hurting the other agronomy dependent creatures such as bees, birds, snakes, and frogs. |
| + | * Hazards of air, water, earth pollution are rampant and world environmental activists have been fighting with governing bodies to bring these levels down. |
| * It involves mostly single crop cultivation which is not always advantageous ecologically and economically. | | * It involves mostly single crop cultivation which is not always advantageous ecologically and economically. |
| * Storage of grains (air-conditioned godowns, preservatives etc) also involve high costs, increasing the price of food production further. | | * Storage of grains (air-conditioned godowns, preservatives etc) also involve high costs, increasing the price of food production further. |
− | * It demands detailed analysis of growing conditions including weather, soil, water, weeds and pests. Thus it is becoming more of an industry requiring modern technical understanding which was hiterto not the case in the age old tradition. | + | * It demands detailed analysis of growing conditions including weather, soil, water, weeds and pests. |
| + | * An individual or small community effort is gradually turned into an mechanized industry whose terms and conditions are now dictated by a few rich individuals controlling this modern system. Days are not far off when a farmer is an employee in his own farm and has to buy his own produce in such conditions for his family needs. |
| * It relies on innovation in agricultural machinery and farming methods, genetic technology, techniques for achieving economies of scale logistics. What was originally in-line with natural processes now involves industrial scale technical education. | | * It relies on innovation in agricultural machinery and farming methods, genetic technology, techniques for achieving economies of scale logistics. What was originally in-line with natural processes now involves industrial scale technical education. |
− | * It involves large data collection and analysis technology. | + | * It involves large data collection and analysis technology. |
| + | * Ease of trading practices and taxing system of farmers has to undergo an enormous change to bring down the cost of agricultural produce both of domestic and foreign exports. |
| Ramifications of such models of agriculture such as widespread pollution of air, water and food are visible on the entire ecosystem. As much as modern outlook with technology and education is required, it has be used minimally with caution. A dire need for research on traditional agricultural practices to find out the ethos behind it and adopt it in the modern times has become the need of the hour. | | Ramifications of such models of agriculture such as widespread pollution of air, water and food are visible on the entire ecosystem. As much as modern outlook with technology and education is required, it has be used minimally with caution. A dire need for research on traditional agricultural practices to find out the ethos behind it and adopt it in the modern times has become the need of the hour. |
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| # Fertilizing | | # Fertilizing |
| # Harvesting | | # Harvesting |
− | A few areas where traditional knowledge of farming is available includes prediction of rainfall, farming systems, tillage, mixed cropping, crop rotation, crop protection, terrace farming, agricultural implements. | + | A few areas where traditional knowledge of farming is available includes prediction of rainfall, farming systems, tillage, mixed cropping, crop rotation, crop protection, terrace farming, agricultural implements. An indepth study of these processes show how our ancient farmer has a holistic education in various sciences compared to the modern day scientist. |
| === Prediction of Rainfall === | | === Prediction of Rainfall === |
| The systematic study of meteorological science was made by our ancient astronomers and astrologers. Agriculture is totally dependent on rainfall. This fact was first realised by Indians. Hence they started gauging the sky for rainfall prediction. Parashra gave the techniques of rainfall prediction and agricultural practices for crop production. Garg invented the science of astrology. Arybhata measured the time period of different planets and distance from earth. Varahmihira (600 AD) studied weather prediction and measurement of rainfall, touching zenith in the meteorological science. The hypotheses given by ancient scientists are simple and costly apparatus were not used. Observations coupled with experience over centuries developed meteorology (Varshney, 2007). | | The systematic study of meteorological science was made by our ancient astronomers and astrologers. Agriculture is totally dependent on rainfall. This fact was first realised by Indians. Hence they started gauging the sky for rainfall prediction. Parashra gave the techniques of rainfall prediction and agricultural practices for crop production. Garg invented the science of astrology. Arybhata measured the time period of different planets and distance from earth. Varahmihira (600 AD) studied weather prediction and measurement of rainfall, touching zenith in the meteorological science. The hypotheses given by ancient scientists are simple and costly apparatus were not used. Observations coupled with experience over centuries developed meteorology (Varshney, 2007). |