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REFERENCES
Abbasi, S. A., Abbasi, N., Soni, R., (1998). Heavy metal in the environment, 1st. Ed.
Mital Publication, New Delhi, India.
Achal, V., Deepika Kumari., Xiangliang Pan, (2011). Bioremediation of chromium
contaminated soil by a brown-rot fungus, Gloeophyllum sepiarium. Res.
J. Microbiol. 6 (2) : 166 - 171.
Achary, M.M., Brahma, V., Panda, B., (2010). Aluminium-induced DNA damage and
adaptive response to genotoxic stress in plant cells are mediated through
reactive oxygen intermediates. Mutagen. 25 (2) : 201 - 209.
Ademola, A.K., Hammed, O.S., Adejumobi, C.A., (2008). Radioactivity and dose
assessment of marble samples from Igbeti mines, Nigeria. Radia. Protec.
Dosimetry. 132 (1) : 94 - 99.
Adewole, M.B., Adesina, M.A., (2011). Impact of marble mining on soil properties in
a part of guinea Savanna zone of southwestern Nigeria. Ethiopian J. Environ.
Stud. Manag. 4 (2) : 1 - 8.
Ahmad, I., Hayat, S., Pichtel, J., (Eds.) (2005). Heavy metal contamination of soil.
problems and remedies. Science Publishers, Inc. Enfield, NH.
Ahmed, K.K., Younus, M., Singh, S.N., (1985). Perspectives in environmental
botony, 1st
Edn., Print House Lucknow, India, 294.
Aina. R., Sergio, S., Angela, S., Massimo, L., Alessandra, G., Sandra, C., (2004).
Specific hypomethylation of DNA is induced by heavy metals in white clover
and industrial hemp. Physio. Plant. 121 : 472 - 480.
Akbar Karimi., Habib Khodaverdiloo., Mozhgan Sepehri., Mirhassan Rasouli
Sadaghiani., (2011). Arbuscular mycorrhizal fungi and heavy metal
contaminated soils. African J. Micro. Res. 5 (13) : 1571 - 1576.
Akhtar, M.N., Mohan, P.M., (1995). Bioremediation of toxic metal ions from polluted
lake-waters and industrial effluents by fungal biosorbent. Curr. Sci. 69 :
1030 - 1038.
Aksu, Z., Calik, A., Dursun, A.Y., Demircan, Z., (1999). Biosorption of iron (III)-
cyanide complex anions to Rhizopus arrhizus: Application of adsorption
isotherms. Process. Biochem. 34 : 483 - 491.
Alagesaboopathi, C., Balu, S., Dwarakan, P., (1996). Edible fruit yielding plants of
Shevaroy hills in Tamil nadu. Anci. Sci. life. (16) 2 : 148 - 151.
Alaskans, (2004). Responsible for mining, environmental impacts fact sheet.
http://www.miningwatch.ca/updir/ARM_Envt. Impacts fact. Sheet.
Alef, K., Nanniperi, P., (1995). Methods in applied soil microbiology and
biochemistry, Academic press, Harcourt Brace & Company, Publishers,
Londan San Diego, New York, Boston Sydney, Tokyo Tpronto, 105 - 121.
Allah Nawaz., Kashif Khurshid., Muhammad Saleem Arif., Ranjha, A.M., (2006).
Accumulation of heavy metals in soil and rice plant (Oryza sativa L.) irrigated
with industrial effluents. Inter. J. Agri. Biol. 8 (3) : 128 - 30.
Alloway, B.J., (1995). Heavy metals in soils. Second Edition. Blackie Academic and
Professional, Londan. P. 368.
Alphei, J., Bonkowski, M., Scheu, S., (1996). Protozoa nematoda and lumbricidae in
the rhizosphere of Hordelymus europaeus (poaceae). Faunal interaction
response of microorganisms and effects on plant growth. Oecologia. 106 : 111
- 112.
Al-Qurainy, F., Abdulhafed Abdullah Alameri., Salim Khan., (2010). RAPD profile
for the assessment of genotoxicity on a medicinal plant; Eruca sativa. J. Medi.
Plant. Res. 4(7) : 579 - 586.
Alvarez, A.H., Moreno-Sanchez, R., Cervantes, C., (1999). Chromate efflux by means
of the ChrA chromate resistance protein from Pseudomonas aeruginosa.
J. Bacteriol. 181 : 7398 - 7400.
Amisu, K.O., Coker, A.O., Isokpehi, R.D., (2003). Acrobacter butzlieri strains from
poultry abattoir effluent in Nigeria. J. East African Media. 80 : 218 - 221.
Ang, L.H., Ang, T.B., (2000). Greening the tin tailings area in Malaysia. In:
Appanah, S., Yusmah, M.Y., Astinah, W.J. Khoo, K.C., (eds.), (2000).
Proceedings of the International Conference on Forestry and Forest Products
Research, FRIM, Kepong, Malaysia, 195 - 205.
Ang, L.H., Ang, T.B., Ng, L.T., (1998). Site toxicity of tin tailings and its implications
on land use in Peninsular Malaysia. Proceedings of MSTC 23-25 : 116 - 123.
Antizar-Ladislao, B., Lopez-Real, J., Beck, A.J., (2006). Degradation of polycyclic
aromatic hydrocarbons (PAHs) in an aged coal-tar contaminated soil under
in-vessel composting conditions. Environ. Pollu. 141 : 459 - 468.
Anu Kalia., Gupta, R.P., (2005). Conservation and utilization of microbial diversity.
NBA Scientific Bulletin Number-1, National Biodiversity Authority, Chennai,
TamilNadu. 1 - 40.
Aon, M.A., Sarena, D.E., Burgos, D.E., Cortassa, S., (2001). Microbiological,
chemical and physical properties of soils subjected to conventional or no-till
management: an assessment of their quality status. Soil Till. Res. 60: 173-186.
Aradhana Singh., Ashok Kumar Singh., (2011). Antimutagenic potential of neem
leaves extract against cadmium - induced genotoxicity in root meristem cells
of Allium cepa L. Plant Archi. 11 (2) : 759 - 764.
Aras, S., Beyaztas, T., Cansaran-Duman, D., Gokce-Gunduzer, E., (2011). Evaluation of
genotoxicity of Pseudevernia furfuracea (L.) Zopf by RAPD analysis. Genet.
Mol. Res.DOI http://dx.doi.org/10.4238/2011.December. 15.4.
Armienta, A., Rodriguez, R., Cruz, O., (1997). Arsenic content in hair of people
exposed to natural arsenic polluted groundwater at Zimapan. Mexico. Bull.
Environ. Contam. Toxicol. 59 : 583 - 589.
Arvind Kumar Rai., Biswajit Paul., Gurdeep Singh., (2011). A study on physico
chemical properties of overburden dump materials from selected coal mining
areas of Jharia coalfields, Jharkhand, India. Inter. J. Environ. Sci. 1 (6) : 1350
- 1360.
Atac Uzel., Guven Ozdemir., (2009). Metal biosorption capacity of the organic solvent
tolerant Pseudomonas fluorescens TEM08. Bioreso. Tech. 100 : 542 - 548.
Atienzar, F.A., Cheung, V.V., Jha, A.N., Depledge, M.H., (2001). Fitness parameters
and DNA effects are sensitive indicators of copper-induced toxicity in
Daphnia magna. Environ. Toxi. 59 : 241 - 250.
Atienzar, F.A., Conradi, M., Evenden, A.J., Jha, A.N., Depledge, M.H., (1999).
Qualitative assessment of genotoxicity using random amplified polymorphic
DNA: comparison of genomic template stability with key fitness parameters in
Daphnia magna to benzo [a] pyrene. Environ. Toxi. Chem. 18 : 2275 - 2282.
Atienzar, F.A., Cordi, B., Donkin, M.B., Evenden, A.J., Jha, A.N., Depledge, M.H.,
(2000). Comparison of ultraviolet-induced genotoxicity detected by random
amplified polymorphic DNA with chlorophyll fluorescence and growth in a
marine macroalgae. Palmaria palmate. Aqua. Toxic. 50 : 1 - 12.
Atkinson, R.B., Daniels, W.L., Cairns, J., (1998). Hydric soil development in
depressional wetlands: A case study from surface mined landscapes. In :
S.K. Majumdar et al (ed.) Ecology of Wetlands and Associated Habitats.
Pennsylvania Academy of Science, Philadelphia, 170 - 182.
Atlas, R.M., Horowitz, A., Krichevsky, M., Bej, A.K., (1991). Responses of microbial
populations to environmental disturbance. Micro. Ecol. 22 : 249 - 256.
Awasthi, S. K. (2000). Prevention of Food Adulteration Act no 37 of 1954. Central
and State Rules as Amended for 1999, 3rd Edition, Ashoka Low House, New
Delhi.
Azmat, R., Akhter, Y., Talat, R., Uddin, F., (2005). The inhibition of bean plant
metabolism by Cd metal and atrazine: the effect of atrazine with Cd Metal on
growth, photosynthesis, nutritional level and rhizophere of soil. Biotech.
4 : 238 - 242
Babich, H., Stotzky, G., (1985). Heavy metal toxicity to microbe-mediated ecologic
processes: A review and potential application to regulatory policies. Environ.
Res. 36 : 111 - 137.
Babior, B.M., (1997). Superoxide: a two-edged sword. Braz. J. Med. Biol. Res. 30 (2):
141-145.
Bai, R.S., Abraham, T.E., (2001). Biosorption of Cr (VI) from aqueous solution by
Rhizopus nigricans. Bioreso. Tech. 79 : 73 - 81.
Baker, A.J.M., McGrath, S.P., Sidoli, C.M.D., Reeves, R.D., (1994). The possibility
of in situ heavy metal decontamination of polluted soils using crops of metal -
accumulating plants. Resour. Conser. Recyc. 11 : 41- 49.
Baker, A.J.M., (1987). Metal tolerance on plants. New Phyt. 106 : 93 - 111.
Balaguru, B., John Britto, S., Nagamurugan, N., Natarajan, D., Soosairaj, S.,
Ravipaul, S., Arockiasamy, D.I., (2003). Vegetation mapping and slope
characteristics in Shervaryan Hills, Eastern Ghats using remote sensing and
GIS. Curr. Sci. 85 (5) : 10 - 15.
Baldrian, P., (2010). Effect of heavy metals on Saprotrophic soil fungi. Soil Biol. 19 :
263 - 279.
Banks, M.K., Waters, C.Y., Schwab, A.P., (1994). Influence of organic acids on
leaching of heavy metals from contaminated mine tailings. J. Environ. Sci.
Heal. (A). 29 : 1045 - 1056.
Banuelos, G.S., (2000). Factors influencing field phytoremediation of selenium laden
soils. In: Phytoremediation of contaminated soil and water, (Eds: N. Terry,
G. Banuelos). Boca Raton: Lewis. 41 - 61.
Barapanda, P., Singh, S. K., Pal, B.K., (2001). Utilization of coal mining wastes: An
Overview, National seminar on environmental issues and waste management
in mining and allied industries, Regional Engg College, Rourkela, Orissa,
India. 177 : 182.
Barbara, C., Hard, S., Friedrich, W., Babel, T., (2011). Bioremediation of acid mine
water using facultatively methylotrophic metal-tolerant sulfate-reducing
bacteria. Microbio. Res. 152 (1) : 65 - 73.
Benedetto, J.S., de Almeida, S.K., Gomes, H.A., Vazoller, R.F., Ladeira, A.C.Q.,
(2005). Monitoring of sulfate-reducing bacteria in acid water from uranium
mines. Miner. Engine. 18 : 1341 - 1343.
Benton, M.J., Guttman, S.I., (1992). Allozyme genotype and differential resistance to
mercury pollution in the caddisfly, Nectopsyche albida. II. Multilocus
genotypes. Canadian J. Fishe. Aqua. Sci. 49: 147 - 149.
Bhattacharyya, S., Pal, TK., Basumajumdar, A., Banik, AK., (2002). Biosorption of
heavy metals by Rhizopus arrhizus and Aspergillus niger. J. Indus. Chem. Soc.
79 : 747 - 50.
Bickham, J.W., Sandhu, S., Hebert, P.D.N., Chikhi, L., Athwal, R., (2000). Effects of
chemical contaminants on genetic diversity in natural populations:
implications for biomonitoring and ecotoxicology. Mutat. Res. Rev. 463 (1) :
33 - 51.
Biggin, M.D., Gibson, T.J., Hong, G.F., (1983). Buffer gradient gels and 35S label as
an aid to rapid DNA sequence determination. Proc. Natl. Acad. Sci. USA.
80 : 3963 - 3965.
Bijoy Krishna Roy., Rajendra Prasad., Gunjan., (2010). Heavy metal accumulation
and changes in metabolic parameters in Cajanas cajan grown in mine spoil.
J. Environ. Biol. 31 (5) : 567 – 573
Bio-Wise, (2003). Contaminated Land Remediation: A Review of Biological
Technology, London. DTI.
Birley, M.H., Lock, K., (1999). The health impacts of periurban natural resource
development. Liverpool School of Tropical Medicine. Liverpool.
Biswaranjan Dhal., Nigama Nanda Das., Banshi Dhar Pandey., Hrudaya Nath Thatoi.,
(2011). Environmental quality of the Boula-Nuasahi chromite mine area in
India. Mine Water Environ (2011) 30:191–196
Black, C.A., (1965). Methods of Soil Analysis. American Society. Agron. U.S.A.
(Exchangeable calcium and magnesium).
Blaylock, M.J., Salt, D.E., Dushenkov, O., Zakharova, C., Gussman, Y., Kapulnik,
B.D., Ensley, Raskin, I., (1997). Enhanced accumulation of Pb in Indian
mustard by soil-applied chelating agents. Environ. Sci. Technol. 31 :
860 - 865.
Block, P., Brown, R., Robinson, D., (2004). Novel activation technologies for sodium
persulfate in situ chemical oxidation. Proceedings of the fourth international
conference on the remediation of chlorinated and recalcitrant compounds,
Monterey, CA.
Blume, H.P., Boden, In., Sukopp, H., Wittig, R., (Eds) (1993). Stadtokologie, Gustav
Fischer Verlag, Stuttgart, Jena, New York, 154 - 171.
Brady, N.C., Weil. R.R., (1999). The nature and properties of soils. 12th
ed. Prentice
Hall. Upper Saddle River, NJ.
Bridges, O., Bridges, J.W., Potter, J.F., (2000). A generic comparison of the airborne
risks to human health from landfill and incinerator disposal of municipal solid
waste. The Environ. 20 : 325 - 334.
Brown, R., (2003). In situ chemical oxidation: performance, practice and pitfills. 2003
AFCEE technology transfer workshop, February 25, 2003, San Antonio, TX.
Bulut, Y., Baysal, Z., (2006). Removal of Pb(II) from wastewater using wheat bran.,
J. Environ. Mng. 78 (2) : 107 - 113.
Burgess, L.W., Liddell, C.M., (1983). Laboratory manual for Fusarium research.
Fusarium Research Laboratory, Department of Plant Pathology and
Agricultural Entomology. The University of Sydney, Australia.
Butler., Rhett, A., (2006). Diversities of Image - Rainforest Biodiversity.
Mongabay.com / A Place Out of Time: Tropical Rainforests and the Perils
They Face. 9 January 2006. http://rainforests.mongabay.com/0305.htm.
Buttona, M., Jenkinb, R.T., Bowmanc, K.J., Harringtond, C.F., Brewerb, T.S., Jones,
G.D., Wattsa, M.J., (2010). DNA damage in earthworms from highly
contaminated soils: Assessing resistance to arsenic toxicity by use of the
Comet assay. Mutat. Res. 696 : 95 - 100.
Calomiris, J.J., Armstrong, J.L., Seidler, R.J., (1984). Association of metal tolerance
with multiple antibiotic resistances of bacteria isolated from drinking water.
Appl. Environ. Microbiol. 47 : 1238 - 1242.
Cantu, M.C., Reyes, S.R., (2001). Determinacion delos niveles de plomo en sangre de
mujeres potencialmente gestantes residentes del area metropolitan de
Monterrey (Nuevo Leo´n, Me´xico). Rev. Salud Publica. Nutr. 4 : 1 - 6.
Carrasco, J.A., Armario, P., Pajuelo, E., Burgos, A., (2005) Isolation and
characterisation of symbiotically effective Rhizobium resistant to arsenic and
heavy metals after the toxic spill at the Aznalcollar pyrite mine. Soil Biol.
Biochem. 37 : 1131 - 1140.
Carvajal, A., Rolan-Alvarez, E., Caballero, A., (2000). Quantitive variation as a tool
for detectinghuman–induced impacts on genetic diversity. Biolo. Conser. 124 :
1 - 13.
Cenkci, S., Cierci. I.H., Yildiz, M., Zay, C., Bozda, A., Terzi, H., (2010). Lead
contamination reduces chlorophyll biosynthesis and genomic template
stability in Brassica rapa L. Environ. Exp. Bot. 67 (3) : 467 - 473.
Chaney, R.L., (1983). Plant uptake of inorganic waste constitutes. In: Parr et al (Eds)
Land treatment of hazardous wastes. Noyes Data Corporation, Park ridge.
N.J. 50 - 76.
Chaney, RL., Brown, SL., Li, Y.M., Angle, J.S., Stuczynski, T.I., Daniels, WL.,
Henry, C.L., Siebelec, G., Malik, M., Ryan, J.A., Compton, H., (2000).
Progress in risk assessment for soil metals, and in-situ remediation and
phytoextraction of metals from hazardous contaminated soils. U.S-EPA
phytoremediation: State of Science, Boston, MA.
Chaulya, S.K., Singh, R.S., Chakraborty, M.K., Tewary, B.K., (2000). Bioreclamation
of coal mine overburden dumps In India. Land Contam. Reclam. 8 (3) :
17 - 20.
Chaverri, G.J., Farr, P., McCray, E.B., (n.d.) (2007). Trichoderma Online, Systematic
Botany & Mycology Laboratory, ARS, USDA. Retrieved August 3.
Chopin, E. I. B., Alloway, B. J., (2007). Distribution and mobility of trace elements
in soils and vegetation around the mining and smelting areas of Tharsis,
Riotinto and Huelva, Iberian Pyrite Belt, SW Spain. Water Air Soil Pollu. 182
(1-4) : 245 - 261.
Claassens, S., Riedel, K.J., Van Rensburg, L., Morgenthal, T.L., Jansen Van
Rensburg, P.J., (2005). Soil microbial properties in coal mine tailings under
Rehabilitation. Appl. Ecol. Environ. Res. 4(1) : 75 - 83.
Clement, R., Paredes, C., Bernal, M.P., (2007). Soil heavy metal pollution around the
Dabaoshan mine, Guangdong province, China. Pedos. 17 (5) : 588 - 594.
Cobb, G.P., Sands, K., Waters, M., Wixson, B.G., Dorwars-King, E., (2000).
Accumulation of metals by vegetables grown in mine wastes. Environ. Toxi.
Chem. 19 : 600 - 607.
Cohen, R.H., (2006). Use of microbes for cost reduction of metal removal from
metals and mining industry waste streams. J. Clea. Prod. 14 : 1146 - 1157.
Connell, D., (1999). Introduction to Ecotoxicology. Blackwell Science. ISBN 0-632-
03852-7, 68.
Conte, C., Mutti, I., Puglisi, P., Ferrarini, A., Regina, G., Maestri, E.,
Manmiroli, N., (1998). DNA fingerprinting analysis by a PCR based method
for monitoring the genotoxic effects of heavy metals pollution. Chemos.
37 (14-15): 2739 - 2749.
Cortez, H., Pingarron, J., Munoz, J.A., Ballester, A., Blazquez, M.L., Gonzalez, F.,
Garcia, C., Coto, O., (2010). Trends in Bioremediation and Phytoremediation.
Editor: G. Plaza. Research Signpost. 283-299 ISBN: 978-81-308-0424-8.
Costa, MC, Duarte, JC., (2005). Bioremediation of acid mine drainage using acidic
soil and organic wastes for promoting sulphate-reducing bacteria activity on a
column reactor. Water Air Soil Pollu. 165 : 325 - 345.
Cui, Y.J., Zhu, Y.G., Zhai, R.H., Chen, D.Y., Huang, Y.Z., Qiu, Y., Ling, J.Z.,
(2004). Transfer of metals from soil to vegetables in an area near a smelter in
Nanning, China. Environ. Inter. 30 : 785 - 791.
Cyreene, S., Fontanilla., Virginia, C. Cuevas., (2010). Growth of J. curcas L.
seedlings in copper contaminated soils amended with compost and
Trichoderma pseudokoningii Rifai. Philipp. Agric. Scient. 93 (4) : 384 - 391.
Das, SK., Govind, J., Chakrapani, (2011). Assessment of trace metal toxicity in soil of
Raniganj Coalfield, India. Environ. Monit. Assess. 177 : 63 -71.
David, B., Hedrick, Aaron Peacock, John, R., Stephen, Sarah, J., Macnaughton, Julia
Bruggemann David, White, C., (2000). Measuring soil microbial community
diversity using polar lipid fatty acid and denaturing gradient gel
electrophoresis data. J. Microbiol. Met. 41 (3) : 235 - 248.
Davies, R., Hodgkinson, R., Younger, A., Chapman, R., (1995). Nitrogen loss from a
soil restored after surface mining. J. Environ. Qual. 24 : 1215 - 1222.
De Hoog, G.S., Guarro, J., Gene, J., Figueras, M.J., (2000). Atlas of clinical fungi,
2nd
ed, Centraalbureau voor Schimmelcultures, Utrecht, The Netherlands,
vol.1.
De Wolf, H., Blust, R., Backeljiau, T., (2004). The use of RAPD in ecotoxicology:
A review. Mutat. Res. 566 : 249 - 262.
Dhakephalkar, P.K., Chopade, B.A, (1994). High levels of multiple metal resistances
and its correlation to antibiotic resistance in environmental isolates of
Acinetobacter. Biomet. 7 : 67 - 74.
Dhal, B., Thatoi, H., Dasc, N., Pandeya, B.D., (2010). Reduction of hexavalent
chromium by Bacillus spp. isolated from chromite mine soils and
characterization of reduced product. J. Chem. Technol Biotechnol. 85 : 1471 -
1479.
Dhami, P.S., Gopalakrishnan, V., Kannan, R., Ramanujam, A., Salvi, N.A. Udupa, S.R.,
(1998). Biosorption of radionuclides by Rhizopus arrhizus. Biotechnol. Lett.
20 : 225 - 228.
Diaz, G., Honrubia, M., (1993). Infectivity of mine soils from southeast Spain. 2.
Mycorrhizal population levels in spoilt sites. Mycorros. 4 : 85 - 88.
Dietz, K.J, Baier, M., Kramer, U., (1999). Free radicals and reactive oxygen species
as mediators of heavy metals toxicity in plants. In: Prasad MNV, Hagemeyer
J. eds. Heavy metal stress in plants: from molecules to ecosystems. Berlin:
Springer-Verlag, 73 - 97.
Donahue, B.A., Yin, S., Taylor, J.S., Reines, D., Hanawalt, P.C., (1994). Transcript
cleavage by RNA polymerase II arrested by a cyclobutane pyrimidine dimer in
the DNA template. Proc Natl Acad Sci USA. 91(18) : 8502 - 8506.
Doong, R.L, MacDonald, G.E., Shilling, D.G., (1993). Effect of fluridone on
chlorophyll, carotenoid and anthocyanin content of Hydrilla. J. Aqua. Plant.
Manag. 31 : 55 - 59.
Drazkiewicz, M., Tukendorf, A., and Baszynski, T., (2003). Age-dependent response
of maize leaf segments to cadmium treatment: effect on chlorophyll
fluorescence and phytochelatin accumulation. J. Plan. Physiol. 160:247 - 254.
Dursun, A.Y., Uslu, G., Tepe, O., Cuci, Y., Ekiz, H.I., (2003). A comparative
investigation on the bioaccumulation of heavy metal ions by growing
Rhizopus arrhizus and Aspergillus niger. J. Biochem. Eng. 15 : 87 - 92.
Dushenkov, D., (2003). Trends in phytoremediation of radionuclides. Plant Soil. 249 :
167 - 175.
Dutta, R.K., Agrawal, M., (2000). Reclamation of mine spoils: a need for coal
industry. In : Arvind Kumar & P.K. Goel (eds.) Industry, Environment and
Pollution. Technoscience Publications, Jaipur, India. 239 - 250.
Dutta, R.K., Agrawal, M., (2002). Effect of tree plantations on the soil characteristics
and microbial activity of coalmine spoil land. Trop. Ecol. 43 (2) : 313 - 324.
Ebbs, S.D., Lasat, M.M., Brady, D.J., Cornish, J., Gordon, R., Kochian, L.V., (1997).
Phytoextraction of cadmium and zinc from a contaminated soil. J. Environ.
Qual. 26 : 1424 - 1430.
Ehrlich, H.L., (1986). What types of microorganisms are effective in bioleaching,
bioaccumulation of metals, ore benefication, and desulfurization of fossil
fuel?. Biotech. Bioeng. 16 : 227 - 237.
Ehrlich, H.L., (1990). Geomicrobiology, 2nd
ed. Marcel Dekker, NY.
Ekendahl, S., Arlinger, J., Stel, F., Pedersen, K., (1994). Characterization of attached
bacterial populations in deep granitic ground water from the Stripa research
mine with 16S rRNA gene sequencing technique and scanning electron
microscopy. Microbiol. 140 : 1575 - 1583.
Ellis, R.J., Morgan, P., Weightman, A.J., Fry, J.C., (2003). Cultivation dependant and
independent approaches for determining bacterial diversity in heavy-metal
contaminated soil. J. Environ. Microbiol. 69 (6) : 3223 - 3230.
Enan, M.R., (2006). Application of random amplified polymorphic DNA to detect
genotoxic effect of heavy metals. Biotech. App. Biochem. 43 : 147 - 154.
Encarta, (2002). Encarta Encyclopedia–mining, MSN Learning and Research,
http://encarta.msn.com/find/search.asp. search=mining.
Etham, Z., Motty, E.I., Shahin, A.B.D., MAbd-Migeed, M., Sahab, A.F., (2009).
Comparative studies of using compost combined with plant guard and flespar
on the morphological, physiological and rhizophericmicroflora of olive
seedlings. American- Eurasian J. Agri. Environ. Sci. 6 : 372 - 380.
Fabienne, G., Antonis, C., Hauke, H., (2003). Comparative 16S rDNA and 16S rRNA
sequence analysis indicates that Actinobacteria might be a dominant part of
the metabolically active bacteria in heavy metal contaminated bulk and
rhizosphere soil. Environ. Microbiol. 10 : 896 - 907.
Farhadian, M., Vachelard, C., Duchez, D., Larroche, C., (2008). In situ
bioremediation of monoaromatic pollutants in groundwater: A review,
Bioreso. Tech. DOI: 10.1016/j.biortech.2007.10.025. 99 : 5296 - 5308.
Ferrini, F.A., Giuntoli, Nicece, F.P., Pellegrini, S., Vignozzi, N., (2005). Effect of
fertilization and backfill amendment on soil characteristics growth and leaf gas
exchange of englishoak (Quercus robur L.). J. Arboricult. 31 (4) : 182 - 190.
Fojtova, M., Kovarik, A., (2000). Genotoxic effect of cadmium is associated with
apoptotic changes in tobacco cells. Plant Cell Environ. 23 : 531 - 537.
Fomina, M., Burford, EP., Gadd, DM., (2005). Toxic metals and fungal communities
In: Dighton J, White JF, Oudemans P, (eds). The fungal community: Its
organization and role in the ecosystem, 3rd
edn. CRC press, Boca Raton,
733 - 758.
Fourest, E., Canal, C., Roux, J.C., (1994). Improvement of heavy metal biosorption
by mycelial dead biomass (Rhizopus arrhizus, Mucor miehei and Penicillium
chrysogenum): pH control and anion activation. FEMS Microbiol. Rev. 14 :
325 - 332.
Gabriel, J., Kafronova, Q., Rychlovsky, P., Krenzelok, M., (1996). Accumulation and
effect of cadmium in the wood – rotting basidomycetes Daedalea quercina.
Bull. Environ. Toxi. 57 : 383 - 390.
Gadd, G.M., (1993). Microbial formation and transformation of organometallic and
organometalloid compounds. FEMS Microbiol. Rev. 11 : 297 - 316.
Gadd, G.M., (2004) Microbial influence on metal mobility and application for
bioremediation. Geoderma. 122 : 109 - 119.
Gadd, G.M., (2010). Metals, minerals and microbes: Geomicrobiology and
bioremediation. Microbiol. 156 : 609 - 643.
Gairola, S.U., Soni, P., (2010). Role of soil physical properties in ecological
succession of restored mine land – A case study. Inter. J. Eenviron. Sci. 1 (4) :
475 - 480.
Garbeva P., Van Veen, J.K., Van Elsas, J.D., (2004). Microbial diversity in soil:
selection of microbial populations by plant and soil type and implications for
disease suppressiveness. Annu. Rev. Phytopathol. 42 : 243 - 70.
Garcia, C., Moreno, D.A., Ballester, A., Blazquez, M., Gonzalez, F., (2001).
Bioremediation of industrial acid mine water by metal tolerant sulphate
reducing bacteria. Miner. engine. 14 (9) : 997 - 1008.
Gauch, J.R., (1995). Classification In: Gauch JR, editor. Community ecology.
Cambridge: Cambridge University Press. 173 - 210.
Ge, HW., Lian, MF., Wen, FZ., Yun, YF., Jian, FY., Ming, T., (2009). Isolation and
characterization of the heavy metal resistant bacteria CCNWRS33-2 isolated
from root nodule of Lespedeza cuneata in gold mine tailings in China.
J. Hazar. Mater. 162 : 50 - 56.
Geburek, T., Zhitkovich, A., Young, A., Bosheir, D., Boyle, T., (eds) (2000). Effects
of environmental pollution on the genetics of forest trees forest conservation
Genetics. Principle and Practice, UK: CABIO Publishing. 135 -158.
Ghavri, S.V., Singh, R.P., (2010). Phytotranslocation of Fe by biodiesel plant
Jatropha curcas L. grown on iron rich wasteland soil. Braz. J. Plant Physiol.
22 (4) : 235 - 243.
Ghose, A.B., Balaji, J.C., Hassan, R., Singh, D., (1983). Soil and water testing
methods. Indian Agricultural Research Institute, New Delhi. 11 - 22.
Ghose, M.K., (2002). Soil quality impact assessment and its management in mining
areas. Course Vol. 1 Second training programme on environmental
compliance for mining industry. Task 2 activity II B of EMIBTA Project:
Mining sub component.
Ghose, M.K., (2005). Soil conservation for rehabilitation and revegetation of mine -
degraded land. TIDEE – TERI Information Digest on Energy and Environment.
4(2) : 137 - 150.
Ghose, R., (1988). Environmental impacts of coal mining in Jharia coalfield, eastern
India, its past, present and future. Min. Geol. Mettalugical Institute of India.
85 (2) : 90 - 98.
Ghosh, M., Singh, V., (2005). A review on phytoremediation of heavy metals and
utilization of its byproducts. Appl. Ecol. Environ. Res. 3(1) : 1 - 18.
Ghosh, R., (2002). Land use in mining areas of India, Envis Monograph no.09,
ISSN - 0972.
Gichner, T., Patkova, Z., Sazakova, Demnerova, K., (2004). Cadmium induces DNA
damage in tobacco roots, but no DNA damage, somatic mutations or
homologous recombination in tobacco leaves. Mutat. Res. 559 (1-2) : 49 - 57.
Giller, K.E., Witter, E., McGrath, S.P., (2009). Heavy metals and soil microbes. Soil
Biol. Biochem. 41 : 2031 - 2037.
Gil-Sotres, F., Trasar-Cepeda, M.C., Ciardi, C., Ceccanti, B., Leiros, M.C., (1992).
Biochemical characterization of biological activity in very young mine soils.
Biol. Fertil. Soils 13 (1) : 25-30.
Gitimoni, Deka., Krishna, G., Bhattacharyya, (2009). Enrichment of Cr, Mn, Ni and
Zn in surface soil. Inter. J. Civil Envir. Engin. 1 (3) : 145 - 147.
Godoy-Faundez, A., Antizar-Ladislao, B., Reyes-Bozo, L., Camano, A., Saez-
Navarrete, C., (2008). Bioremediation of contaminated mixtures of desert
mining soil and sawdust with fuel oils by aerated in-vessel composting in the
Atacama Region (Chile). J. Hazard. Mater. 151 (2-3) : 649 - 657.
Goodman, A.E., Khalid, A.M., Ralph, B.J., (1981). Microbial ecology of rum jungle.
Part 1. Environmental study of sulphidic overburden dumps, environmental
heap-leach piles and tailings dam area. Aust. AEC AAEC/E53 1.
Groudev, S.N., Georgiev, P.S., Spasova, I.I., Komnitsas, K., (2001). Bioremediation
of a soil contaminated with radioactive elements. Hydromet. 59 : 311 - 318.
Groudev, S.N., Groudeva, V.I., (1993). Microbial communities in four industrial
copper dump leaching operations in Bulgaria. FEMS Microb. Rev. 11 :
261 - 268.
Groudev, S.N., Kontopoulos, A., Spasova, I.I., Komnitsas, K., Angelov, A.T.,
Georgiev, P.S., in: Herbert, M., Kovar, K., Eds., (1998). Groundwater
Quality: Remediation and Protection, IAHS Press, Wallingford, UK, 249 - 255.
Guay, R., Dufresne, S., Desjardins, E.R., Gklinas, P., (1992). Microbiological
modeling of acid mine drainage production in pyritic waste rock pile. Abstr.
Gen. Meet. Am. Sot. Microbiol. 344.
Gumbo, Mulugisi, G., Dacosta, Fa., Muzerengi, C., (2009). The use of indigenous
grass species as part of rehabilitation of mine tailings: a case study of new
union gold mine. International Mine Water Conference Pretoria, South Africa.
Proceedings ISBN Number: 978- 0-9802623-5-3.
Guo, T., Zhang, G., Zhou, M., Wu, F., Chen, J., (2004). Effects of aliminium and
cadmium toxicity on growth and antioxidant enzyme activities of two barley
genotypes with different Al resistance. Plant Soil. 258 : 241 - 248.
Gupta, A.K., Sinha, S., (2006). Chemical fractionation and heavy metal accumulation
in the plant of Sesamum indium (L.) Var. T55 grown on soil amended with
tannery sludge: Selection of single extractants. Chemos. 64 : 161 - 173.
Gupta, M., Tripathi, R.D., Rai, U.N., Chandra, P., (1998). Role of glutathione and
phytochelatin in Hydrilla verticillata (l.f.) Royle and Vallisneria spiralis L.
under mercury stress. Chemos. 37(4) : 785 - 800.
Gurudeeban, S., Ramanathan, T., Satyavani, K., Dhinesh, T., (2011). Standardization
of DNA isolation and PCR protocol for RAPD analysis of Suaeda sp. Asian.
J. Biotechnol. 3 : 486 - 492.
Guzin Kekec, M., Serdal Sakcali, Irem Uzonur., (2010). Assessment of genotoxic
effects of boron on Wheat (Triticum aestivum L.) and Bean (Phaseolus
vulgaris L.) by using RAPD analysis. Bull. Environ. Contam. Toxi. 84 :
759 - 764.
Haering, K., Daniels, W.L., Galbraith, J., Donovan, P., (2002-2003). Properties and
land use potentials of surface mined landscapes in the Virginia coalfields .
Department of Crop and Soil Environmental Sciences. Virginia Tech.
540/231-7175.
Harma, A., Greben., Jacobin Baloyi., Julia Sigama., Stephanus, N., Venter., (2009).
Bioremediation of sulphate rich mine effluents using grass cuttings and rumen
fluid microorganisms. J. Geoche. Explor. 100 : 163 - 168.
Hasan, S., Qari, M., (2010). DNA-RAPD fingerprinting and cytogenetic screening of
genotoxic and antigenotoxic effects of aqueous extracts of Costus speciosus
(Koen.). JKAU: Sci. 22 (1) : 133 - 152.
Hedrich, S., Schlomann, M., Johnson, D. B., (2011). The iron-oxidizing
proteobacteria. Microbiology mic.0.045344-0.
Hernandez, L., Anne Probst, A., Probst, J.L., Ulrich, E., (2003). Heavy metal
distribution in some French forest soils: evidence for atmospheric
contamination. The Scie. Total Environ. 312 (1-3) : 195 - 219.
Horne, A.J., (2000). Phytoremediation by constructed wetlands. In: Phytoremediation
of contaminated soil and water (Eds: N. Terry and G. Banuelos). Boca Raton,
Lewis. 13 - 40.
Hrapovic, L., (2005). Laboratory study of treatment of trichloroethane by chemical
oxidation followed by bioremediation. Environ. Sci. Tech. 39 (8) : 2888 - 2897.
Hu, Z., Caudle, R.D., Chong, S.K., (1992). Evaluation of firm land reclamation
effectiveness based on reclaimed mine soil properties. Inter. J. Surf. Mini.
Reclama. 6 : 129 - 135.
Huang, J.W., Cunningham, SD., (1996). Lead phytoextraction: species variation in
lead uptake and translocation. New Phyto. 134 : 75 - 84.
Hughes, M.N., Poole, R.K., (1989). Metals and microorganisms. Chapman and Hall,
London.
Hussain, I., Khan, L., (2010). Comparative study on heavy metal contents in
Taraxacum officinale. Inter. J. Phormacog. Phytochem. Res. 2 (1) : 15 – 18.
Iglesia, R., Castro, D., Ginocchio, R., Van Der Lelie, D., Gonzalez, B., (2006).
Factors influencing the composition of bacterial communities found at
abandoned copper-tailings dumps. J. Appl. Microbiol. 100 : 537 - 544.
Indorante, S.J., Grantham, D.R., Dunker, R.E., Darmody, R.G., (1992). Mapping and
classification of minesoils: past, present, and future. In R.E. Dunker et al.
(ed.) Prime farmland reclamation. Proc. 1992 Natl. Symp. Prime Farmland
Reclamation, St. Louis, MO, 10-14 Aug. Dept. Agron., Univ. Illinois, Urbana,
IL, 233 - 241.
Iram, S., Iftikhar Ahmad, Doris Stuben, (2009). Analysis of mines and contaminated
agricultural soil samples for fungal diversity and tolerance to heavy metals.
Pakistan J. Bot. 41 (2) : 885 - 895.
Ishikawa, S., Noriharu, AE., Masaharu Murakami., Tadao Wagatsuma., (2006). Is
Brassica juncea a suitable plant for phytoremediation of cadmium in soils
with moderately low cadmium contamination – Possibility of using other plant
species for Cd-phytoextraction. Soil Sci. Plant Nutr. 52 (1) : 32 - 42.
Islam-ud-din., Sardar Khan., Abd El-latif Hesham., Ayaz Ahmad., Su Houbo., Cang
Daqiang., (2010). Physio-chemical characteristics and bacterial diversity in
copper mining wastewater based on 16S rRNA gene analysis. African
J. Biotechnol. 9 (46) : 7891 - 7899.
ITRC, (2005). Technical and regulatory guidance for in situ chemical oxidation of
contaminated soil and groundwater, 2nd
ediditon. 172.
Jana, S., (1988). Accumulation of Hg and Cr by three aquatic species and subsequent
changes in several physiological and biochemical parameters. Water Air Soil
Pollu. 38 : 105 - 109.
Jeffrey, S.W., Mantoura, R.F.C., (1997). Development of pigment methods for
oceanography: SCOR-supported working groups and objectives. In Phytoplankton
pigments in oceanography: guidelines to modern methods, Ed. by
S.W. Jeffrey, R.F.C. Mantoura, and S.W. Wright. UNESCO, Paris France, 19 - 36.
Johnson, D.B., Rang. L., (1993). Effects of acidophilic protozoa on populations of
metal-mobilizing bacteria during the leaching of pyritic coal. J. Gener.
Microbiol. 139 : 1417 - 1423.
Jones, B.E.H., Haynes, R.J., Phillips, I.R., (2010). Effect of amendment of bauxite
processing sand with organic materials on its chemical, physical and microbial
properties. J. Environ. Manag. 91(11) : 2281 - 2288.
Jones, Jr J.B., Wolf, B., Mills, H.A., (1991). Plant Analysis Handbook. Micro-Macro
Publishing House, Moscow, Russia.
Juwarkar, A.A., Yadav, S.K., Thawale, P.R., Kumar, G.P., Singh, S.K., Chakrabarti, T.,
(2008). Developmental strategies for sustainable ecosystem on mine spoil
dumps: a case study. Environ. Monit. Assess. (doi:10.1007/ s10661-008-0549-2).
Kaltseis, J., Rainer. J., De Hoog, G. S, (2009). Ecology of Pseudallescheria and
Scedosporium species in human-dominated and natural environments and their
distribution in clinical samples. Med. Mycol. 47 (4) : 398 - 405.
Kapoor, A., Viraraghavan, T., (1997). Heavy-metal biosorption sites in Aspergillus
niger. Bioreso. Tech. 61 : 221 - 227.
Kautz, G., Martin Zimmer., Peter Zach., Jan Kulfan., Werner Topp., (2001).
Suppression of soil microorganisms by emissions of a magnesite plant in the
Slovak republic. Water Air Soil Pollu. 125 : 121 - 132.
Kelly, D.P., (1988). Evolution of the understanding of the microbiology and
biochemistry of the mineral leaching habitat, In P. R. Norris and D. P. Kelly
(ed.), Biohydrometallurgy. Science and Technology Letters, Kew, Surrey,
England, 3 - 14.
Kelly, R., (2007). Carbon accumulation in rehabilitated Jarrah forest soils at
Boddington bauxite mine honours dissertation, University of Western
Australia.
Kenneth J. Hellevang, PE., (1995). Grain moisture content Effects and management.
www.ag.ndsu.edu AE-905.
Khan, M.S., (2009). Role of plant growth promoting rhizobacteria in the remediation
of metal contaminated soils. Environ. Chem. Let. 7 : 1 - 19.
Khan, S., Cao, Q., Zheng, Y.M., Huang, Y.Z., Zhu, Y.G., (2008). Health risks of
heavy metals in contaminated soils and food crops irrigated with wastewater
in Beijing, China. J. Environ. Pollu. 152 : 686 - 692.
Khan, Y.S.A., Hussain, M.S., Hossain, S.M.G., Hallimuzzaman, A.H.M., (1998). An
environmental assessment of trace metals in Ganges-Brahamputra-Meghna
Estuary. J. Rem. Sens. Environ. 2 : 103-117.
Kiehn, T.E., Gorey, E., Brown, A.E., Edwards, F.F., Armstrong, D., (1992). Sepsis
due to Rhodotorula related to use of indwelling central venous catheters. Clin.
Infect. Dis. 14 : 841 - 846.
Komnitsas, K., Kontopoulos, A., Lazar, I., Cambridge, M., (1998). Risk assessment
and proposed remedial actions in coastal tailings disposal sites in Romania.
Miner. Eng.11 : 1179 - 90.
Korpe, DA., Sumer Aras., (2011). Evaluation of copper-induced stress on eggplant
(Solanum melongena L.) seedlings at the molecular and population levels by
use of various biomarkers. Mutat. Res. 719 : 29 - 34.
Kshirsagar, S., Aery, N.C., (2007). Phytostabilization of mine waste : Growth and
physiological responses of Vigna unguiculata (L.) Walp. J. Environ. Biol.
28 (3) : 651 - 654.
Kubatova, A., Prasil, K., Vanova, M., (2002). Diversity of soil microscopic fungi on
abandoned industrial deposits. Cryptogamie. Mycologi. 23 : 205 - 219.
Kueper, B., (1997). Technology practices manual for surfactants and cosolvents
(TR-97-2). Advanced applied technology demonstration facility program, Rice
Uinversity. http:/www.cluin.org/PRODUCTS/AATDF/Toc.htm
Kumar, G., Kesarwani, S., (2004). Cytotoxic effect of mercuric chloride in root
meristem of Lens culinaris Medik. Inter. J. Mendel. 21 (1-2) : 41 - 42.
Kumar, G., Rai, P.K., (2007). EMS induced karyomorphological variations in maize
(Zea mays L.) inbreds. Turky J. Biol. 31 : 187 - 195.
Kumar, G., Srivastava, S., (2006). Buffering action of essential metals against heavy
metal cytotoxicity in Helianthus annus. The Nucle. 49 : 45 - 51.
Kumar, G., Tripathi, R., (2007). Lead induced cytotoxicity and mutagenecity in Grass
Pea. Turky. J. Biol. 32 : 73 - 78.
Kumar, G.P., Yadav, S.K., Thawale, P.R., Singh, S.K., Juwarkar, A.A., (2008).
Growth of Jatropha curcas on heavy metal contaminated soil amended with
industrial wastes and Azotobacter – A greenhouse study. Bioreso. Tech.
99 : 2078 - 2082.
Kumar, R., Kumar, AV., (1999). Biodeterioration of stone in tropical environments:
an overview. The Getty Conservation Institute, Santa Monica, CA.
Kundu, N.K., Ghose, M.K., (1998). Status of soil quality in the subsided areas caused
by underground coal mining. Indian J. Environ. Protec. 25 : 110 - 113.
Kundu, N.K., Ghose, M.K., (1997). Shelf life of stock piled topsoil of an opencast
coal mine. Environ. Conser. 24 (1) : 24 - 30.
Kundu, N.K., Ghose, M.K., (1994). Studies on the topsoil of an opencast coal mine.
Environ. conser. 21 : 126 - 132.
Larone, D.H., (2002). Medically important fungi a guide to identification.
4th
ed. ASM Press, Washington, D.C. 221
Larrocea, O.M.P., Xoconostie-Cazares, B., Maldonado-Mendoza, I., Carrillo-
Gorizalez, R., Hernandez- Hernandez, J., Diaz Gardunno, M., (2010). Plant
and fungal biodiversity from metal mine wastes under remediation at
Zimapan, Hidalgo, Mexico. Environ. Pollu. 158 : 1922 - 1931.
Lasat, M.M., (2000). Phytoextraction of metals from contaminated soil: A review of
plant/soil/metal interaction and assessment of pertinent agronomic issues.
J. Hazard. Subst. Res. 2 : 1 - 25.
Le Duc, D.L., Tarun, A.S., Montes Bayon, M., Meija, J., Malit, M.F., Wu, C.P.,
Abdelsamine, M., Chiang, C.Y., Tagmount, A., Desouza, M., Neuhiers, B.,
Bock, A., Caruso, J., Terry, N., (2004). Overexpression of selenocystein
methyltransferase in Arabidopsis and Indian mustard increases selenium
tolerance and accumulation. Plant Physiol. 135 : 377 - 383.
Ledin, M., Pedersen, K., (1996). The environmental impact of mine wastes - Roles of
Microorganisms and their significance in treatment of mine wastes. Earth-Sci.
Rev. 41 : 67 - 108.
Lee Daniels, W., Kathryn C., Haering, John, M., Galbraith., (2004). Paper was
presented at the 2004 national meeting of the American society of mining and
reclamation and the 25th
West Virginia surface mine drainage task force.
Published by ASMR, 3134 Montavesta Rd., Lexington, KY 40502.
Leyval, C., Turnau, K., Haselwandter, K., (1997). Effect of heavy metal pollution on
mycorrhizal colonization and function: physiological, ecological and applied
aspects. Mycorrh. 7, 139 - 153.
Lindsay, E., Bennett, Jason, L., Burkhead, Kerry, L., Hale, Norman Terry, Marinus
Pilon, Elizabeth, A., Pilon-Smits, H., (2003). Analysis of transgenic Indian
mustard plants for phytoremediation of metal-contaminated mine tailings.
J. Environ. Qual. 32 : 432 - 440.
Liu, W.H., Zhao, J.Z., Ouyang, Z.Y., Soderlund, L., Liu, G.H., (2005a). Impacts of
sewage irrigation on heavy metals distribution and contamination in Beijing.
China. Envir. Inter. 31 : 805 - 812.
Liu, W., Li, P.J., Qi, X.M., Zhou, Q.X., Zheng, L., Sun, T.H., Yang, Y.S., (2005b).
DNA changes in barley (Hordeum vulgare) seedlings induced by cadmium
pollution using RAPD analysis. Chemos. 61 : 158 - 167.
Logan, T.J., Chaney, R.L., 1984. Utilization of municipal wastewater and sludge on
land Metals. 1983. Workshop on utilization of municipal wastewater and
sludge on land. Univ. California, Riverside, CA. 235 - 326.
Lokeshwari, H., Chandrappa, G.T., (2006). Impact of heavy metal contamination of
Bellandur lake on soil and cultivated vegetation. Curr. Sci. 91: 622 - 627.
Lombi, E., Zhao, F.J., Dunham, S.J., McGrath, S.P., (2001). Phytoremediation of
heavy metal contaminated soils: Natural hyper accumulation versus
chemically enhanced phytoextraction. J. Environ. Qual. 30 : 1919 - 1926.
Lopez-Archilla, A.I., Gonzalez, A.E., Terron, M.C., Amils, R., (2004). Ecological
study of the fungal populations of the acidic Tinto river in southwestern Spain.
Canadian. J. Microbiol. 50 (11) : 923 - 934.
Lovelock, J.E., (2000). Gaia: A new look at life on earth, Oxford University press,
Oxford, UK.
Lovely, D.R., Phillips, E.J.P., Gorby, Y.A., Landa, E.R., (1991). Microbial reduction
of uranium. Natu. 350 : 413 - 416.
Lovesan, V.J., Kumar, N., Singh, T.N., (1998). Effect of the bulk density on the
growth and biomass of the selected grasses over overburden dumps around
coal mining areas. Proceedings of the 7th
National Symposium on
Environment. Dhanbad, Jharkhand, India. 182 - 185.
Lu, R.K., (1999). Soil agriculture chemistry analysis method, Agriculture Science
Press of China, Beijing.
Luli, G.W., Talnagi, J.W., Strohl, W.R., Poster, R.M., (1983). Hexavalent chromium
resistant bacteria isolated from river sediments. Appl. Environ. Microbiol.
46 : 846 - 854.
Lytle, C.M., Lytle, F.W., Yang, N., Qian, H., Hansen, D., Zayed, A., Terry, N.,
(1998). Reduction of Cr (VI) to Cr (III) by wetland plants: Potential for in situ
heavy metal detoxification. Environ. Sci. Tech. 32 : 3087 - 3093.
Macnair, M.R., Tansley., (1993). The genetics of metal tolerance in vascular plants.
New Phytol. 124 : 541 - 559.
Maes, G.E, Raeymaekers, J.A.M., Pampoulie, C., Seynaeve, A., Goemans, G.,
Belpaire, C., Volckaert, F.A.M., (2005). The catadromous European eel
Anguilla anguilla (L.) as a model for freshwater evolutionary ecotoxicology:
Relationship between heavy metal bioaccumulation, condition and genetic
variability. Aqua. Toxi. 73 (1) : 99 - 114.
Maiti, S.K., Ghose, M.K., (2005). Ecological restoration of acidic coal mine
overburden dumps- an Indian case study. Land Contam. Reclam. 13 (4) : 361 - 369.
Maiti, S.K., Karmakar, N.C., Sinha, I.N., (2002). Studies into some physical
parameters aiding biological reclamation of mine spoil dump - A case study
from Jharia coal field. Indian Mini. Engin. J. 41 (6) : 20 - 23.
Malik, A., (2004). Metal bioremediation through growing cells. Environ. Inter. 30 :
261 - 278.
Malik, S., Beer, M., Megharaj, M., Naidu, R., (2008). The use of molecular
techniques to characterize the microbial communities in contaminated soil and
water. Environ. Inter. 34 : 265 - 276.
Mangkoedihardjo, S., Surahmaida., (2008). Jatropha curcas L. for phytoremediation
of lead and cadmium polluted soil. World App. Sci. J. 4 (4) : 519 - 522.
Manoj, E.V., Prasannakumar, V. (2002). Environmental impact assessment and
environmental management plan - a case study of magnesite and dunite mine,
South India. Boletim Paranaense de Geociências, Editora UFPR, 50 : 21 - 25.
Mariappan, P., Yannaraman, V., Vasudevan, T., (2000). Occurrence and removal
possibilities of fluoride in ground water of India. Pollu. Res. 19(2) : 165 - 172.
Martins, M., Santos, E.S., Pires, C., Barros, R.J., Costa, M.C., (2010). Production of
irrigation water from bioremediation of acid mine drainage: comparing the
performance of two representative systems. J. Clea. Produc. 18 : 248 - 253.
Massaccesi, G., Romero, M.C., Cazau, M.C., Bucsinszky, A.M., (2002). Cadmium
removal capacities of filamentous soil fungi isolated from industria lly polluted
sediments, in La Plata (Argentina). World J. Microbiol. Biotechnol. 18 (4) :
817 - 820.
Mathiyazhagan, N., Natarajan, D., (2011a). Assessment of physicochemical and
heavy metals from waste dumps of magnesite and bauxite mines. Elec.
J. Environ. Agri. Food Chem. 10(11), 3076 -3082.
Mathiyazhagan, N., Natarajan, D., (2011b). Bioremediation on effluents from
Magnesite and Bauxite mines using Thiobacillus spp and Pseudomonas spp.
J Bioremed. Biodegrad. 2 :115. doi:10.4172/2155-6199.1000115.
Maxted, A.P, Black, C.R., West, H.M., Crout, N.M.J., McGrath, S.P.,
Young, S.D., (2007). Phytoextraction of cadmium and zinc from arable soils
amended with sewage sludge using Thlaspi caerulescens: Development of a
predictive model. Environ. Pollu. 150 : 363 - 372.
McGrath, S.P, Zhao, F.J., Lombi, E., (2001). Plant and rhizosphere processes
involved in phytoremediation of metal-contaminated soils. Plant Soil. 232 :
207 - 214.
McGrath, S.P., Cunliffe, C.H., (1985). A simplified method for the extraction of the
metals Fe, Zn, Cu, Ni, Cd, Pb, Ni, Cr, Co, and Mn from soils and sewage
sludge. J. Sci. Food Agri. 36 : 794 - 798.
McGregor, SD., Duncan, HJ., Pulford, ID., Wheeler, CT., (1996). Uptake of heavy
metals from contaminated soil by trees. In: Glimmerveen I, editor. Heavy
metals and trees. Proceedings of a Discussion Meeting, Glasgow. Edinburgh:
Institute of Chartered Foresters; 171 – 6.
Meetu Gupta., Sarin, NB., (2009). Heavy metal induced DNA changes in aquatic
macrophytes: Random amplified polymorphic DNA analysis and
identification of sequence characterized amplified region marker. J. Environ.
Sci. 21 : 686 - 690.
Meja, J., Carrizales, L., Rodriguez, V.M., Jimenez, M.E., Daz Barriga, F., (1999). Un
me todo para la evaluacion de riesgos para la salud en zonas mineras. Salud
Publica. Mex. 41 : 132 - 140.
Melamed, R., Cao, X., Chen, M., Ma, L. Q., (2003). Field assessment of lead
immobilization in a contaminated soil after phosphate application. Sci. Total
Environ. 305 : 117 - 127.
Mendez, M., Armienta, M.A., (2003). Arsenic phase distribution in Zimapan mine
tailings. Mexico. Geofis. Inter. 42 : 131 - 140.
Mengoni, A., Gonelli, C., Galardi, F., Gabbrielli, R., Bazzicalupo, M., (2000).
Genetic diversity and heavy metal tolerance in populations of Silene paradoxa
L. (Caryophyllaceae): A random amplified polymorphic DNA analysis. Mole.
Ecolo. 9(9) : 1319 - 1324.
Mishra, V.K., Upadhyaya, A.R., Pandey, S.K., Tripathi, B.D., (2008). Heavy metal
pollution induced due to coal mining effluent on adjacent aquatic ecosystem
and its management through naturally occurring aquatic macrophytes. Bioreso.
Techn. 99 : 930 - 936.
Mohamad Abdulla Jubera, B.S., Janagoudar, D.P., Biradar, R.L., Ravikumar, R.V.,
Koti, S., Patil, J., (2009). Genetic diversity analysis of elite Jatropha curcas (l.)
genotypes using randomly amplified polymorphic DNA markers. Karnataka J.
Agric. Sci. 22 (2) : 293 - 295.
Mohan Murali Achary, V., Brahma B., Panda., (2010). Aluminium-induced DNA
damage and adaptive response to genotoxic stress in plant cells are mediated
through reactive oxygen intermediates. Mutagene. 25 (2) : 201–209.
Moncur, M.C., Ptacek, C.J., Blowes, D.W., Jambor, J.L., (2005). Release, transport,
and attenuation of metals from an old tailings impoundment. Appl. Geoche.
20 : 639 - 659.
Monica, O.M., Julia, W.N., Raina, M.M., (2008). Characterization of a bacterial
community in an abandoned semiarid Lead-Zinc mine tailing site. Appl.
Environ. Microbiol. 74 : 3899 - 3907.
Moore, J.N., Luoma, S.N., (1990). Hazardous waste from large-scale metal
extraction: The Clark Fork waste complex, Montana. Prepared by the
University of Montana-Missoula and U.S. Geological Survey. 34.
Mowll, J.L., Gadd, G.M., (1985). The effect of vehicular lead pollution on
phylloplane mycoflora. Transac. British Mycol. Soc. 84 : 685 – 689.
Mrinal.K., Ghose, (2004). Effect of opencast mining on soil fertility. J. Sci. Indus.
Res. 63 : 1006 - 1009.
Mukhopadhyay, Maiti, S., (2010). Phytoremediation of metal mine waste. Appl.
Ecolo. Environ. Res. 8 (3) : 207 - 222.
Mullen, M.D., Wolf, D.C., Ferris, F.G., Beveridge, T.J., Fleming, C.A., Bailey. G.W.,
(1989). Bacterial sorption of heavy metals. Appl. Environ. Microbiol. 55 (12):
3143 - 3149.
Muller, A.C., Westergaard, K., Christensen, S., Sorensen, S.J., (2001). The effect of
long term mercury pollution on the soil microbial community. FEMS
Microbiol. Ecol. 36 : 11 - 19.
Mulligan, C.N., Galvez-Cloutier, R., Renaud, N., (1999). Biological leaching of
copper mine residues by Aspergillus niger. Process. Metal. 9 : 453 - 461.
Murugesan, M., Vasanthy, M., (2003). Biosorption of chromium using Pseudomonas
spp. J. Ecotoxi. Environ. Monit. 13 (1) : 69 - 71.
Nadig, S.G., Lee K.L., Adams, S.M., (1998). Evaluating alterations of genetic
diversity in sunfish populations exposed to contaminants using RAPD assay.
Aqua. Toxic. 43 : 163 - 178.
Naja, G., Mustin, C., Berthelin, J., Volesky, B., (2005). Lead biosorption study with
Rhizopus arrhizus using a metal-based titration technique. J. Coll. Inter. Sci.
292 : 537 - 43.
Nannipieri, P., Ascher, J., Ceccherini, M.T., Landi, L., Pietramellara, G., Renella, G.,
(2003). Microbial diversity and soil functions. Europian J. Soil Sci. 54 :
655 - 670.
Nascimento, C.W.A., Amarasiriwardena, D., Xing, B., (2006). Comparison of natural
organic acids and synthetic chelates at enhancing phytoextraction of metals
from a multi-element contaminated soil. Environ. Pollu. 140 : 114 - 123.
Natarajan, K.A, (2009). Microbial aspects of acid generation and bioremediation with
relevance to Indian mining. Advan. Mater. Res. 71-73, 645 - 648.
Natarajan, K.A., (1998). Microbes, minerals and environment [m]. Geological survey
of India (bangalore), Govt. of India.
Natarajan, K.A., Ambika., (2008). Biological aspects of arsenic speciation and
remediation [c] Young C A, Taylor P R, Anderson C.G., Choi, Y, ed.
hydrometallurgy. Proceedings SME, Littleton, Colorado, 108 - 116.
Nei, M., Li, WH., (1979). Mathematical model for studying genetic variation in terms
of restriction endonucleases. Proc. Nat. Acad. Sci. USA. 76 : 5269 - 5273.
Nelson, J.R., Lawerence, C.W., Hinkle, D.C., (1996). Thymine thymine dimmer by
pass by yeast DNA-polymerase-zeta. Sci. 272 : 1646 - 1649.
Nordstrom, D.K., Alpers, C.N., Ptacek.C.J., Blowes, D.W., (2000). Negative pH and
extremely acidic mine waters from Iron Mountain, California. Environ. Sci.
Technol. 34 : 254 - 258.
Norris, P.R., (1990). Acidophilic bacteria and their activity in mineral sulfide
oxidation. In: H.L. Ehrlich and C.L. Brierley (Editors), Micro. Miner. Recov.
McGraw-Hill, NY, 3 - 27.
Norris, P.R., Darren A., Clark., Jonathan, P., Owen, Sara Waterhouse., (1996).
Characteristics of Sulfobacillus acidophillus sp. Nov. and other moderately
thermophilic mineral sulphide-oxidising bacteria. Microbiol. 142 : 775 - 783.
Novakova, A., (2009). Microscopic fungi isolated from the Domica cave system
(Slovak Karst National park, Slovakia): A review. Inter. J. Speleo. 38 (1) : 71-82.
Ntougias, S., Zervakis, G.I., Ehaliotis, C., Kavroulakis, N., Papadopoulou, K.K.,
(2006). Ecophysiology and molecular phylogeny of bacteria isolated from
alkaline two-phase olive mill wastes. Res. Microbiol. 157 (4): 376 - 85.
Okoronkwo, N.E., Igwe, J.C., Onwuchekwa, E.C., (2005). Risk and health
implications of polluted soils for crop production. African J. Biotechnol. 4 :
1521 - 154.
Oliveira, M.E., Pampulha, M.M., Neto, A.C., (2010). Almeida mercury tolerant
diazotrophic bacteria in a long-term contaminated soil. Geoder. 154 :
359-363.
Onder, S., Dursum, S., Gezgin, S., Demirbus, A., (2007). Determination of heavy
metal pollution in grass and soil of city centre green areas (Konya, Turkey).
J. Environ. Stud. 16 (1) : 145 - 154.
Osakwe, S.A., Otuya, O.B., (2008). Elemental Composition of Soils in Some
Mechanic Dumpsites in Agbor, Delta State, Nigeria. Proceedings of Chemical
Society of Nigeria. 557 - 559.
Osakwe, S.A., Otuya, O.B., Adaikpo, E.O., (2003). Determination of Pb, Cu, Ni, Fe
and Hg in the soil of Okpai, Delta state. Nigerion. J. Sci. Environ. 3 : 45.
Ozbay, U., Newman, S., (2004). Effect of Trichoderma harzianum strains to colonize
tomato roots and improve transplant growth. J. Biolo. Sci. 7 : 253.
Padmalatha, K., Prasad, M.N.V., (2006). Optimization of DNA isolation and PCR
protocol for RAPD analysis of selected medicinal and aromatic plants of
conservation concern from Peninsular India. African. J. Biotechnol. 5 : 230 - 234.
Pandey, N., Girish, C., Pathak, Dharmendra, K., Pandey, Pandey, R., (2009). Heavy
metals Co, Ni, Zn, and Cd produce oxidative damage and evoke differential
antioxidant responses in Spinach. Brazillian Soci. Plant Physio. 21 (2) : 130-111.
Parkinson, D., Coleman, D.C., (1991). Microbial Communities, activity and biomass.
Agri. Ecos. Environ. 34 (1-4) : 3 - 33.
Parris, W.E., Adeli, K., (2002). In vitro toxicological assessment of heavy metals and
intracellular mechanism of toxicity. In Sarker, B. (ed). Heavy metals in the
environment. NewYork: Marcel Dekker, Inc.
Patel, AK., Behera, N., (2011). Genetic diversity of coal mine spoil by metagenomes
using random amplified polymorphic DNA (RAPD). Indian J. Biotechol.
10 : 90 - 96.
Paul, EA., Clark, FE., (1996). Soil microbiology and biochemistry. Academic Press,
San Diego.
Pedersen, K., Karlsson, F., (1995). Investigations of subterranean microorganisms -
their importance for performance assessment of radioactive waste disposal.
SKB Tech. Rep., 95 -10. Swedish Nuclear Fuel and Waste Co., Stockholm.
Pekey, H., (2006). The distribution and sources of heavy in Izmit Bay surface
sediments affected by a polluted stream. Mar. Pollu. Bull. 52 (10) : 1197 - 1208.
nd
Pendias, A.K., Pendias, H., (1992). Trace elements in soils and plants. 2
Raton. Fl. CRC, Press, 365.
ed. Boca
Peterson, D.G., Boehm, K.S., Stack, S.M., (1997). Isolation of milligram quantities of
nuclear DNA from tomato (Lycopersicon esculentum), a plant containing high
levels of polyphenolic compounds. Plant Mol. Biol. Rep. 15 : 148 -153.
Phillips, E.J.P., Landa, E.R., Lovely, D.R., (1995). Remediation of uranium
contaminated soils with bicarbonate extraction and microbial uranium (VI)
reduction. J. Indust. Microbiol. 14 : 203 - 207.
Pinaki Sar., Paltu, K., Dhal, Ekramul Islam, Sufia K., Kazy, (2007). Molecular
assessment of microbial diversity and community structure at Uranium mines
of Jaduguda India. Advan. Mater. Res. 413 : 20 – 21.
Plaza, G., Lukasik, W., Ulfig, K., (1998). Effect of cadmium on growth of potentially
pathogenic soil fungi. Mycopathol. 141 : 93 - 100.
Pollard, A.J., Powell, K.D., Harper, F.A., Smith, J.A.C., (2002). The genetic basis of
metal hyperaccumulation in plants. Crit. Rev. Plant Sci. 21 : 539 - 566.
Porebski, S., Baily, L.G., Baum, B.R., (1997). Modification of a CTAB DNA
extraction protocol for plants containing high polysaccharide and polyphenol
components. Plant Mol. Biol. Rep. 15 : 8 - 15.
Prabha, K., Padmavathiamma., Loretta, Li, Y., (2007). Phytoremediation technology:
Hyper accumulation metals in plants. Water Air Soil Pollu. 184 : 105 - 126.
Prasetyo, B., Dewi Krisnayanti, B., Utomo, W.H., Anderson, C.W.N., (2010).
Rehabilitation of Artisanal mining gold land in West Lombok, Indonesia:
2. Arbuscular mycorrhiza status of tailings and surrounding soils. J. Agri. Sci.
2 (2) : 201 - 209.
Qing, HU., Hong-yan, QI., Zeng Jing-Hai., Zhang Hong-xun., (2007). Bacterial
diversity in soils around a lead and zinc mine. J. Environ. Sci. 19 : 74 - 79.
Qing, HU., QI Hong-yan, Zeng Jing-hai, Zhang Hong-xun, (2007). Bacterial diversity
in soils around a lead and zinc mine. J. Environ. Sci. 19 : 74 - 79.
Roberts, J.A., Daniels, W.L., Bell, J.C., Burger, J.A., (1988). Early stages of mine soil
genesis in a Southwest Virginia spoil lithosequence. Soil Sci. Soc. Am. J. 52 :
716 – 723.
Rama Rao, K., Rashmi, K., Naveena, J., Lavanya Latha, Maruthi mohan, P., (2005).
Bioremediation of toxic metal ions using biomass of Aspergillus fumigates
from fermentative waste. Indian J. Biotechnol. 4 : 139 - 143.
Raman Kumar Dutta., Agrawal, (2002). Effect of tree plantations on the soil
characteristics and microbial activity of coal mine spoil land. Trop. Ecol. 43(2)
: 315 - 324.
Rastogi, G., Osman, S., (2010). Microbial diversity in Uranium mining-impacted soils
as revealed by High-Density 16S Microarray and Clone library. Microb Ecol.
59 : 94 - 108.
Reda Abou-Shanab, NevineGhanem, KhaledGhanem, Abdu Al-Kolaibe, (2007).
Phytoremediation potential of crop and wild plants for multi-metal
contaminated soils. Res. J. Agri. Biol. Sci. 3 : 370 - 376.
Renault, S., Szczerski, C., Sailerova, E., Fedikow, M.A.F., (2004). Phytoremediation
and revegetation of mine tailings and bio-ore production: progress report on
plant growth in amended tailings and metal accumulation in seedlings planted
at Central Manitoba (Au) mine site (NTS 52L/13); in Report of activities
2004, Manitoba Industry, economic development and mines, Manitoba
Geological Survey, 257 - 261.
Renault, S., Sailerova, E., Fedikow, M.A.F., (2001). Phytoremediation of mine
tailings and bio-ore production: results from a study on plant survival at the
Central Manitoba (Au) minesite (NTS 52L/13); in Report of activities,
Manitoba industry, trade and mines, Manitoba Geological Survey. 138 - 149.
Renault, S., Sailerova, E., Fedikow, M.A.F., (2000). Phytoremediation and
phytomining in Manitoba: preliminary observation from an orientation survey
at the Central Manitoba (Au) minesite (NTS 52L/13); in Report of Activities
2000, Manitoba Industry, Trade and Mines, Manitoba Geological Survey,
179 - 188.
Rhykerd, R., Crews, K., Mclnnes, R.W., Weaver, (1999). Impact of bulking agents
forced aeration and tillage on remediation of oil contaminated soil. Bioreso.
Tech. 67 : 279 - 285.
Ritcey, G.M., (1989). Effluent treatment for environmental control. Tailings
management: problems and solutions in the mining industry. Process
Metallurgy Report, 6. Elsevier, Amsterdam. 41, 1 - 574.
Rizwan Reza, M., Jain, K., Gurdeep Singh, (2009). Impact of mining activities on
surface water quality in Angul-Talcher region of Orissa, India, Mini. Engi. J.
22 - 28.
Radojevic, M., Vladimir, (1999). Practical environmental analysis, Royal Society of
Chemistry, Cambridge, UK. 366.
Romeiro, S., Ana, M.M.A., Lagoa, Pedro R., Furlani, Cleide A., de Abreu, Mônica F.,
de Abreu, and Norma, M., Erismann, (2006). Lead uptake and tolerance of
Ricinus communis L. Brazil J. Plant Physiol. 18(4) : 483 - 489.
Ronald, R.H., Cohen, (2006). Use of microbes for cost reduction of metal removal
from metals and mining industry waste streams. J. Clean. Prod. 14 : 1146 -1157.
Rosa, E.V., Valgas, C., Souza-Sierra, M.M., Correa, A.X., Radetski, C.M., (2003).
Biomass growth, micronucleus induction, and antioxidant stress enzyme
responses in Vicia faba exposed to cadmium in solution. Environ. Toxicol.
Chem. 22 : 645 - 649.
Sag, Y., Atacoglu, I., Kutsal, T., (1999). Simultaneous biosorption; chromium (VI);
copper (II); on Rhizopus arrhizus in packed column; the competitive
Freundlich model. Separat. Sci. Tech. 34 : 3155 - 3171.
Saha, N., Zaman, M.R., (2011). Concentration of selected toxic metals in groundwater
and some cereals grown in Shibganj area of Chapai Nawabganj, Rajshahi,
Bangladesh. Curr. Sci. 101(3) : 427 - 430.
Saichek, R., Reddy, K., (2005). Electrokinetically enhanced remediation of
hydrophobic organic compounds in soils: A review. Crit. Rev. Environ. Sci.
Tech. 35: 115 - 192.
Salt, D.E., Blaylock, M., Kumar, N.P., Dushenkow, V., Ensley, B.D., Chet I., Raskin
I., (1995). Phytoremediation a novel strategy for the removal of toxic metals
from the environment using plants. Biotechnol. 13 : 468 - 474.
Sand, W., Katrin Rohde, Brigit Sobotke., Claus Zenneck., (1992). Evaluation of
Leptospirillum ferrooxidans for leaching. Appl. Environ. Microbiol. 58 (1) : 85 - 92.
Santhini, K., Myla, J., Sajani, S., Usharani, G., (2009). Screening of Micrococcus sp
from oil contaminated soil with reference to bioremediation. Bot. Res. Inter.
2 (4) : 248 - 252.
Savva, D., (1998). Use of DNA fingerprinting to detect genotoxic effects. Ecotoxi.
Environ. Safe. 41 : 103 - 106.
Say, P.J., Harding, J.P.C., Whitton, B.A., (1981). Aquatic mosses as monitors of
heavy metal contamination in the river Etherow, Great Briti. Environ. Pollu.
(Series B). 2 : 295 - 307.
Sayed, M.E., Morsey, E., (2004). Cunninghamella echinulata a biosorbent of metal
ions from polluted water in Egypt, the mycological society of America.
Mycologia. 96 (6) : 1183 - 1189.
Schmidt, U., (2003). Enhancing phytoextraction: the effect of chemical soil
manipulation on mobility, plant accumulation and leaching of heavy metals.
J. Environ. Qual. 32 : 1939 - 1954.
Sencindiver, J.C., Ammons, J.T., (2000). Mine soil genesis and classification. In
Barnhisel, R.I., Darmody, R.G., Daniels, W.L., (ed.). Reclamation of
drastically disturbed lands. Agronomy 41. ASA, CSSA, SSSA, Madison, WI,
595 - 613.
Seoane, A.I., Dulout, F.N., (2001). Genotoxicity ability of cadmium, chromium and
nickel salts studied by kinetochore staining in the cytogenesis-blocked
micronucleus assay. Mutat. Res. 490 : 99 - 106.
Shahrtash, M., Sasan Mohsenzadeh., Hasan Mohabatkar., (2010). Cadmium-induced
genotoxicity detected by the random amplification of polymorphism DNA in
the maize seedling roots. J. Cell Molec. Res. 1 : 42 - 48.
Shanker, A.K., Cervantes, C., Tavera, H.L., Avudainayagam, S., (2005). Chromium
toxicity in plants. Environ. Inter. 31 : 739 - 753.
Sheela, M., Doshi, (2006). Bioremediation of acid mine drainage using sulfate-
reducing bacteria. For U.S. Environmental Protection Agency office of Solid
Waste and Emergency Response Office of Superfund Remediation and
Technology Innovation Washington, D.C.
Sheoran, A.S., Sheoran, V., (2006). Metal removal mechanism of acid mine drainage
in wetlands: A critical review. Miner. Eng. 19 (2) : 105 - 116.
Sheoran, A.S., Sheoran, V., Poonia, P., (2008). Rehabilitation of mine degraded land
by metallophytes. Mini. Engin. J. 10 (3) : 11 - 16.
Sheoran, V., Sheoran, A.S., Poonia, P., (2010). Soil reclamation of abandoned mine
land by revegetation: a review. Inter. J. Soil, Sedim. Water. 3 (2) : Article 13.
Shilpa Goel., Jahid Malik, A., Harsh Nayyar., (2009). Molecular approach for
phytoremediation of metal-contaminated sites. Archi. Agro. Soil Sci. 55 (4) :
451 - 475.
Silva, A.G., Botelho Trufem, S.F., Saggin Junior, O.J., Costa Maia, L., (2005).
Arbuscular mycorrhizal fungi in a semiarid copper mining area in Brazil.
Mycorr. 15 : 47 - 53.
Silver, S., (1991). Bacterial heavy metal resistance systems and possibility of
bioremediation. In: Biotechnology, Bridging Research and Applications.
Kluwer, Academic Publishers, London, 265 - 287.
Simmons, P., Tobin, J.M., Singleton, I., (1995). Consideration of the use of
commercially available yeast biomass for the treatment of metal containing
effluents. J. Indust. Microbiol. 14 : 240 - 246.
Singh, A.N., Raghubanahi, A.S., Singh, J.S., (2004). Impact of native tree plantations
on mine spoil in a dry tropical environment. Forest Ecol. Manag. 187 : 49 - 60.
Singh, A.N., Singh, A.N., (2006). Experiments on ecological restoration of coal mine
spoil using native trees in a dry tropical environment, India: a synthesis. New
Forests. 31 : 25 - 39.
Singh, O.V, Labana, S., Pandey, G., Budhiraja, R., Jain, R.K., (2003).
Phytoremediation: An overview of metallic ion decontamination from soil.
App. Microb. Biotechnol. 61 : 405 - 412.
Singh, P.K., Singh, T.B., Tewary, B.K., Singh, R., (2000). Status of environmental
degradation - A case study of mining sector. Proceedings of international
symposium on geoenvironmental reclamation Nagpur, India, Oxford & IBH
Publishing Co. Pvt. Ltd. New Delhi, 20 - 22.
Singh, R., Singh, P.R., Singh, G., (2007). Evaluation of land degradation due to coal
mining vibrant issue. First international conference on MSECCMI, New
Delhi, India. 129 - 133.
Skousen, J., Sencindiver, J., Owens, K., Hoover, S., (1998). Physical properties of
minesoils in West Virginia and their influence on wastewater treatment.
Published in J. Environ. Qual. 27 : 633 - 639.
Smejkalova, M., Mikanova, O., Boruvka, L., (2003). Effects of heavy metal
concentrations on biological activity of soil micro-organisms. Plant Soil
Environ. 49(7) : 321 - 326.
Smith, E., Leeflang, P., Wernars, K., (1997). Detection of shifts in microbial
community structure and diversity in soil caused by copper contamination
using amplified ribosomal DNA restriction analysis. J. FEMS Microbiol Ecol.
23 : 249 - 261.
Spain, A.V., Hinz, D., Ludwig, J., Tibbett, M., Tongway, D., (2005). Ecosystem
development after bauxite mining in northern Australia: processes, patterns of
development and the achievement of rehabilitation targets. Proceedings of the
1st International forum on ecological reconstruction of Beijing. 164 - 169.
Spain, A.V., Hinz, D.A., Ludwig, J., Tibbett, M., Tongway, D., (2006). Mine closure
and ecosystem development: Alcan Gove bauxite mine, Northern Territory,
Australia. Proceedings of the First International Seminar on Mine Closure,
Fourie, A.B. and Tibbett, M. (eds). 299 - 308.
Sreedhara Nayaka, B.M., Ramakrishna, S., Jayaprakash, Delvi, M.R., (2009). Impact
of heavy m etals on water, fish (Cyprinus carpio) and sediments from a water
tank at Tumkur, India. Inter. J. Oceno. Hydrobiol. 38 (2) : 17 - 28.
Stambuk, A., Lin, XH., Costa, M., (2009). Assessment of genotoxicity in polluted
freshwater using caged painters mussel, Unio pictorum. Ecotoxi. 18 : 430 - 439.
Steinkellner, H., Mun-Sik, K., Helma, C., Ecker, S., Te-Hsiu, M., Horak, O., Kundi,
M., Knasmüller, S., (1998). Genotoxic effects of heavy metals: comparative
investigation with plant bioassay. Environ. Mol. Mutagen. 31 : 183 - 191.
Stephane Boyer, Stephen, D., Wratten., (2009). The potential of earthworms tore
ecosystem services after opencast mining –Are view, Basic App. Ecol. 41 (3) :
33 - 36.
Sterflinger, K., (2000). Fungi as geologic agents. Geomicrobio. 17 : 97 - 124.
Stino, R.G., Mohsen, A.T., Maksoud, M.A., Abd El- Migeed, M.M.M. Gomaa, A.,
Ibrahim, M., (2009). Bio-organic fertilization and its impact on Apricot young
trees in newly reclaimed soil. Amer-Eurasian J Agri. Environ. Sci. 6(1) :
62 - 69.
Straube W.L., Nestlen, C.C., Hansen L.D., Ringleberg, D., Pritchard, P.J., Meehan, J.,
(2003). Remediation of poly aromatic hydrocarbons (PAHs) through land
forming with biostimulation and bioaugumentation. Acta. Biotech. 23 :
179 - 196.
Subudhi E., Kar, R.N., (2008). Rhizopus arrhizus-An efficient fungus for copper
effluent treatment. Inter. J. Intergrat. Biol. 2 (3) : 166 - 171.
Sudduth, K.A., Kitchen, N.R., Drummond, S.T., (1998). Soil conductivity sensing on
claypan soils: Comparison of electromagnetic induction and direct methods.
Proceeding of the 4th
International Conference on Precision Agriculture. Ed.
P.C. Robert. 979 - 990.
Suleyman Cenkci., Mustafa Yıldız., Ibrahim Hakk., Cigerci., Muhsin Konuk., Ahmet
Bozdag., (2009). Toxic chemicals-induced genotoxicity detected by random
amplified polymorphic DNA (RAPD) in bean (Phaseolus vulgaris L.)
seedlings. Chemos. 76 (7) : 900 - 906.
Suranjana (Arora) Ray., Manas Kanti Ray, (2009). Bioremediation of heavy metal
toxicity-with special reference to chromium. American J. Med. Sci. 2 (2) : 57 - 63.
Suresh, B., Ravishankar, G.A., (2004). Phytoremediation-a novel and promising
approach for environmental clean-up. Crit. Rev. Biotechnol. 2 (4) : 97 - 124.
Sutton, D.A., Fothergill, W., Rinaldi, M.G., (ed.). (1998). Guide to clinically
significant fungi, 1st
ed. Williams & Wilkins, Baltimore.
Swaileh, K.M., Hussein, R., Ezzughayyar., Evaluating, A., (2008). Wastewater-
induced plant genotoxicity using randomly amplified polymorphic DNA.
Wiley Inter Science (www. interscience.wiley.com). DOI 10.1002/tox.20316.
Sylvia, E.W., (2004). The effect of compost extract on yield of strawberries and
severity of Botrytis cinerea. J. Sustain. Agri. 25 (1) : 1 - 8.
Talreja, T., (2011). Biochemical estimation of three primary metabolites from
medicinally important plant. Moringa oleifera. Int. J. Pharma. Sci. Rev. Res.
7 (2) : 186 - 188.
Teuben, A., Roelofsma, T.A. P. J., (1990). Dynamic interactions between functional
groups of soil arthropods & microorganisms during decompositions of
Coniferous litter in microcosm experiments. Biol. Fertil. Soils. 9 (2) : 145 - 151.
These, N., (2003). Analysis of microbial community structures and functions in heavy
metal-contaminated soils using molecular methods. Institute des sciences et
technologies de environnement. biologiste diplomee de Universite de
Neuchatel de nationalite suisse et originaire de Gruyeres (FR).
Thomas, G.W., (1982). Exchangeable cations. In Methods of Soil Analysis. 2nd
ed.,
Part 2 ed., A.L., Page, R.H., Miller, and D.R., Keeney, eds. Agronomy
Monograph No. 9. Madison, WI: American Society of Agronomy. 159 - 165.
Thorburg, T, (2005). Effectiveness of in situ cement stabliozation for remediation of
sediments containing coal tar derived hydrocarbons. The annual international
conference on contaminated soils, sediments and water, October 17 - 20.
University of Massachusetts, Amherst.
Thornton, I., (1991). Metal contamination of soils in urban areas. In P. Bullock und
P.J. Gregory (Eds): Soils in the urban environment, Blackwell, Oxford, UK,
47 - 75.
Tibbett, M., Spain, A.V., Edmonds-Tibbett, T.L., Hinz, D., Tongway, D., Ludwig, J.,
(2002). Evolution of fine litter mass and quality from land rehabilitated after
bauxite mining in tropical Australia. Proceedings of Biogeomon Conference.
Third international seminar on mine closure. 2008. Proceedings Published by
Australia Centre for Geomechanics.
Tiryakioglu, M., Eker, S., Ozkutlu, F., Husted, S., Cakmak, I., (2006). Antioxidant
defence system and cadmium uptake in barley genotypes differing in cadmium
tolerance. J. Trace Elem. Medi. Biol. 20 : 181 - 189.
Tobin, J.M., Cooper, D.G., Neufeld, R.J., (1990). Investigation of the mechanism of
metal uptake by denatured Rhizopus arrhizus biomass. Enzyme Micro. tech.
12: 591 - 595.
Topalov, V.D., (1962). Essential oil and medicinal plants. Plovdiv. Bulgaria: Hr. G.
Danov Press.
Torsvik, V., Ovreas, L., (2002). Microbial diversity and function in soil: from genes to
ecosystems. Curr. Opin. Microb. 5 : 240 - 245.
Tripathi, M., Singh, R.S., Singh, J.S., (2009). Impact of post mining subsidence on
nitrogen transformation in southern tropical dry deciduous forest. India.
Environ. Res. 109 : 258 - 266.
Truong, P.N., (1999). Vetiver Grass Technology for mine tailings rehabilitation. Proc.
First Asia Pacific Conference on Ground and Water Bioengineering for
Erosion Control and Slope stabilization. Manila, Philippines : 315 - 325.
Tsuji, L.J.S., Karagatzides, J.D., (2001). Chronic lead exposure, body condition and
testis mass in wild Mallard Ducks. B. Environ. Contam. Toxi. 67 : 489 - 495.
Turan, M., Esringu, A., (2007). Phytoremediation based on canola (Brassica
napus L.) and Indian mustard (Brassica juncea L.) planted on spiked soil by
aliquot amount of Cd, Cu, Pb, and Zn. Plant Soil Environ. 53 (1) : 7 - 15.
Turnau, K., Miszalski, Z., Trouvelot, A., Bonfante, P., Gianinazzi, S. (1996) Oxalis
acetosella as a monitoring plant on highly polluted soils. In: Azcon-Aguilar C,
Barea JM (eds) Mycorrhizas in integrated systems: from genes to plant
development. European Commission, EUR 16728, Luxembourg. 483 - 486.
U.S. EPA, (2006). Off- Gas treatment for soil vapor extraction systems: State of the
practice, EPA 542/R-05/028. Office of solid waste amd emergency response,
129.
Uhlig, H., Klaus Karbaum., Andreas Steudel., (1986). Acetobacter methanolicus sp.
Nov. An acidophilic facultatively methylotrophic bacterium. Inter. J. System.
Bacteriol. 317 - 322 .
Unyayar, S., Keles, Y., Cekic O., (2005). The antioxidative response of two tomato
species with different drought tolerances as a result of drought and cadmium
stress combinations. Plant Soil Environ. 51 : 57 - 64.
Urakami, T., Jin Tamaoka., Ken-Ichiro., Suzuki., Kazuo Komagata., (1989).
Acidomonas gen. Nov. Incorporating Acetobacter methanolicus as
Acidomonas methanolica comb. Nov. Inter. J. Syste. Bacteri. 50 - 55.
Urrutia, M.M., (1997). General Bacterial Sorption Processes. In: Wase J, Forster C,
editors. Biosorbents for metal ions. London, UK: CRC Press, 39 - 66.
USACE., (2002). Engineering and design: soil vapor extraction and bioventing, EM
1110-1-4001, 424.
USEPA., (1999). Integrated risk information system (IRIS). National centre for
environmental assessment, office of research and development, United State
Environmental Protection Agency, Washington DC.
Utsunamiya, T., (1980). Japanese patent application, no. 55-72 : 959.
Vaibhav Rathi, Swati, S., Sambyal, Himani Kulshreshtha, Pranveer, Satvat, S.,
(2011). Heavy metal bioaccumulation by Eisenia foetida, Cynodon dactylon
and Vigna radiata in Single, Bi and Tri-Metal Soil Systems. Inter. J. Techno
Engin. Sys. (IJTES), 2(3).
Van Assche, F., Clijsters, H., (1990). Effects of metals on enzyme activity in plants.
Plant Cell Enviro. 13 : 165 - 168.
Van Straalen, N.M., (2000). Genetic biodiversity in toxicant-stressed populations.
Progr. Environ. Sci. 1 : 195–201.
Varela, C., Vazquez, C., Sangreogria, G.V.M., Leiros, C.M., Stores, G.F., (1993).
Chemical and physical properties of open cast lignite mine soils. Soil Sci. 156
(3) : 193 - 204.
Vinita Hooda., (2007). Phytoremediation of toxic metals from soil and waste water.
J. Environ. Biol. 28 : 367 - 376.
Vogel-Mikus, K., Regvar, M., (2006). Arbuscular mycorrhiza as a tolerance strategy
in metal contaminated soils: prospects in phytoremediation. In: Rhodes, D.,
(Ed.), New Topics in Environmental Research. Nova Science Publishers,
New York, USA. 37 - 56.
Vroh Bi, L., Harvengt, A., Chandelier, G., Mergeai, P., Jardin, Du., (1996). Improved
RAPD amplification of recalcitrant plant DNA by the use of activated
charcoal during DNA extraction. J. Plant Bree. 155 : 205 - 206.
Wan Liu, Y.S., Yang, Li, P.J., Zhou, Q.X., Xie, L.J., Han, Y.P., (2009). Risk
assessment of cadmium-contaminated soil on plant DNA damage using RAPD
and physiological indices. J. Hazard. Mater. 161 (2-3) : 878 - 883.
Wang, W.S., (2003). Relationship between the extractable metals from soils and
metals taken up by maize roots and shoots. Chemos. 53 : 525 - 530.
Wang, J., Chen, C., (2009). Biosorbents for heavy metals removal and their future.
Biotechnol. Adva. 27 : 195 - 226.
Wang, J.L., Chen, C., (2006). Biosorption of heavy metals by Saccharomyces
cerevisiae: a review. Biotechnol. Adv. 24 : 427 - 51.
Watanabe, T., Shimbo, S., Moon, C.S., Zhang, Z.W., Ikeda, M., (1996). Cadmium
contents in rice samples from various areas in the world. The Sci. Total
Environ. 184 : 191 - 196.
Wan-Xia Ren, Pei-Jun Li, Yong Geng, Xiao-Jun Li., (2008). Biological leaching of
heavy metals from a contaminated soil by Aspergillus niger. J. Hazard. Mater.
167 : 164 - 169.
Weisburg, W.G., Dobson, M.E., Samuel, J.E., Dasch, G.A., Maliavia, L.P.,
Baca, O., Mandelco, L., Sechrest, J.E., Weiss, E., Woese, C.R., (1989).
Phylogenetic diversity of the Rickettsiae. J. Bacterio. 171 : 4202 - 4206.
Wenju Liang, Qi Li., Xiaoke Zhang, Siwei Jiang., Yong Jiang, (2006). Effect of
heavy metals on soil Nematode community structure in Shenyang Suburbs.
Amer-Eura. J. Agric. Environ. Sci. 1 (1) : 14 - 18.
Wenzel, W.W., (2008). Rhizosphere processes and management in plant assisted
bioremediation (phytoremediation) of soils. Plant Soil. 4 : 241 - 249.
Wichlacz, P.L., Unz, R.F., (1981). Acidophilic, heterotrophic bacteria of acidic mine
waters. Appl. Environ. Microb. 41 : 1254 - 1261.
Wilkins, DA., (1978). The measurement of tolerance to edaphic factors by means of
root growth. New Phytol. 80: 623 - 633.
William, G., Weisburg, Susan, M., Barns, Dale, A., Pelletier, David, Lane, J., (1991).
16S Ribosomal DNA amplification for phylogenetic study. J. Bacterio. 173
(2) : 697 - 703.
Williams, J., Kubelik, A.R., Livak, K.J., Rafalski, J.A., Tinger, S.V., (1990). DNA
polymorphisms amplified by arbitrary primers are useful as genetic markers.
Nucleic Acid Res. 18 : 6531 - 6535.
Williamson, J.C., Johnson, D.B., (1990). Determination of the activity of soil
microbial population in stored and restored soil at opencast coal sites. Soil
Biol. Biochem. 22 : 671 - 675.
Winter Sydnor, M.E., Redente, E.F., (2002). Reclamation of high elevation, acidic
mine waste with organic amendments and topsoil. J. Environ. Qual. 31 :
1528 - 1537.
Wolnik, K.A., Fricke, F.L., Capar, S.G., Braude, G.L., Meyer, M.W.,
Satzger, R.D., Bonnin, E., (1983). Elements in major raw agricultural crops in
the United States. Cadmium and lead in lettuce, peanuts, potatoes, soy beans,
sweet corn and wheat. J. Agri. Food Chem. 31 : 1240 - 1244.
Wong, M.H., (2003). Ecological restoration of mine degraded soils, with emphasis on
metal contaminated soils. Chemos. 50 : 775 - 780.
Wong, P.K., Lam, K.C., So., C.M., (1993). Removal and recovery of Cu (II) from
industrial effluent by immobilization cells of Pseudomonas putida
II-11. Appl. Microb.Biotechnol. 39 : 127 - 131.
Wong, P.K., So, C.M., (1993). Copper accumulation by a strain of Pseudomonas
putida. Microb. 73 : 113 - 121.
Wuana., Okieimen, F.E., (2010). Phytoremediation potential of Maize
(Zea mays L.). A review. African J. Gener. Agri. 6 (4) : 275 - 287.
Xenidis, A., Papassiopi, N., Komnitsas, K., (2003). Carbonate-rich mining tailings in
Lavrion: risk assessment and proposed rehabilitation schemes. Adv. Environ.
Res. 7 : 479 - 494.
Xiao S, Xie X, Liu J (2009). Microbial communities in acid water environments of
two mines, China. Environ. Pollu. 157 : 1045-1050.
Xiaoyan Hu., Liyan, Xi., Hongyun, Lu., Jiawang Feng., Sa Lu., Changing, Lu.,
Jiufeng Sun, (2011). Phylogenetic analysis of dematiaceous fungi isolated
from the soil of Guangdong. China. Afr. J Microb. Res. 5(20) : 3310 - 3316.
Xuehui Xie., Jin Fu., Huiping Wang., Jianshe Liu., (2010). Heavy metal resistance by
two bacteria strains isolated from a copper mine tailing in China. African
J. Biotech. 9 (26) : 4056 - 4066.
Yamamoto, K., Kato, J., Yamo, T., Ohtake, J., (1993). Kinetics and modeling of
hexavalent chromium reduction in Enterobacter cloacae. Biotech. Bioeng. 41:
129 - 133.
Yan, G., Viraraghavan, T., (2000). Effect of pretreatment on the bio adsorption of
heavy-metal on Mucor rouxii. Water SA. 26 : 119 - 123.
Yanai, J., Mabuchi, N., Moritsuka, N., Kosaki, T., (2004). Distribution and forms of
cadmium in the rhizosphere of Brassica juncea in Cd-contaminated soils and
implications for phytoremediation. Soil Sci. Plant Nutr. 50 : 423 - 430.
Yates, J.R., Holmes, D.S., (1986). Molecular probes for the identification and
quantitation of microorganisms found in mines and mine tailings. Biotechnol.
Bioeng. 16 : 301 - 310.
Yesim, S., Arda, Y., Tulin, K., (2000). Mono and multicomponent biosorption of
heavy metal ions by Rhizopus arrhizus. Process Biochem. 35 : 787 - 799.
Yi, H., Meng, Z., (2003). Genotoxicity of hydrated sulfur dioxide on root tips of
Allium sativum and Vicia faba. Mutat. Res. 537 : 109 - 114.
Yin, H., Cao, L., Qiu, G., Wang, D., Kellogg, L., Zhou, J., Liu, X., Dai, Z., Ding, J.,
Liu, X., (2008). Molecular diversity of 16S rRNA and gyrB genes in copper
mines. Arch. Microb. 189: 101-110.
Yun-Guo, LIU., Zhang, Hui-Zhi, Zeng Guang-Ming, Huang Bao-Rong,
Xin, L.I., (2006). Heavy metal accumulation in plants on Mn mine tailings.
Pedos. 16 (1) : 131 - 136.
Zafar, S., Aqil, F., Ahmad, I., (2007). Metal tolerance and biosorption potential of
filamentous fungi isolated from metal contaminated agricultural soil. Bioreso.
Tech. 98 : 2557 - 256.
Zarei, M., Konig, S., Hempel, S., Nekouei, M.K., Savaghebi, G., Buscot, F., (2008).
Community structure of arbuscular mycorrhizal fungi associated to Veronica
rechingeri at the Anguran zinc and lead mining region. Environ. Pollu. 156 :
1277 - 1283.
Zhang, H., Jiang, Y., He, Z., Ma, M., (2005). Cadmium accumulation and oxidative
burst in garlic (Allium sativum). J. Plant Physiol. 162 : 977 - 984.
Zhang, Y., Xiao, H., (1998). Antagonistic effect of calcium, zinc and selenium against
cadmium induced chromosomal aberrations and micronuclei in root cells of
Hordeum vulgare. Mutat. Res. 420 : 1 - 6.
Zhang, Y.X., Yang, X.L., (1994). The toxic effects of cadmium on cell division and
chromosomal morphology of Hordeum vulgare. Mutat. Res. 312 : 121 - 126.
Zhdanova, N.N., Redchitz, T.I., Vasilevskaya, A.I. (1986). Species composition and
sorption properties of Deuteromycetes in soils polluted by industrial
wastewater. Mikrobiol Zh (in Russian) 48 : 44 - 50.
Zhou, J.L., (1999). Zn biosorption by Rhizopus arrhizus and other fungi. Appl.
Microb. Biotechnol. 51 : 686 - 693.
Zhu, Y.G., Sun, G.X., Lei, M., Teng, M., Liu, Y.X., Chen, N.C., Wang, L.H., Carey,
A.M., Deacon, C., Raab, A., Meharg, A.A., Williams, P.N., (2008). High
percentage inorganic arsenic content of mining impacted and non impacted
Chinese rice. Environ. Sci.Tech. 42 : 5008 - 5013.
Zhu, Y.L., Pilon-Smits, E.A.H., Jouanin, L., Terry, N., (1999). Over expression of
glutathione synthetase in Indian mustard enhances cadmium accumulation and
tolerance. Plant Physiol. 119 : 73 - 79.
Ziegenhagen, B., Scholz, F., (1998). Methods for difficult plant species. In: Karp, A.,
Issac, P.G., and Ingram, D.S., (eds), Molecular tools for screening biodiversity
plants and animals, Chapman and Hall, London. 32 - 35.
Zimmer, M., (1999). The fate and effects of ingested hydrolysable tannins in
Porcellio scaber. J. Chem. Ecol. 25 : 611 - 628.