Agriculture Reference
In-Depth Information
Eggen, T. (1999). Application of fungal substrate from commercial mushroom production-
Pleurotus ostreatus
- for bioremediation of creosote contaminated soil, International.
Biodeterioration and Biodegradation. 44: 117-126.
EPA, (1991) Survey of Materials-Handling Technologies Used at Hazardous Waste Sites
,
EPA, ORD,
Washington, DC, EPA/540/2-91/010.
EPA, (2001). A citizen's guide to monitored natural attenuation. EPA 542-F-01-004.
Euliss, K, Ho, C, Schwab, A. P, Rock, S, Banks, M. K. (2008) Greenhouse and field
assessment of phytoremediation for petroleum contaminants in a riparian zone.
Bioresource Technology 99:1961 - 1971.
Farrell, R.E., Germida, J.J. (2002) Phytotechnologies: Plant-based systems for remediation of
oil impacted soils. www.esaa-events.com/remtech/2002/pdf/09Farrellpaper.pdf.
(Accessed on 5th July, 2010).
Frederic, C., Emilien, P., Lenaick, G and Daniel, D. (2005). Effects of nutrient and
temperature on degradation of petroleum hydrocarbons in contaminated sub-
Antarctic soil. Chemosphere 58: 1439 - 1448.
Gentry T.J, Rensing C, Pepper I.L (2004) New approaches for bioaugmentation as a
remediation technology. Critical Review in Environmental Science and Technology
34:447-494.
Gerhardt, K. E, Huang, X. D, Glick, B. R, Greenberg, B. M. (2009) Phytoremediation and
rhizoremediation of organic soil contaminants: potential and challenges. Plant
Science 176: 20 - 30.
Gibson, D. T., Parales, R. (2000) Aromatic hydrocarbon dioxygenases in environmental
biotechnology. Current Opinion in Biotechnology 11: 236 - 243.
Glick, B. R. (2003) Phytoremediation: synergistic use of plants and bacteria to clean up the
environment. Biotechnology Advances 21: 239 - 244.
Greenberg, B. M. (2006) Development and field tests of a multi-process phytoremediation
system for decontamination of soils. Canadian Reclamation 1: 27 - 29.
Haferburg G, Kothe E (2007). Microbes and metals: Interactions in the environment. Journal
of Basic Microbiology 47: 453-467.
Hassinen, V, Vallinkoski, V. M, Issakainen, S, Tervahauta, A, Kärenlampi, S, Servomaa, K.
(2009) Correlation of foliar MT2b expression with Cd and Zn concentrations in
hybrid aspen (
Populus tremula x tremuloides
) grown in contaminated soil.
Environmental Pollution 157:922 - 930.
Holliger, C., Gaspard, S., Glod, G., Heijman, C., Schumacher, W., Schwarzenbach, R.P.,
Vazquez, F. (1997) Contaminated environment in the subsurface and bioremediation:
Organic contaminants. FEMS Microbiology Reviews 20(3-4): 517 - 523.
Huang, X. D, El-Alawi, Y. S, Gurska, J, Glick, B. R, Greenberg, B. M. (2005) A multiprocess
phytoremediation system for decontamination of persistent total petroleum
hydrocarbons (TPHs) from soils. Microchemistry Journal 81:139-47.
Huang, X. D, El-Alawi, Y. S, Penrose, D, Glick, B. R, Greenberg, B. M. (2004) A multiprocess
phytoremediation system for removal of polycyclic aromatic hydrocarbons from
contaminated soils. Environmental Pollution 130:465-76.
Husaini, A., Roslan, H.A., Hii, K.S.Y. Ang, C.H. (2008). Biodegradation of aliphatic
hydrocarbon by indigenous fungi isolated from used motor oil contaminated sites.
World Journal of Microbiology and Biotechnology 24: 2789 - 2797.
Interstate Technology and Regulatory Cooperation (ITRC), (2001) Phytotechnology
Technical and Regulatory Guidance Document. Available on Internet at
www.itrcweb.org.
