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Kirjat ja teokset yhdessä paikassa: 5 kirjaa, julkaisuja vuosilta 2013-2014, suosituimpien joukossa Scientific Utilization of Treated Distillery Effluent on Sugarcane. Vertaile teosten hintoja ja tarkista saatavuus suomalaisista kirjakaupoista.
Sugarcane producing countries running sugar industries and apart from the sugar and alcohol, these factories generate many by-products and waste materials like solid waste (press mud), molasses and bagasse. The effluent in distillery industry plays a prime role in bridging the gap between the depletion and repletion by its inherent potential of high organic carbon and nutrient contents. Although the distillery effluent utilization in agriculture has augmented the crop yields, its unscientific and unsystematic use causes degradation of land and the environment. To harmless its full manurial potential, there is a recommendation of one time land application and distillery effluent through irrigation water as a source of plant nutrients for sugarcane crop and also to sustain the soil health. Thus, wherever there is uncontrolled discharge of distillery effluent, the environment is aesthetically unpleasant. Scientific utilization of distillery effluent in agriculture would save costs on fertilizers and facilitate reduction in pollution load on the environment and also improve the overall soil health.
Maize is the third most important crop in the world agricultural economy after wheat and rice with an area of 168.26 million hectares with a production of 854.59 million tonnes with average productivity of 5120 kg / ha. Weed management in maize is carried out by manual, mechanical and chemical methods, among which chemical method is the most economical and effective tool to suppress weeds in order to get healthy crop stand and good yield. Advancement in biotechnological research enables genetic engineering to enhance production and minimize crop yield losses through development of crops that are tolerant to insects and herbicides. Genetically modified crops are the most rapidly adopted technology in agricultural history due to the social and economic benefits. Major yield reducing factors for maize cultivation are weeds and insects. Transgenic corn hybrids with stacked event (TC1507 X NK603) were developed for preventing yield losses of corn and improve the productivity. The stacked product having both insect protection and herbicide tolerant traits will provide protection to the crop against target pests and also provide effective weed management system to farmers.