metal contamination

View with images and charts Bioremediation of Metal Contamination – It’ S Future Use In Bangladesh Introduction and Literature Review Metal contamination Metal contamination is a global concern. The levels of metals, in all environments including air, water and soil are increasing, in some cases to toxic levels, with contribution from a variety of industrial and domestic sources. For example, anthropogenic emission of lead, cadmium, vanadium, and zinc exceed these from natural sources by up to 100-fold. Metal contaminated environments pose serious health and ecological risks. Metals, such as aluminum, antimony, arsenic, cadmium, lead , mercury and silver cause conditions including hypophosphetema, heart disease, central nervous system damage, cancer, neurological and cardiovascular diseases. However, microbial activity in the sediment converted the elemental mercury into the highly toxic and bio-available methylmercury which accumulated in fish. Lead is a second metal of concern especially because lead poisoning of children is common and leads to recantation and semi-parmanent brain damage. Because of the toxic nature, metals are not as amenable to bioremediation as organics. Unlike organics metals are persistent in the environment and can’t be degraded through biological, chemical, or physical means to an innocuous by product . The chemical nature and, thus bioavailability of a metal can be changed through oxidation and reduction; however the chemical nature remains the same because metals are neither thermally decomposable nor microbiologically degradable. Consequently, metals are difficult to remove from the environment. Because metal bioavailability is strongly dependent on environmental components, such as pH, redox potential, and organic content, there is a discrepancy between the total and the bioavailable amount of a metal present. In environmental samples, a bio-available metal is generally soluble and not sorbed to colloids or soil surfaces, and thus mobile. Moreover, because of the toxicity and ubiquity of metals in the environment, microbes have developed unique and sometimes bizarre ways of dealing with unwanted metals. Some microorganisms have mechanisms to sequester and immobilized metals, whereas others actually enhance metal solubility in the environment. Metals most commonly associated with metal pollution include Arsenic (Ar ),Cadmium (Cd), Copper (Cu ), Chromium (Cr), Mercury (Hg), and Zinc (Zn) Bioremeadition In general, the term bioremediation can be defined as technology employing living organisms for removal of pollutant from the environment. Bioremediation can be defined as “ A method of monitoring natural progress of degradation to ensure that the contaminant decreases with sampling time (Bioattenuation)”.