Dhote Sangeeta, Dixit Savita
Department of Applied Chemistry, Maulana Azad National Institute of Technology (Deemed University), Bhopal, 462003, India.
Environ Monit Assess. 2009 May;152(1-4):149-53. doi: 10.1007/s10661-008-0303-9. Epub 2008 Jun 9.
Increasing urbanization, industrialization and over population is leading to the degradation of the environment. The main hazardous contents of the water pollution are heavy metals etc. Water bodies are the main targets for disposing the pollutants directly or indirectly. They are again at the receiving end as the storm water, residential and commercial waste is disposed into it. The prevailing purification technologies used to remove the contaminants are too costly and sometimes non-eco friendly also. Therefore, the research is oriented towards low cost and eco friendly technology for water purification, which will be beneficial for community. The present paper is a comprehensive review of approximately 38 literature sources. The paper discusses the potential of different aquatic plants (macrophytes) in purifying water and wastewater. Experimental work was developed to test the hypothesis that nutrient enrichment enhances metal tolerance of relative macrophyte.
城市化、工业化进程的加快以及人口过剩正导致环境退化。水污染的主要有害成分是重金属等。水体是直接或间接排放污染物的主要对象。由于雨水、居民和商业垃圾都排入其中,水体又成为了接纳端。目前用于去除污染物的净化技术成本过高,而且有时还不环保。因此,研究方向是开发低成本且环保的水净化技术,这将造福社区。本文对约38篇文献进行了全面综述。论文探讨了不同水生植物(大型植物)在净化水和废水方面的潜力。开展了实验工作来验证营养富集可增强相关大型植物对金属耐受性的假设。