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<ref>Vidali, M. (2001). Bioremediation. An overview. ''Pure and Applied Chemistry'', 73 (7), 1163-1172</ref> | <ref>Vidali, M. (2001). Bioremediation. An overview. ''Pure and Applied Chemistry'', 73 (7), 1163-1172</ref> | ||
<ref>Pointing, S.b. (2001). Feasibility of bioremediation by white-rot fungi. ''Applied Microbiology and Biotechnology'', 57, 20-33</ref> | <ref>Pointing, S.b. (2001). Feasibility of bioremediation by white-rot fungi. ''Applied Microbiology and Biotechnology'', 57, 20-33</ref> | ||
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+ | <ref>Boopathy, R. (2000). Factors limiting bioremediation technologies. ''Bioresource Technology'', 74, 63-67</ref> | ||
==Species Types Involved== | ==Species Types Involved== |
Revision as of 10:31, 21 March 2013
Contents |
Use of Fungi in Remediation
We can't do the references and definitions with this format so any definitions will have to be imported manually. Many just put a word with a numbered bracket beside it and then we can list the definitions in that section at the end. Erase this message before completing the assignment aha example
Introduction
History
Processes Involved
In situ
Ex situ
Metabolic Processes
Species Types Involved
- It has been observed that a wide variety of fungal species have proved effective in remediation treatment; more notably are those of Basidiomycota and Ascomycota. Although these phylum's dominate the majority of the fungi used in remediation, there is evidence that Zygomycota and Glycomycota may also be effective. Within the studies it is reiterated that the reason for the effectiveness of the fungi in remediation lies in the activity of the corresponding enzymes.
Definitions
References
Gonzalo R. Tortella and Maria Cristina Diez
- ↑ Vidali, M. (2001). Bioremediation. An overview. Pure and Applied Chemistry, 73 (7), 1163-1172
- ↑ Pointing, S.b. (2001). Feasibility of bioremediation by white-rot fungi. Applied Microbiology and Biotechnology, 57, 20-33
- ↑ Boopathy, R. (2000). Factors limiting bioremediation technologies. Bioresource Technology, 74, 63-67
- ↑ Tortella, G.R. & Diez, M.C. (2005). Fungal diversity and use in decomposition of environmental pollutants. Critical Reviews in Microbiology, 31(4), 197-212.
- ↑ Chen,B.D. Duan, J. Smith S.E. Xiao, X.Y. Zhu, Y.G (2007). Effects of the Arbuscular Mycorrhizal Fungus Glomus mosseae on Growth and Metal Uptake by Four Plant Species in Copper Mine Tailings. Environmental Pollution;(147) 374-380.