Economics of Sugarcane Production using Ecofriendly Technology in Cuddalore District, Tamil Nadu

Indian journal of agricultural economics Pub Date : 1900-01-01 DOI:10.22004/AG.ECON.204737

R. Thennarasu, V. Banumathy

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引用次数: 9

Abstract

The chemical pathway has been pursued year after year for the sole purpose of increasing food grain production. The over use of chemicals to intensify crop production led to poisoning people and animals as well as polluting the environment. In areas where a high fertilizer dose was used, the problem of salinity, water logging due to the depletion of organic matter and nutritional imbalances in soils has started surfacing and it is now threatening the sustainability of agricultural production. The other problem linked to the over use of pesticides is the contamination of soil and water sources including the aquatic system. Persistent pesticides like BHC and DDT remain in the eco system for a longer period and pose a great danger to the soil fauna and flora. On the one hand, the inorganic fertiliser consumption is continuously increasing and agricultural systems have encountered various kinds of environmental problems and decreased soil fertility etc. On the other hand, our population is also increasing. While considering the population explosion, the foodgrain demand is estimated to be around 260-264 M.T by 2020 A.D. The use of bio-inputs is the best way to reduce fertiliser consumption, to feed the growing population and to retain soil fertility and productivity. The average bio-fertiliser consumption in India is 0.04 kg/ha. Among bio-fertilisers, major growth has occurred with phosphate solubilising micro organisms, which account for about 45 per cent of total bio-fertiliser production and use. The present consumption level of bio-pesticides has increased from around one per cent share in the Indian pesticide market in 2001 to around 2.5 per cent currently and it is expected to reach 12-15 per cent by the end of 2010, mainly through the chorus of Organic Farming (Fertiliser Statistics, 2005; Tamil Nadu Economic Appraisal, 2005). In Tamil Nadu, the usage of bio-inputs has picked up since the inception of integrated pest management in 1985. At present, the production of bio-pesticides is

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泰米尔纳德邦Cuddalore地区使用环保技术生产甘蔗的经济学

人们年复一年地追求化学途径，唯一的目的是增加粮食产量。为了加强作物生产而过度使用化学品，导致人畜中毒，并污染了环境。在使用高剂量肥料的地区，由于有机物质耗竭和土壤营养不平衡造成的盐碱化、涝灾等问题已开始浮出水面，现在正威胁到农业生产的可持续性。与过度使用农药有关的另一个问题是土壤和水源(包括水生系统)的污染。六六六和滴滴涕等持久性农药在生态系统中停留时间较长，对土壤动植物构成极大威胁。一方面，无机肥料消耗量不断增加，农业系统遇到各种环境问题，土壤肥力下降等。另一方面，我们的人口也在增加。考虑到人口爆炸，到公元2020年，粮食需求估计约为260-264亿吨。使用生物投入品是减少肥料消耗、养活不断增长的人口并保持土壤肥力和生产力的最佳途径。印度生物肥料的平均消耗量为0.04公斤/公顷。在生物肥料中，磷酸盐增溶微生物的增长最为显著，约占生物肥料生产和使用总量的45%。生物农药目前的消费水平已从2001年占印度农药市场约1%的份额增加到目前的2.5%左右，预计到2010年底将达到12- 15%，主要是通过有机农业(肥料统计，2005年;泰米尔纳德邦经济评估，2005年)。在泰米尔纳德邦，自1985年开始综合虫害管理以来，生物投入品的使用有所增加。目前，生物农药的生产是

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来源期刊

Indian journal of agricultural economics

CiteScore

0.60

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0.00%

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