References - INFLIBNETshodhganga.inflibnet.ac.in/bitstream/10603/40412/10/10...REFERENCES Acosta IR,...
Transcript of References - INFLIBNETshodhganga.inflibnet.ac.in/bitstream/10603/40412/10/10...REFERENCES Acosta IR,...
REFERENCES
Acosta IR, Rodriguez X, Gutirrez C and de Guadalupe Moctezuma MA (2004).
Biosorption of chromium (VI) from aqueous solutions onto fungal biomass.
Bioinorg Chem Appl 2: 1-2.
Aggangan NS, Dell B and Malajczuk N (1996). Effects of soil pH on the ectomycorrhizal
response of Eucalyptus urophylla seedlings. New phytol 134: 539-546.
Ahalya N, Ramachandra TV and Kanamadi RD (2003). Biosorption of heavy metals.
Res J Chem Environ 7: 71-79.
Ahmad I, Ansari MI and Aqil F (2006). Biosorption of Ni, Cr and Cd by metal tolerant
Aspergillus niger and Pencillium sp. using a single or multi-metal solution. Indian
J Exper Biol 44: 73-76.
Akhtar A, Faye G and Bentley DL (1996). Distinct activated and non-activated RNA
polymerase II complexes in yeast. EMBO J 15: 4654-4664.
Akhtar K, Akhtar MW and Khalid AM (2008). Removal and recovery of zirconium from
its aqueous solution by Candida tropicalis. J Hazard Mater 156: 108-117.
Aksu Z and Donmez G (2003). A comparative study on the biosorption characteristics of
some yeasts for Removal Blue Reactive dye. Chemosphere 50: 1075-1083.
Aksu Z and Dönmez G (2005). Combined effects of molasses sucrose and reactive dye
on the growth and dye bioaccumulation properties of Candida tropicalis. Process
Biochem 40: 2443-2454.
Aksu Z and Isoglu IA (2006). Use of agricultural waste sugar beet pulp for the removal of
Gemazol turquoise blue-G reactive dye from aqueous solution. J Hazard Mater
137: 418-430.
Aksu Z, Sag Y and Kutsal T (1992). The biosorption of Cu (II) by Chlorella vulgaris and
Zoogloea ramigera. Environ Technol 13: 579-586.
Alloway BJ (1995). Heavy metals in soils. Chapman & Hall, London.
Almås ÅR, Bakken LR and Mulder J (2004). Changes in tolerance of soil microbial
communities in Zn and Cd contaminated soils. Soil Biol Biochem 36: 805-813.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Alpat S, Alpat SK, Cadirci BH, Ozbayrak O and Yasa I (2010). Effects of biosorption
parameter: kinetics, isotherm and thermodynamics for Ni (II) biosorption from
aqueous solution by Circinella sp. Electron J Biotechnol 13: 5-8.
Anaemene IA (2012). The use of Candida sp. in the biosorption of heavy metals from
industrial effluent. Eur J Exp Biol 2: 484-488.
Anderson RA (1989). Essentiality of chromium in humans. Sci Total Environ 86: 75-81.
Antosiewicz DM (1993). Mineral status of dicotyledonous crop plants in relation to their
constitutional tolerance to lead. Environ Exp Bot 33: 575-589.
Arduini I, Masoni A and Ercoli L (2006). Effects of high chromium applications on
Miscanthus during the period of maximum growth. Environ Exp Bot 58: 234-243.
Arica MY, Arpa C, Kaya B, Bektas S, Denizli A and Genc O (2003). Comparative
biosorption of mercuric ions from aquatic systems by immobilized live and heat-
inactivated Trametes versicolor and Pleurotus sajur-caju. Bioresour Technol 89:
145-154.
Atayese MO, Eigbadon AJ, Oluwa KA and Adesodun JK (2009). Heavy metal
contamination of Amaranthus grown along major highways in Lagos, Niger. Afr
Crop Sci J 16: 225-235.
Aydinalp C and Marinova S (2003). Distribution and forms of heavy metals in some
agricultural soils. Pol J Environ Stud 12: 629-633.
Azenha M, Vasconcelos MT and Cabral JPS (1995). Organic ligands reduce copper
toxicity in Pseudomonas syringae. Environ Toxicol Chem l4: 369-373.
Azizian S (2004). Kinetic models of sorption: a theoretical analysis. J Colloid Interface
Sci 276: 47-52.
Babula P, Adam V, Opatrilova R, Zehnalek J, Havel L and Kizek R (2008). Uncommon
heavy metals, metalloids and their plant toxicity: A review. Environ Chem Lett 6:
189-213.
Bae W, Chen W, Mulchandani R and Mehra RK (2000). The prospects of practical
application. Enhanced bioaccumulation of heavy metals by bacterial cells
displaying synthetic phytochelatins. Biotechnol Bioeng 70: 518-524.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Bahafid W, Joutey NT and Sayel H (2013). Bioaugmentation of chromium-polluted soil
microcosms with Candida tropicalis diminishes phytoavailable chromium. J Appl
Microbiol 115: 727-734.
Bai RS and Abraham TE (2001). Biosorption of chromium (VI) from aqueous solution by
Rhizopus nigricans. Bioresour Technol 79: 73-81.
Baker AJM and Brooks RR (1989). Terrestrial higher plants which hyperaccumulate
metallic elements-review of their distribution, ecology and phytochemistry.
Biorecovery 1: 81-126.
Baker AJM, Mc Grath SP, Reeves RD and Smith JAC (2000). Metal hyperaccumulator
plants: A review of ecology and physiology of a biological resource for
phytoremediation of metal- polluted soils. In: Phytoremediation of contaminated
soil and water. Terry N and Banuelos GS (Eds), Lewis Publishers, Boca Raton, FL,
pp 129-58.
Baker AJM, Reeves RD and Hajar ASM (1994). Heavy metal accumulation and tolerance
in British populations of the metallophyte Thlaspi careulescens J. & C. Presi
(Brassicaceae). New Phytol 127: 61-68.
Bakkaloglu I, Butter TJ, Evison LM, Holland FS and Hancock IC (1998). Screening of
various types biomass for removal and recovery of heavy metals by biosorption,
sedimentation and desorption. Water Sci Technol 38: 269-277.
Baldi F, Vaughan AM and Olson GJ (1990). Chromium (VI) resistant yeast isolated from
a sewage treatment plant receiving tannery wastes. Appl Environ Microbiol 56:
913-918.
Ban Y, Tang M, Chen H, Xu Z, Zhang H and Yang Y (2012). The response of dark septate
endophytes (DSE) to heavy metals in pure culture. Plos One 7: e47968.
Bañuelos GS, Cardon G, Mackey B, Ben-Asher J, Wu LP, Beuselinck P, Akohoue S and
Zambrzuski S (1993a). Boron and selenium removal in B-laden soils by four
sprinkler irrigated plant species. J Environ Qual 22: 786-797.
Bañuelos GS, Mead RR and Hoffman GJ (1993b). Accumulation of selenium in wild
mustard irrigated with agricultural effluent. Agri Ecosys Environ 43: 119-126.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Bao-yan H, Yin H, Feng Y, Jin-shao Y, Hai P, Xian-yan L and Na Z (2012).
Improvement of chromium biosorption through protoplast electrofusion between
Candida tropicalis and Candida lipolytica. J Cent South Univ T 19: 1693-1701.
Barea JM, Azcon-Aguilar C and Azcon R (1997). Interactions between mycorrhizal fungi
and rhizosphere microorganisms within the context of sustainable soil-plant
systems. In: Multitrophic interactions in terrestrial systems. Gange AC and Brown
VK (Eds), Blackwell Science, Cambridge, pp 65-77.
Barrow JR (2003). Atypical morphology of dark septate fungal root endophytes of
Bouteloua in arid southwestern USA rangelands. Mycorrhiza 13: 239-247.
Barrow JR, Havstad KM and McCaslin BD (1997). Fungal root endophytes in fourwing
saltbush, Atriplex canescens, on arid rangelands of south western USA. Arid Soil
Res Rehab 11: 177-185.
Baudouin C, Charveron M, Tarrouse R and Gall Y (2002). Environmental pollutants and
skin cancer. Cell Biol Toxicol 18: 341-348.
Bayramoğlu G and Arica MY (2005). Ethylenediamine grafted poly (glycidylmethacrylate-
co-methylmethacrylate) adsorbent for removal of chromate anions. Sep Purif
Technol 45: 192-199.
Bayramoğlu G, Bektas S and Arica MY (2003). Biosorption of heavy metal ions on
immobilized white-rot fungus Trametes versicolor. J Hazard Mater 101: 285-300.
Beleza VM, Boaventura RA and Almeida MF (2001). Kinetics of Cr removal from spent
tanning liquors using acetylene production sludge. Environ Sci Technol 35:
4379-4383.
Bennett LE, Burkhead JL, Hale KL, Terry N, Pilon M and Pilon-Smits EAH (2003)
Analysis of transgenic Indian mustard plants for phytoremediation of metal-
contaminated mine tailings. J Environ Qual 32: 432-440.
Bever JD, Morton JB, Antonovics J and Schultz PA (1996). Host-dependent sporulation
and species diversity of arbuscular mycorrhizal fungi in a mown grassland. J Ecol
84: 71-82.
Beyersmann D and Hartwig A (2008). Carcinogenic metal compounds: recent insight into
molecular and cellular mechanisms. Arch Toxicol 82: 493-512.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Binupriya AR, Sathishkumar M, Swaminathan K, Yun ES and Pattabi S (2006).
Biosorption of metal ions from aqueous solution and electroplating industry waste
water by Aspergillus japonicus: phytotoxicity studies. Bull Environ Contam
Toxicol 77: 219-227.
Biró B, Posta K, Füzy A, Kadar I and Németh T (2005). Mycorrhizal functioning as part
of the survival mechanisms of barley (Hordeum vulgare L.) at long-term heavy
metal stress. Acta Biol Szegediensis 49: 65-67.
Biro I and Takacs T (2007). Effects of Glomus mosseae strains of different origin on plant
macro and micronutrient uptake in Cd-polluted and unpolluted soils. Acta Agron
Hung 55: 183-192.
Bishnoi NR and Garima A (2005). Fungus-an alternative for the bioremediation of heavy
metal containing waste water: A review. J Sci Ind Res India 64: 93-100.
Bluskov S, Arocena JM, Omotoso OO and Young JP (2005). Uptake, distribution, and
speciation of chromium in Brassica juncea. Int J Phytorem 7: 153-155.
Boonyapookana B, Upatham ES, Kruatrachue M, Pokethitiyook P and Singhakaew S
(2002). Phytoaccumulation and phytotoxicity of cadmium and chromium in
duckweed Wolffia globosa. Int J Phytorem 4: 87-100.
Borrok DM and Fein JB (2005). The impact of ionic strength on the adsorption of
protons, Pb, Cd, and Sr onto the surfaces of Gram negative bacteria: Testing
non-electrostatic, diffuse, and triple-layer models. J Colloid Interface Sci 286:
110-126.
Brady D and Duncan JR (1994). Bioaccumulation of metal-cations by Saccharomyces
cerevisae. Appl Microbiol Biotechnol 41: 149-154.
Bridgewater LC, Manning FC and Patierno SR (1994). Base-specific arrest of in vitro
DNA replication by carcinogenic chromium: Relationships to DNA interstrand
crosslinking. Carcinog 15: 2421-2427.
Brooks RR (Ed) (1998). General introduction. In: Plants that hyperaccumulate heavy
metals: their role in phytoremediation, microbiology, archaeology, mineral
exploration and phytomining, CAB International, New York, pp 1-14.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Brundrett M and Kendrick B (1990). The roots and mycorrhizas of herbaceous woodland
plants. Structural aspects of morphology. New Phytol 114: 469-479.
Brunetti G, Farrag K, Rovira PS, Nigro F and Senesi N (2011). Greenhouse and field
studies on Cr, Cu, Pb and Zn phytoextraction by Brassica napus from
contaminated soils in the Apulia region, Southern Italy. Geoderma 160: 517-523.
Buendía-González L, Orozco-Villafuerte J, Cruz-Sosa F, Barrera-Díaz CE and Vernon-
Carter EJ (2010). Prosopsis laevigata a potential chromium (VI) and cadmium (II)
hyperaccumulator desert plant. Bioresour Technol 101: 5862-5867.
Burkert B and Robson A (1994). 65
Zn uptake in subterranean clover (Trifolium
subterraneum L.) by three vesicular-arbuscular mycorrhizal fungi in a root-free
sandy soil. Soil Biol Biochem 26: 1117-1124.
Butter TJ, Evison LM, Hancock IC, Holland FS, Matis KA, Philipson A, Sheikh AI and
Zouboulis AI (1998). The removal and recovery of cadmium from dilute aqueous
solutions by biosorption and electrolysis at laboratory scale. Water Res 32: 400-406.
Cai Y, Su JH and Ma LQ (2004). Low molecular weight thiols in arsenic
hyperaccumulator Pteris vittata upon exposure to arsenic and other trace elements.
Environ Pollut 129: 69-78.
Cao RX, Ma LQ, Chen M, Singh S and Harris W (2002). Impacts of phosphate
amendments on lead biogeochemistry at a contaminated site. Environ Sci Technol
36: 5296-5304.
Carvalho KM and Martin DF (2001). Removal of aqueous selenium by four aquatic
plants. J Aquat Plant Manage 39: 33-36.
Chanda SV and Parmar NG (2003). Effects of chromium on hypocotyls elongation, wall
components, and peroxidase activity of Phaseolus vulgaris seedlings.
New Zealand J Crop Hortic Sci 31: 115-124.
Chandra R, Bharagava RN, Yadav S and Mohan D (2009). Accumulation and distribution
of toxic metals in wheat (Triticum aestivum L.) and Indian mustard (Brassica
campestris L.) irrigated with distillery and tannery effluents. J Hazard Mater 162:
1514-1521.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Chandra R, Kumar K and Singh J (2004). Impact of anaerobically treated and untreated
(raw) distillery effluent irrigation on soil micro-flora, growth, total chlorophyll
and protein contents of Phaseolus aureus L. J Environ Biol 25: 381-385.
Chandrasekhar K, Subramanian S, Modak JM and Natarajan KA (1998). Removal of
metal ions using an industrial biomass with reference to environmental control.
Int J Miner Process 53: 107-120.
Chen J, Shiyab S, Han FX, Monts DL, Waggoner CA, Yang Z and Su Y (2009).
Bioaccumulation and physiological effects of mercury in Pteris vittata and
Nephrolepis exaltata. Ecotoxicol 18: 110-121.
Chen TB, Zheng YM, Lei M, Huang ZC, Wu HT, Chen H, Fan KK, Yu K, Wu X and Tian
QZ (2005). Assessment of heavy metal pollution in surface soils of urban parks in
Beijing China. Chemosphere 60: 542-551.
Chhetri AB, Tango Martin S, Suzanne M, Chris Watts BK and Rafiqul Islam M (2008).
Non-edible plant oils as new sources for biodiesel production. Int J Mol Sci 9:
169-180.
Chhikara S and Dhankhar R (2008). Biosorption of Cr (VI) ions from electroplating
industrial effluent using immobilized Aspergillus niger biomass. J Environ Biol
29: 773-778.
Chojnacka K (2010). Biosorption and bioaccumulation-the prospects of practical
application. Environ Int 36: 299-307.
Choo TP, Lee CK, Low KS and Hishamuddin O (2006). Accumulation of chromium (VI)
from aqueous solutions using water lilies (Nymphaea spontanea). Chemosphere
62: 961-967.
Christie P and Kilpatrick DJ (1995). Vesicular-arbuscular mycorrhiza infection in cut
grassland following long term slurry application. Soil Biol Biochem 24: 325-330.
Christie P, Li X and Chen B (2004). Arbuscular mycorrhiza can depress translocation of
zinc to shoots of host plants in soils moderately polluted with zinc. Plant Soil 262:
209-217.
Clijsters H and Van Assche F (1985). Inhibition of photosynhthesis by heavy metal.
Photosynth Res 7: 31-40.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Colica G, Mecarozzi PC and De Philipps R (2012). Biosorption and recovery of
chromium from industrial waste waters by using Saccharomyces cerevisiae in a
flow-through system. Ind Eng Chem Res 51: 4452-4457.
Colin VJ, Villegas LB and Abate CM (2002). Indigenous microorganisms as potential
bioremediators for environments contaminated with heavy metals. Int Biodeterior
Biodegrad 69: 28-37.
Conesa HM, Faz Á and Arnaldos R (2006). Heavy metal accumulation and tolerance in
plants from mine tailings of the semiarid Cartagena–La Unión mining district,
Spain. Sci Total Environ 366: 1-11.
Congeevaram S, Dhanarani S, Park J, Dexilin M and Thamaraiselvi K (2007).
Biosorption of chromium and nickel by heavy metal resistant fungal and bacterial
isolates. J Hazard Mater 146: 270-277.
Coscione AL and Berton RS (2009). Barium extraction potential by mustard, sunflower
and castor bean. Sci Agric 66: 59-63.
Costa ACA and Leite SGF (1991). Metals biosorption by sodium alginate immobilized
Chlorella homosphaera cells. Biotechnol Lett 13: 555-562.
Costa M (1991). DNA-protein complexes induced by chromate and other carcinogens.
Environ Health Perspect 92: 45-52.
Costa M (1997). Toxicity and carcinogenicity of Cr (VI) in animal models and humans.
Crit Rev Toxicol 27: 431-442.
Cunningham SD and Ow DW (1996). Promises of phytoremediation. Plant Physiol 110:
715-719.
Cunningham SD, Shann JR, Crowley DE and Anderson TA (1997). Phytoremediation of
contaminated water and soil. In: Phytoremediation of soil and water contaminants.
Kruger EL, Anderson TA and Coats JR (Eds), ACS Symposium series 664,
American Chemical Society, Washington, DC, pp 2-19.
CzakoVer K, Batič M, Raspor P, Sipiczki M and Pesti M (1999) Hexavalent chromium
uptake by sensitive and tolerant mutants of Schizosaccharomyces pombe. FEMS
Microbiol Lett 178: 109-115.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Das B, Mondal NK, Roy P and Chattaraj S (2013). Equilibrium, kinetic and
thermodynamic study on Chromium (VI) removal from aqueous solution using
Pistia stratiotes biomass. Chem Sci Trans 2: 85-104.
Das N, Charumathi D and Vimala R (2007). Effect of pretreatment on Cd2+
biosorption
by mycelial biomass of Pleurotus florida. Afr J Biotechnol 6: 2555-2558.
Das N, Vimala R and Karthika S (2008). Biosorption of heavy metals. Ind J Biotechnol 7:
159-169.
Das SK and Guha AK (2007) Biosorption of chromium by Termitomyces clypeatus.
Colloids Surf Biointerfaces 60: 46-54.
Datta S, Kim CM, Pernas M, Pires ND, Proust H, Tam T, Vijayakumar P and Dolan L
(2011). Root hairs: development, growth and evolution at the plant-soil interface.
Plant Soil 346: 1-14.
Daughney CJ and Fein JB (1998). The effect of ionic strength on the adsorption of H+,
Cd2+, Pb2+
and Cu2+
by Bacillus subtilis and Bacillus licheniformis: A surface
complexation model. J Colloid Interface Sci 198: 53-77.
Davies FT, Puryear JD, Newton RJ, Egilla JN and Grossi JS (2001). Mycorrhizal fungi
enhance accumulation and tolerance of chromium in sunflower (Helianthus
annuus). J Plant Physiol 158: 777-786.
de Abreu CA, Coscione AR, Pires AM and Paz-Ferreiro J (2012). Phytoremediation of a
soil contaminated by heavy metals and boron using castor oil plants and organic
matter amendments. J Geochem Explor 123: 3-7.
De Mars BG and Boerner REJ (1996). Vesicular arbuscular mycorrhizal development in
the Brassicaceae in relation to plant life span. Flora 191: 179-189.
De Rome L and Gadd GM (1987). Copper adsorption by Rhizopus arrhizus,
Ladosporium resinae and Penicillium italicum. Appl Microbiol Biotechnol 26:
84-90.
Del Val C, Barea JM and Azcon-Aguilar C (1999). Assessing the tolerance to heavy
metals of arbuscular mycorrhizal fungi isolated from sewage sludge-contaminated
soils. Appl Soil Ecol 11: 261-269.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Deng X and Wilson DB (2001). Bioaccumulation of mercury from wastewater by
genetically modified Escherichia coli. Appl Microbiol Biotechnol 56: 276-279.
Deram A, Languereau-Leman F, Howsam M, Petit D and Haluwyn CV (2008). Seasonal
patterns of cadmium accumulation in Arrhenatherum elatius (Poaceae): Influence
of mycorrhizal and endophytic fungal colonization. Soil Biol Biochem 40: 845-848.
Dhankhar R and Hooda A (2011). Fungal biosorption- an alternative to meet the
challenges of heavy metal pollution in aqueous solutions. Environ Technol 32:
467-491.
Dias MA, Lacerda ICA, Pimentel PF, de Castro HF and Rosa CA (2002). Removal of
heavy metals by an Aspergillus terreus strain immobilized in a polyurethane
matrix. Lett Appl Microbiol 34: 46-50.
Díaz G, Azcón-Aguilar C and Honrubia M (1996). Influence of arbuscular mycorrhizae
on heavy metal (Zn and Pb) uptake and growth of Lygeum spartum and Anthyllis
cytisoides. Plant Soil 180: 241-249.
Dickson S (2004). The Arum- Paris continuum of mycorrhizal symbioses. New Phytol
163: 187-200.
Dinelli E and Lombini A (1996). Metal distributions in plants growing on copper mine
spoils in northern Apennines, Italy: The evaluation of seasonal variations. Appl
Geochem 11: 375-385.
Dixit V, Pandey V and Shyam R (2002). Chromium ions inactivate electron transport and
enhance superoxide generation in vivo in pea (Pisum sativum L. cv. Azad) root
mitochondria. Plant Cell Environ 25: 687-693.
Dong X (2004). A comparative study of Cu (II) biosorption on Ca-alginate and
immobilized live and inactivated Cladosporium sp. J Environ Biol 25: 337-341.
Donmez G and Aksu Z (2002). Removal of chromium (VI) from saline waste waters by
Dunaliella species. Process Biochem 38: 751-762.
Donmez G and Kocberber N (2007). Chromium (VI) bioaccumulation capacities of
adapted mixed cultures isolated from industrial saline waste water. Bioresour
Technol 98: 2178-2183.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Dursun AY, Ulsu G, Cuci Y and Aksu Z (2003). Bioaccumulation of Copper (II), Lead
(II) and Chromium (VI) by growing Aspergillus niger. Process Biochem 38:
1647-1651.
Duruibe JO, Ogwuegbu MOC and Egwurugwu JN (2007). Heavy metal pollution and
human biotoxic effects. Int J Phys Sci 2: 112-118.
Dushenkov S and Kapulnik Y (2000). Phytofiltration of metals. In: Phytoremediation of
toxic metals-using plants to clean-up the environment. Raskin I and Ensley BD (Eds),
John Wiley & Sons, New York, pp 89-106.
Dushenkov V, Kumar PBAN, Motto H and Raskin I (1995). Rhizofiltration: The use of
plants to remove heavy metals from aqueous streams. Environ Sci Technol 29:
1239-1245.
Ebbs SD and Kochian LV (1997). Toxicity of zinc and copper to Brassica species:
Implications for phytoremediation. J Environ Qual 5: 776-781.
Elless PM, Poynton YC, Williams AC, Doyle PM, Lopez CA, Sokkary AD, Ferguson
BW and Blaylock MJ (2005). Pilot-scale demonstration of phytofiltration for
drinking arsenic in New Mexico drinking water. Water Res 39: 3863-3872.
El-Sayed M and El-Morsy I (2004). Cunninghamella echinulata a new biosorbent of
metal ions from polluted water in Egypt. Mycologia 96: 1183-1189.
Esposito A, Pagnanelli F and Vegli F (2002). pH-related equilibria models for
biosorption in single metal systems. Chem Eng Sci 57: 307-313.
Estaún V, Cortés A, Velianos K, Camprubí A and Calvet C (2010). Effect of chromium
contaminated soil on arbuscular mycorrhizal colonisation of roots and metal
uptake by Plantago lanceolata. Spanish J Agri Res 8: 109-115.
Evans CS, Asher CJ and Johnson CM (1968). Isolation of dimethyl diselenide and other
volatile selenium compounds from Astragalus racemosus (Pursh.). Aust J Biol Sci
21: 13-20.
Feldmann F and Idczak E (1992). Inoculum production of vesicular arbuscular
mycorrhizal fungi for use in tropical nurseries. In: Methods in microbiology.
Norries JR, Read DJ and Verma AK (Eds), Academic press, London, pp 339-357.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Ferraz AI, Tavares T and Teixeira JA (2004). Cr (III) removal and recovery from
Saccharomyces cerevisae. Chem Eng J 105: 11-20.
Flathman PE and Lanza GR (1998). Phytoremediation, current views on an emerging
green technology. J Soil Contam 7: 415-432.
Fourest E and Roux JC (1992). Heavy metal biosorption by fungal mycelial by-products:
Mechanism and influence of pH. Appl Microbiol Biotechnol 3: 399-403.
Frank R (1998). The use of biosolid from waste water treatment. Plant Agro 9: 165-169.
Frenot Y, Bergstrom DM, Gloaguen JC, Tavenard R and Strullu DG (2005). The first
record of mycorrhizae on sub-Antarctic Heard Island: a preliminary investigation.
Antartic Sci 17: 205-210.
Frerot H, Lefebvre C, Gruber W, Collin C, Dos Santos A and Escarre J (2006). Specific
interactions between local metallicolous plants improve the phytostabilization of
mine soils. Plant Soil 282: 53-65.
Friese CF and Allen MF (1991). The spread of VA mycorrhizal fungal hyphae in the soil:
Inoculum types and external hyphal architecture. Mycologia 83: 409-418.
Gadd GM (1990). Heavy metal accumulation by bacteria and other microorganisms.
Experientia 46: 834-840.
Gadd GM (1993). Interactions of fungi with toxic metals. New Phytol 124: 25-60.
Gadd GM and White C (1985). Copper uptake by Penicillium ochrochloron: Influence of
pH on toxicity and demonstration of energy dependent copper influx using
protoplasts. J Gen Microbiol 131: 1875-1879.
Gadd GM, White C and de Rome L (1988). Heavy metal and radionuclide by fungi and
yeasts In: Biohydrometallurgy. Norris PR and Kelly DP (Eds), Rome,
chipperham, Wilts, UK.
Galli U, Schuepp H and Brunold C (1994). Heavy metal binding by mycorrhizal fungi.
Physiol Plant 92: 364-368.
Galun M, Galun E, Siegel BZ, Keller P, Lehr H and Siegel SM (1987). Removal of metal
ions from aqueous solutions by Penicillium biomass: Kinetic and uptake
parameters. Water Air Soil Pollut 33: 359-371.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Gardea-Torresdey JL, Peralta-Videa JR, Montes M, de la Rosa G and Corral-Diaz B
(2004). Bioaccumulation of cadmium, chromium and copper by Convolvulus
arvensis L.: Impact on plant growth and uptake of nutritional elements. Bioresour
Technol 92: 229-235.
Garnham GW (1997). The use of algae as metal biosorbents. In: Biosorbents for metal
ions. Wase J and Forster C (Eds), Taylor & Francis, London, pp 11-37.
Garnham GW, Avery SV, Codd GA and Gadd GM (1994). Interactions of microalgae
and cyanobacteria with toxic metals and radionuclides: Physiology and
environmental implications. In: Changes in fluxes in estuaries: Implications from
science to management. Dyer KR and Orth RJ (Eds), Olsen and Olsen,
Fredensborg, Denmark, pp 289-293.
Gaur A and Adholeya A (2004). Prospects of arbuscular mycorrhizal fungi in the
phytoremediation of heavy metal contaminated soils. Curr Sci 86: 528-534.
George E, Marschner H and Jakobsen I (1995). Role of arbuscular mycorrhizal fungi in
uptake of phosphorus and nitrogen from soil. Crit Rev Biotechnol 15: 257-270.
Gildon A and Tinker P (1983). Interactions of vesicular arbuscular mycorrhizal infection
and heavy metals in plants. II. The effect of infection on uptake of copper.
New Phytol 95: 263-268.
Gildon A and Tinker PB (1981). A heavy metal tolerant strain of a mycorrhizal fungus.
Trans Br Mycol Soc 77: 648-649.
Giordani C, Cecchi S and Zanchi C (2005). Phytoremediation of soil polluted by nickel
using agricultural crops. Environ Manage 36: 675-681.
Gisbert CR, Ros A, de Haro DJ, Walker M, Pilar-Bernal R, Serrano R and Avino JN
(2000). A plant genetically modified that accumulates Pb is especially promising
for phytoremediation. Biochem Biophys Res Commun 303: 440-445.
Göksungur Y, Üren S and Güvenç U (2005). Biosorption of cadmium and lead ions by
ethanol treated waste baker’s yeast biomass. Bioresour Technol 96: 103-109.
Gonzalez-Chavez C, D’Haen J, Vangronsveld J and Dodd JC (2002). Copper sorption
and accumulation by the extraradical mycelium of different Glomus spp.
(arbuscular mycorrhizal fungi) isolated from the same polluted soil. Plant Soil
240: 287-297.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Goyal N, Jain SC and Banerjee UC (2003). Comparative studies on the microbial
adsorption of heavy metals. Adv Environ Res 7: 311-319.
Griffioen WAJ and Ernst WHO (1989). The role of VA mycorrhiza in the heavy metal
tolerance of Agrostis capillaris L. Agric Ecosys Environ 29: 173-177.
Griffoen WAJ (1994). Characterization of a heavy metal-tolerant endomycorrhizal
fungus from the surroundings of a zinc refinery. Mycorrhiza 4: 197-200.
Guo Y, George E and Marschner H (1996). Contribution of an arbuscular mycorrhizal
fungus to the uptake of cadium and nickel in bean and maize plants. Plant Soil
184: 195-205.
Gupta AK and Sinha S (2006). Role of Brassica juncea (L.) Czern. (var. vaibhav) in the
phytoextraction of Ni from the soil amended with fly ash: Selection of extractant
for bioavailability. J Hazard Mater 136: 371-378.
Hajar EWI, Sulaiman AZB and Mimi Sakinah AM (2014). Assessment of heavy metals
tolerance in leaves, stems and flowers of Stevia rebaudiana plant. Procedia
Environ Sci 20: 386-393.
Hameed BH (2009). Evaluation of papaya seed as a non conventional low cost adsorbent
for removal of MB. J Hazard Mater 162: 939-944.
Han FX, Maruthi Sridhar BB, Monts DL and Yi Su (2004). Phytoavailability and toxicity
of trivalent and hexavalent chromium to Brassica juncea. New Phytol 162: 189-199.
Harley JL and Harley EL (1987). A checklist of the status mycorrhizal of the British
flora. New Phytol 105: 1-102.
Harrison MJ (1997). The arbuscular mycorrhizal symbiosis: an underground association.
Trends Plant Sci 2: 54-65.
Heaton ACP, Rugh CL, Wang N and Meagher RB (1998). Phytoremediation of mercury -
and methylmercury-polluted soils using genetically engineered plants. J Soil
Contam 7: 497-510.
Helgason T, Merryweather JW, Denison J, Wilson P, Young JPW and Fitter AH (2002).
Selectivity and functional diversity in arbuscular mycorrhizas of co-occurring
fungi and plants from a temperate deciduous woodland. J Ecol 90: 371-384.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Henry AN, Chitra V and Balakrishnan NP (1989). Flora of Tamilnadu, Vol 3. Botanical
Survey of India, Coimbatore, India.
Henry JR (2000). In an overview of phytoremediation of lead and mercury. NNEMS
Report. Washington, DC, pp 3-9.
Hildebrandt U, Kaldorf M and Bothe H (1999). The zinc violet and its colonization by
arbuscular mycorrhizal fungi. J Plant Physiol 154: 709-717.
Ho YS and Mckay G (2000). The kinetics of sorption of divalent metal ions onto
Sphagnum moss peat. Water Res 34: 735-742.
Holan ZR, Volesky B and Prasety OI (1993). Biosorption of cadmium by biomass of
marine algae. Biotechnol Bioeng 41: 819-825.
Holda A, Kisielowska E and Niedoba T (2011). Bioaccumulation of Cr (VI) ions from
aqueous solutions by Aspergillus niger. Pol J Environ Stud 20: 345-349.
Horikoshi T, Nakajima A and Sakaguchi T (1981). Studies of the accumulation of heavy
metal elements in biological systems. XIX. Accumulation of uranium by
microorganisms. Eur J Appl Microbiol Biotechnol 12 : 90-96.
Huang C and Huang CP (1996). Application of Aspergillus oryzae and Rhizopus oryzae
for Cu (II) removal. Water Res 9: 1985-1990.
Huang C, Huang-Chin PP and Morehart AL (1990). The removal of Cu (II) from dilute
aqueous solutions by Saccharomyces cerevisiae. Water Res 24: 433-439.
Huang H, Yu N, Wang L, Gupta DK, He Z, Wang K, Zhu Z, Yan X, Li T and Yang X
(2011). The phytoremediation potential of bioenergy crop Ricinus communis for
DDTs and Cd co-contaminated soil. Bioresour Technol 102: 11034-11038.
Huang XD, El-Alawi Y, Penrose DM, Glick BR and Greenberg BM (2004). A multi-
process phytoremediation system for removal of polycyclic aromatic
hydrocarbons from contaminated soils. Environ Pollut 130: 465-476.
Hughes JB, Shanks J, Vanderford M, Lauritzen J and Bhadra R (1997). Transformation
of TNT by aquatic plants and plant tissue cultures. Environ Sci Technol 31: 266-271.
Iqbal MZ, Saeeda S and Shafiq M (2001). Effects of chromium on an important arid tree
(Caesalpinia pulcherrima) of Karachi city, Pakistan. Ekologia (Bratislava) 20:
414-422.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Iram S, Zaman A, Iqbal Z and Shabbir R (2013). Heavy metal tolerance of soil fungus
isolated from soil contaminated with sewage and industrial waste water. Pol J
Environ Stud 22: 691-697.
Islam EU, Yang X, He Z and Mahmood Q (2007). Assessing potential dietary toxicity of
heavy metals in selected vegetables and food crops. J Zhejiang Univ Sci B 8: 1-13.
Ismael Acosta R, Rodriguez X, Gutirrez C and de Guadalupe Moctezuma MA (2004).
Biosorption of chromium (VI) from aqueous solutions onto fungal biomass.
Process Biochem 2: 1-2.
Jackson ML (1971). Soil chemical analysis. Prentice Hall, New Delhi.
Jacquot-Plumey E, van Tuinen D, Chatagnier O, Gianinazzi S and Gianinazzi-Pearson V
(2001). 25S rDNA based molecular monitoring of glomalean fungi in sewage
sludge treated field plots. Environ Microbiol 3: 525-531.
Jamal A, Ayub N, Usman M and Khan AG (2002). Arbuscular mycorrhizal fungi
enhance Zn and Ni uptake from contaminated soil by soybean and lentil. Int J
Phytorem 4: 205-221.
Javaid A, Bajwa R, Shafique U and Anwar J (2011). Removal of heavy metals by
adsorption on Pleurotus ostreatus. Biomass Bienerg 35: 1675-1682.
Javanbakht V, Alavi SA and Zilouei H (2013). Mechanisms of heavy metal removal
using microorganisms as biosorbent. Water Science & Technology, IWA
Publishing, 69: p11775.
Jianfeng H, Xiangui L, Ru Y, Qian J and Yufang S (2009). Effects of arbuscular
mycorrhizal fungi inoculation on arsenic accumulation by tobacco (Nicotiana
tabacum L.). J Environ Sci 21: 1214-1220.
John M, Inohue M, Tohoyama H and Murayama T (1995). Nickel resistance mechanisms
in yeasts and other fungi. J Ind Microbiol 14: 164-168.
Joner EJ and Leyval C (1997). Uptake of 109
Cd by roots and hyphae of a Glomus
mosseae/Trifolium subterraneum mycorrhiza from soil amended with high and
low concentration of cadmium. New Phytol 135: 353-360.
Joner EJ, Briones R and Leyval C (2000). Metal binding capacity of arbuscular
mycorrhizal mycelium. Plant Soil 226: 227-234.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Joo JH, Hassan SHA, Oh SE (2010). Comparative study of biosorption of Zn2þ
by
Pseudomonas aeruginosa and Bacillus cereus. Int Biodeterior Biodegrad 64:
734-741.
Jumpponen A and Trappe JM (1998). Dark septate endophytes: a review of facultative
biotrophic root-colonizing fungi. New Phytol 140: 295-310.
Kabata-Pendias A and Pendias H (1992). Trace elements in soils and plants, 2nd
Ed. CRC
Press, Boca Raton, FL.
Kaldorf M, Kuhn AJ, Schröder WH, Hildebrandt U and Bothe H (1999). Selective
element deposits in maize colonized by a heavy metal tolerance conferring
arbuscular mycorrhizal fungus. J Plant Physiol 154: 718-728.
Kalve S, Sarangi BK, Pandey RA and Chakrabarti T (2011). Arsenic and chromium
hyperaccumulation by an ecotype of Pteris vittata - prospective for
phytoextraction from contaminated water and soil. Curr Sci 100: 888-894.
Kamalvanshi M, Kumar A, Jha A and Dhyani SK (2011). Occurrence of arbuscular
mycorrhizal fungi in rhizosphere of Jatropha curcas L. in arid and semi-arid
regions of India. Indian J Microbiol 7: 1-3.
Kapoor A and Viraraghavan T (1995). Fungal biosorption-an alternative treatment option
of heavy metal bearing wastewater: A review. Bioresour Technol 53: 195-206.
Kapoor A and Viraraghavan T (1997). Heavy metal biosorption sites in Aspergillus niger.
Bioresour Technol 61: 221-227.
Kapoor A and Viraraghavan T (1998). Biosorption of heavy metals on Aspergillus niger:
Effect of pretreatment. Bioresour Technol 63:109-113.
Kapoor A, Viraraghavan T and Cullimore DR (1999). Removal of heavy metals using the
fungus Aspergillus niger. Bioresour Technol 70: 95-104.
Karimi A, Khodaverdiloo H, Sepehri M and Sadaghiani MR (2011). Arbuscular
mycorrhizal fungi and heavy metal contaminated soils. Afr J Microbiol Res 5:
1571-1576.
Karuppanapandian T and Manoharan K (2008). Uptake and translocation of tri- and hexa-
valent chromium and their effects on black gram (Vigna mungo L. Hepper cv. Co4)
roots. J Plant Biol 51: 192-201.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Kennish L (1992). Toxicity of heavy metals: effects of Cr and Se on humans health.
J Indian Public Health Education, India. 2: 36-64.
Khade SW and Adholeya A (2009). Arbuscular mycorrhizal association in plants
growing on metal contaminated and non contaminated soils adjoining Kanpur
Tanneries. Water Air Soil Pollut 202: 45-56.
Khan AG (2001). Relationship between chromium biomagnification ratio, accumulation
factor, an mycorrhizae in plants growing on tannery effluent-polluted soil.
Environ Int 26: 417-423.
Khan AG (2005). Role of soil microbes in the rhizospheres of plants growing on trace
element contaminated soils in phytoremediation. J Trace Elem Med Biol 18:
355-364.
Khan AG and Belik M (1995). Occurrence and ecological significance of mycorrhizal
symbioses in aquatic plants. In: Mycorrhiza: Structure, function, molecular
biology and biotechnology. Verma A and Hock B (Eds), Springer-Verlag,
Heidelberg, pp 627-666.
Khan AG, Kuek C, Chaudhry TM, Khoo CS and Hayes WJ (2000). Role of plants,
mycorrhizae and phytochelators in heavy metal contaminated land remediation.
Chemosphere 41: 197-207.
Killham K and Firestone MK (1983). Vesicular-arbuscular mycorrhizal mediation of
grass response to acidic and heavy metal depositions. Plant Soil 72: 39-48.
Kim KT, Kim ES, Cho SR, Park JK, Rai Kt and Lee JM (2010). Distribution of heavy
metals in the environmental samples of the Saemangeum coastal area, Korea.
In: Coastal environmental and ecosystem issues of the East China Sea. Ishimatsu
A and Lie HJ (Eds), TERRAPUB and Nagasaki University, pp 71-90.
Kimbrough DE, Cohen Y, Winer AM, Creelam L and Mabuni C (1999). A critical
assessment of chromium in the environment. Crit Rev Environ Sci Technol 29: 1-46.
Knapp DG, Pintye A and Kova GM (2012). The dark side is not fastidious-dark septate
endophytic fungi of native and invasive plants of semiarid sandy areas. Plos One
7: e32570.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Knasmuller S, Gottmann E, Steinkellner H, Fomin A, Pickl C, Paschke A, God R and
Kundi M (1998). Detection of genotoxic effects of heavy metal contaminated
soils with plant bioassays. Mutat Res 420: 37-48.
Kocberger N and Donmez G (2007). Chromium (VI) bioaccumulating capacities of
adapted mixed cultures isolated from industrial saline waste waters. Bioresour
Technol 98: 2178-2183.
Korhonen J, Kytöviita MM and Siikamäki P (2004). Are resources allocated differently
to symbiosis and reproduction in Geranium sylvaticum under different light
conditions? Can J Bot 82: 89-95.
Kortenkamp A, O’Brien P and Beyersmann D (1991). The reduction of chromate is a
prerequisite of chromium binding to cell nuclei. Carcinog 12: 1143-1144.
Koske RE and Gemma JN (1989). A modified procedure for staining roots to detect VA
mycorrhizas. Mycol Res 9: 486-505.
Kotas J and Stasicka Z (2000). “Chromium occurrence in the environment and methods
of its speciation” . Environ Pollut 107: 263-283.
Kratochvil D and Volesky B (1998). Advances in the biosorption of heavy metals.
TIBTECH 16: 291-300.
Krauter P, Martinelli R, Williams K and Martins S (1996). Removal of Cr (VI) from
ground water by Saccharomyces cerevisiae. Biodegrad 7: 277-286.
Ksheminska H, Fedorovych D, Babyak L, Yanovych D, Kaszycki P and Koloczek H
(2005). Chromium (III) and (VI) tolerance and bioaccumulation in yeast: a survey
of cellular chromium content in selected strains of representative genera. Process
Biochem 40: 1565-1572.
Kumar PBAN, Dushenkov V, Motto H and Raskin I (1995). Phytoextraction: The use of
plants to remove heavy metals from soils. Environ Sci Technol 29: 1232-1238.
Kumar R, Bishnoi NR, Garima A and Bishnoi K (2008). Biosorption of chromium (VI)
from aqueous solution and electroplating wastewater using fungal biomass. Chem
Eng J 135: 202-208.
Kuyucak N and Volesky B (1988). Biosorbents for recovery of metals from industrial
solutions. Biotechnol Lett 10: 137-142.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Lagergren S (1898). Zur theorie der sogenannten adsorption gelöster stoffe. Kungliga
Svenska Vetenskapsakademiens. Handlingar, Band. 24: 1-39.
Lakshmi PM, Jaison S, Muthukumar T and Muthukumar M (2013). Assessment of metal
accumulation capacity of Brachiaria ramosa collected from cement waste
dumping area for the remediation of metal contaminated soil. Ecol Eng 60: 96-98.
Lasat MM (2002). Phytoextraction of toxic metals: a review of biological mechanisms.
J Environ Qual 31: 109-120.
Leung HM, Ye ZH and Wong MH (2006). Interactions of mycorrhizal fungi with Pteris
vittata (as hyper accumulator) in arsenic contaminated soils. Environ Pollut 139:
1-8.
Lewis BG, Johnson CM and Delwiche CC (1966). Release of volatile selenium
compounds by plants: collection procedures and preliminary observations. J Agric
Food Chem 14: 638-640.
Leyval C and Joner EJ (2001). Bioavailability of heavy metals in the mycorrhizosphere.
In: Trace elements in the rhizosphere. Gobran GR, Wenzel WW and Lombi E
(Eds) CRC, Boca Raton, pp 165-185.
Leyval C, Joner EJ, del Val C and Haselwandter K (2002). Potential of arbuscular
mycorrhizal fungi for bioremediation. In: Mycorrhizal technology in agriculture:
From genes to bioproducts. Gianinazzi S (Ed), Birkhauser Verlag, Basel,
Switzerland, pp 175-186.
Leyval C, Singh BR and Joner EJ (1995). Occurrence and infectivity of arbuscular
mycorrhizal fungi in some Norwegian soils influenced by heavy metals and soil
properties. Water Air Soil Pollut 84: 203-216.
Leyval C, Turnau K and Haselwandter K (1997). Effect of heavy metal pollution on
mycorrhizal colonization and function: Physiological, ecological and applied
aspects. Mycorhiza 7: 139-153.
Li C, Xu Y, Jiang W, Dong X, Wang D and Liu B (2013). Effect of NaCl on the heavy
metal tolerance and bioaccumulation of Zygosaccharomyces rouxii and
Saccharomyces cerevisiae. Bioresour Technol 143: 46-52.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Li X L and Christie P (2001). Changes in soil solution Zn and pH and uptake of Zn by
arbuscular mycorrhizal red clover in Zn contaminated soil. Chemosphere 42:
201-207.
Li XL, Marschner H and Romheld V (1991). Acquisition of phosphorus and copper by
VA-mycorrhizal hyphae and root-to-shoot transport in white clover. Plant Soil
136: 49-57.
Liang CC, Li T, Xiao YP, Liu MJ, Zhang HB and Zhao ZW (2009). Effects of
inoculation with arbuscular mycorrhizal fungi on maize grown in multi-metal
contaminated soils. Int J Phytorem 11: 692-703.
Likar M and Regvar M (2009). Application of temporal temperature gradient gel
electrophoresis for characterisation of fungal endophyte communities of Salix
caprea L. in a heavy metal polluted soil. Sci Total Environ 407: 6179-6187.
Lindsay WL and Norvell WA (1976). Development of DTPA soil test for Zn, Fe, Mn and
Cu. Soil Sci Soc Am J 42: 421-428.
Liu DH, Zou JH, Wang M and Jiang WS (2008). Hexavalent chromium uptake and its
effects on mineral uptake, antioxidant defence system and photosynthesis in
Amaranthus viridis L. Bioresour Technol 99: 2628-2636.
Liu Y, Zhu YG, Chen BD, Christie P and Li XL (2005). Influence of the arbuscular
mycorrhizal fungus Glomus mosseae on uptake of arsenate by the As
hyperaccumulator fern, Pteris vittata L. Mycorrhiza 15: 187-192.
Lo W, Chua H, Lam KH and Bi SPA (1999). Comparative investigation on the
biosorption of lead by filamentous fungal biomass. Chemosphere 39: 2723-2736.
Lone MI, He Z, Stoffela PJ and Yang X (2008). Phytoremediation of heavy metal
polluted soils and water: Progresses and perspectives. J Zhejiang Univ Sci B 9:
210-220.
Loukidou MX, Karapantsios TD, Zouboulis AI and Matis KA (2004). Diffusion kinetic
study of chromium (VI) biosorption by Aeromonas caviae. Ind Eng Chem Res 43:
1748-1755.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Machado MD, Santos MSF, Gouveia C, Soares HMVM and Soares EV (2008). Removal
of heavy metals using a brewer’s yeast strain of Saccharomyces cerevisiae: the
flocculation as a separation process. Bioresour Technol 99: 2107-2115.
Magyarosy A, Laidlaw RD, Kilaas R, Echer C, Clark DS and Keasling JD (2002). Nickel
acumulation and nickel oxalate precipitation by Aspergillus niger. Appl J Microbiol
Biotechnol 14: 240-246.
Mahan CA and Holcombe JA (1992). Immobilization of algae cells on silica gel and their
characterization for trace metal preconcentration. Anal Chem 64: 1933-1939.
Mahmud R, Inoue N, Kasajima S and Shaheen R (2008). Assessment of potential
indigenous plant species for the phytoremediation of arsenic-contaminated areas
of Bangladesh. Int J Phytorem 10: 119-132.
Mala JG., Nair BU and Puvanakrishnan R (2006). Bioaccumulation and biosorption of
chromium by Aspergillus niger MTCC 2594. J Gen App Microbiol 52: 179-186.
Malarkodi M, Krishnasamy R and Chitdeshwari T (2008). Phytoextraction of nickel
contaminated soil using castor phytoextractor. J Plant Nutr 31: 219-229.
Malcova R, Vosatka M and Gryndler M (2003). Effects of inoculation with Glomus
intraradices on lead uptake by Zea mays L. and Agrostis capillaris L. Appl Soil
Ecol 23: 255-267.
Mameri N, Boudries N, Addour L, Belhocine D, Lounici H, Grib H and Pauss A (1999).
Batch zinc biosorption by a bacterial non-living Streptomyces rimosus biomass.
Water Res 33: 1347-1354.
Mant C, Costa S, Williams J and Tambourgi E (2006). Phytoremediation of chromium by
model constructed wetland. Bioresour Technol 97: 1767-1772.
Mapolelo M and Torto N (2004). Trace enrichment of metal ions in aquatic environments
by Saccharomyces cerevisiae. Talanta 64: 39-47.
Marques MJ, Salvador A, Morales-Rubio AE and De La Guardia M (1998). Analytical
methodologies for chromium speciation in solid matrices: a survey of literature.
Fresenius J Anal 362: 239-248.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Martinez-Juarez VM, Cardenas-Gonzalez JF, Torre-Bouscoulet ME and Rodriguez IA
(2012). Biosorption of Mercury (II) from aqueous solutions onto fungal biomass.
Bioinorg Chem Appl 2012: 1-5.
Mc Eldowney S, Hardman DJ and Waite S (1993). Treatment technologies. In: Pollution
ecology and biotreatment technologies. Mc Eldowney S, Hardman J and Waite S
(Eds), Longman, Singapore Publishers, Singapore, pp 48-58.
Mc Grath SP (1998). Phytoextraction for soil remediation. In: Plants that hyperaccumulate
heavy metals: their role in phytoremediation, microbiology, archaeology, mineral
exploration and phytomining. Brooks RR (Ed), CAB International, New York,
pp 261-288.
Mc Grath SP and Zhao FJ (2003). Phytoextraction of metals and metalloids from
contaminated soils. Curr Opin Biotechnol 14: 277-282.
McGonigle TP, Miller MH, Evans DG, Fairchild GL and Swan JA (1990). A method
which gives an objective measure of colonization of roots by vesicular-arbuscular
mycorrhizal fungi. New Phytol 115: 495-501.
Meagher RB (2000). Phytoremediation of toxic elemental and organic pollutants. Curr
Opn Plant Biol 3: 153-162.
Medina A and Azcón
R (2010). Effectiveness of the application of arbuscular mycorrhiza
fungi and organic amendments to improve soil quality and plant performance
under stress conditions. J Soil Sci Plant Nutr 10: 354-372.
Meeinkuirt W, Pokethitiyook P, Kruatrachue M, Tanhan P and Chaiyarat R (2012).
Phytostabilization of a Pb-contaminated mine tailing by various tree species in pot
and field trial experiments. Int J Phytoremed 14: 925-938.
Meharg AA and Cairney JWG (2000). Co-evolution of mycorrhizal symbionts and their
hosts to metal-contaminated environments. Adv Ecol Res 30: 69-112.
Minissi S, Caccese D, Passafiume F, Grella A, Eleonora C and Rizzoni M (1998).
Mutagenicity (micronucleus test in Vicia faba root tips), polycyclic aromatic
hydrocarbons and heavy metal content of sediments collected in Tiber river and
its tributaries within the Urban area of Rome. Mutat Res 420: 77-84.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Mogollón L, Rodríguez R, Larrota W, Ramirez N and Torres R (1998). Biosorption of
nickel using filamentous fungi. Appl Biochem Biotechnol 72: 593-601.
Moral R, Navarro-Pedreno J, Gomez I and Mataix J (1995). Effects of chromium on the
nutrient element content and morphology of tomato. J Plant Nutr 18: 815-822.
Moreno AJM, Serafim TL, Oliveira PJ and Madeira VMC (2007). Inhibition of
mitochondrial bioenergetics by carbaryl is only evident for higher concentrations-
relevance for carbaryl mechanisms. Chemosphere 66: 404-411.
Mullen MD, Wolf DC, Beveridge TJ and Bailey GW (1992). Sorption of heavy metals by
soil fungi Aspergillus niger and Mucor rouxii. Soil Biol Biochem 24: 129-137.
Mulligan CN, Yong RN and Gibbs BF (2001). Remediation technologies for metal-
contaminated soils and groundwater: an evaluation. Eng Geol 60: 19-207.
Muneer B, Iqbal MJ, Shakoori FR and Shakoori AR (2013). Tolerance and biosorption of
Mercury by microbial consortia: Potential use in bioremediation of wastewater.
Pak J Zool 45: 247-254.
Muneer M, Theurich J and Bahnemann D (1998). Titanium dioxide mediated
photocatalytic degradation of two major organic polutants: 1,2-diethyl phtalate
and Diuron. J Electrochem Soc 98: 174-187.
Mungasavalli DP, Viraraghavan T and Jin Y-C (2007). Biosorption of chromium from
aqueous solutions by pretreated Aspergillus niger: Batch and column studies.
Colloids Surf A 301: 214-223.
Munn KJ, Evans J and Chalk PM (2000). Mineralization of soil and legume nitrogen in
soils treated with metal contaminated sewage sludge. Soil Biol Biochem 32:
2031-2043.
Muraleedharan TR and Venkobachar C (1990). Mechanism of biosorption of Cu2+
by
Ganoderma lucidum. Biotechnol Bioeng 35: 320-325.
Muter O, Patmalnieks A and Rapoport A (2001). Interrelations of the yeast Candida
utilis: metal reduction and its distribution in the cell and medium. Process
Biochem 36: 963-970.
Muthukumar T and Prabha K (2012). Arbuscular mycorrhizal and septate endophyte
fungal associations in lycophytes and ferns of south India. Symbiosis 59: 15- 33.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Muthukumar T and Udaiyan K (2000). Arbuscular mycorrhizas of plants growing in the
Wastern Ghats region, Southern India. Mycorrhiza 9: 297-313.
Muthukumar T and Vediyappan S (2010). Comparison of arbuscular mycorrhizal and
dark septate endophyte fungal associations in soils irrigated with pulp and paper
mill effluent and well water. Eur J Soil Biol 46: 157-167.
Narvekar S and Vaidya VK (2009). Role of functional groups on Aspergillus niger biomass
in the detoxification of hexavalent chromium. J Environ Sci Eng 51: 233-238.
Natarajan S, Stamps RH, Ma LQ, Saha UK, Hernandez D, Cai Y and Zillioux EJ (2009).
Phytoremediation of arsenic-contaminated groundwater using arsenic hyper
accumulator Pteris vittata L.: effects of frond harvesting regimes and arsenic
levels in refill water. Int J Phytoremed 11: 313-328.
Nematshahi N, Lahouti M and Ganjeali A (2012). Accumulation of chromium and its
effect on growth of (Allium cepa cv. Hybrid). Eur J Exp Biol 2: 969-974.
Newman EI (1986). A method of estimating the total length of root in a sample. J Appl
Ecol 3: 139-145.
Newsham KK (1999). Phialophora graminicola, a dark septate fungus, is a beneficial
associate of the grass Vulpia ciliata ssp. ambiqua. New Phytol 144: 517-524.
Nielsen JD and Jensen A (1983). Influence of vesicular arbuscular mycorrhiza on growth
and uptake of various nutrients as well as uptake ratio of fertilizer P for lucerne
(Medicago sativa). Plant Soil 70: 165-172.
Nriogo JO (1979). Global inventory of natural and anthropogenic emissions of trace
metals to the atmosphere. Nature 279: 409- 411.
O’Mahony T, Guibal E and Tobin JM (2002). Reactive dye biosorption by Rhizopus
arrhizus biomass. Enzyme Microb Technol 31: 456-463.
Oehl F, De Souza FA and Sieverding E (2008). Revision of Scutellospora and description
of five new genera and three new families in arbuscular mycorrhizal-forming
Glomeromycetes. Mycotaxon 106: 311-360.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Ogbonna JO, Lawal FA, Owoeye LD and Udeh MU (1998). Chemical characteristics and
fertilizing value of primary sludge from tannery effluent treatment plant.
6th
Annual National Conference of the Nigerian Institute of Science and
Technology, University of Ibadan.
Olguín EJ and Sánchez-Galván G (2012). Heavy metal removal in phytofiltration and
phycoremediation: the need to differentiate between bioadsorption and
bioaccumulation. Nat Biotechnol 30: 3-8.
Oliveira AN and Oliveira LA (2005). Seasonal dynamics of arbuscular mycorrhizal fungi
in plants of Theobroma grandiflorum Schum. and Paullinia cupana Mart. of an
agroforestry system in Central Amazonia, Amazonas state, Brazil. Braz J
Microbiol 36: 262-270.
Ortega-Larrocea MP (2001). Arbuscular mycorrhizal fungi (AMF) spore abundance is
affected by waste pollution in soils of Mezquital Valley in Central Mexico.
In: Sustaining the Global Farm. Stott DE, Mohtar RH and Steinhardt GC (Eds),
Purdue University, Purdue pp 676-681.
Özer A and Özer D (2003). Comparative study of the biosorption of Pb (II), Ni (II) and
Cr (VI) ions onto Saccharomyces cerevisiae: Determination of biosorption heats.
J Hazard Mater 100: 219-229.
Ozsoy HD (2010). Biosorptive removal of Hg (II) ions by Rhizopus oligosporus
produced from corn-processing wastewater. Afr J Biotechnol 9: 8791-8799.
Padmavathiamma PK and Li LY (2007). Phytoremediation technology: hyper-
accumulation metals in plants. Water Air Soil Pollut 184: 105-126.
Panda SK and Choudhury S (2005). Chromium stress in plants. Braz J Plant Physiol 17:
95-105.
Pantaler RP and Pulyaeva IV (1985). A spectrophotometric study of complexation
between chromium and chromazurol S. J Anal Chem 40: 1634-1639.
Park D, Yun YS, Jo JH and Park JM (2005). Mechanism of hexavalent chromium
removal by dead fungal biomass of Aspergillus niger. Water Res 39: 533-540.
Pawlowska TE and Charvat I (2004). Heavy metal stress and developmental patterns of
arbuscular mycorrhizal fungi. Appl Environ Microbiol 70: 6643-6649.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Pawlowska TE, Blaszkowski J and Ruhling A (1996). The mycorrhizal status of plants
colonizing a calamine spoil mound in southern Poland. Mycorrhiza 6: 499-505.
Pawlowska TE, Chaney RL, Chin M and Charavat I (2000). Effects of metal
phytoextraction practices on the indigenous community of arbuscular mycorrhizal
fungi at a metal-contaminated landfill. Appl Environ Microbiol 66: 2526-2530.
Peciulyte D, Repeckiene J, Levinskaite L and Lugauskas A (2006). Growth and metal
accumulation ability of plants in soil polluted with Cu, Zn and Pb. Ekologga 1:
48-52.
Peng H, Geng W, Yong-quan W, Mao-teng L, Jun X and Jiang YL (2010). Effects of
heavy metal stress on emerging plant community constructions in wetland. Water
Sci Technol 62: 2459-2466.
Peng TY and Koon KW (1993). Biosorption of cadmium and copper by Sacchromyces
cerevisiae. Microb Util Renewable Resour 8: 494-504.
Pepi M and Baldi F (1992). Modulation of chromium (VI) toxicity by organic and
inorganic sulfur species in yeast from industrial wastes. Biometals 5: 179-185.
Peralta JR, Gardea Torresdey JL, Tiemann KJ, Gomez E, Arteaga S and Rascon E
(2001). Uptake and effects of five heavy metals on seed germination and plant
growth in alfalfa (Medicago sativa) L. B Environ Contam Toxicol 66: 727-734.
Peralta-Videa JR, Lopez ML, Narayan M, Saupe G and Gardea-Torresdey J (2009). The
biochemistry of environmental heavy metal uptake by plants: implications for the
food chain,” Int J Biochem Cell Biol 41: 1665-1677.
Peterson PJ and Girling CA (1981). Other trace metals. In: Effect of heavy metal
pollution on plants. Lepp NW (Ed), Applied Science Publishers, London, pp 13-279.
Pichardo ST, Su Y and Han FX (2012). The potential effects of arbuscular mycorrhizae
(AM) on the uptake of heavy metals by plants from contaminated soils.
J Bioremed Biodeg 3: 1-4.
Pilon-Smits E (2005). Phytoremediation. Ann Rev Plant Biol 56: 15-39.
Pilon-Smits EAH, Desouza MP, Hong G, Amini A, Bravo RC, Payabyab ST and Terry N
(1999). Selenium volatilization and accumulation by twenty aquatic plant species.
J Environ Qual 28: 1011-1017.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Piper CS (1966). Soil and Plant Analysis. In: A laboratory manual of methods for
the examination of soils and the determination of the inorganic constituents of
plants. Hans publishers, Bombay.
Poljsak B, Pócsi I, Raspor P and Pesti M (2003). Interference of chromium with
biological systems in yeasts and fungi: a review. J Basic Microbiol 50: 21-36.
Porebska G and Ostrowska A (1999). Heavy metal accumulation in wild plants:
Implications for phytoremediation. Pol J Environ Stud 8: 433-442.
Prasad MNV (2001) Metals in the environment: analysis by biodiversity. New York,
Marcel Dekker.
Prasad MNV and Freitas HMD (2003). Metal hyperaccumulation in plants-Biodiversity
prospecting for phytoremediation technology. Electron J Biotechnol 93: 285-321.
Pulford ID and Watson C (2003). Phytoremediation of heavy metal-contaminated land by
tree - a review. Environ Int 29: 529-540.
Punamiya P, Datta R, Sarkar D, Barber S, Patel M and Das P (2010). Symbiotic role of
Glomus mosseae in phytoextraction of lead in vetiver grass Chrysopogon
zizanioides. J Hazard Mater 15: 465-474.
Puranik PR and Paknikar KM (1997). Biosorption of lead and zinc from solutions using
Streptoverticillium cinnamoneum waste biomass. J Biotechnol 55: 113-124.
Rabie GH (2005). Contribution of arbuscular mycorrhizal fungus to red kidney and wheat
plants tolerance grown in heavy metal-polluted soil. Afr J Biotechnol 4: 332-345.
Radwan MA and Salama KA (2006). Market basket survey for some heavy metals in
Egyptian fruits and vegetables. Food Chem Toxicol 44: 1273-1278.
Rafati M, Khorasani N, Moattar F, Shirvany A, Moraghebi F and Hosseinzadeh S (2011).
Phytoremediation potential of Populus alba and Morus alba for cadmium,
chromuim and nickel absorption from polluted soil. Int J Environ Res 5: 961-970.
Rahmanian M, Khodaverdiloo H, Rezaee Danesh Y and Rasouli Sadaghiani MH (2011).
Effects of heavy metal resistant soil microbes inoculation and soil Cd
concentration on growth and metal uptake of millet, couch grass and alfalfa. Afr J
Microbiol Res 5: 403-410.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Rai V, Vajpayee P, Singh SN and Mehrotra S (2004). Effect of chromium accumulation
on photosynthetic pigments, oxidative stress defense system, nitrate reduction,
proline level and eugenol content of Ocimum tenuiflorum L. Plant Sci 167: 1159-1169.
Rajkumar M and Freitas H (2008). Influence of metal resistant-plant growth promoting
bacteria on the growth of Ricinus communis in soil contaminated with heavy
metals. Chemosphere 71: 834-842.
Rajkumar M, Prasad MNV, Freitas H and Ae N (2009). Biotechnological applications of
serpentine soil bacteria for phytoremediation of trace elements. Crit Rev
Biotechnol 29: 120-130.
Rajput KS and Rao KS (2007). Death and decay in the trees of Mango (Mangifera
indica). Microbiol Res 162: 229-237.
Raman N, Nagarajan N, Gopinathan S and Sambandan K (1993). Mycorrhizal status of
plant species colonizing a magnesite mine spoils in India. Biol Fertil Soils 16:
76-78.
Ramırez-Ramırez R, Calvo-Mendez C, Avila-Rodrıguez M, Patricia L, Ulloa M,
Vazquez-Juare R and Gutierrez-Corona F (2004). Cr (VI) reduction in a chromate
resistant strain of Candida maltosa isolated from the leather industry. Antonie van
Leeuwenhoek 85: 63-68.
Rank J and Nielsen MH (1998). Genotoxicity testing of wastewater sludge using the
Allium cepa anaphase-telophase chromosome aberration assays. Mutat Res 418:
113-119.
Rao AV and Tak R (2001). Influence of mycorrhizal fungi on the growth of different tree
species and their nutrient uptake in gypsum mine spoil in India. Appl Soil Ecol
17: 279-284.
Rao CRN, Iyengar L and Venkobachar C (1993). Sorption of Copper (II) from aqueous
phase by waste biomass. J Environ Eng Div ASCE 119: 369-377.
Rao MM, Ramana D, Seshaiah K, Wang M, Chang S and Chien S (2009). Removal of
some metal ions by activated carbon prepared from Phaseolus aureus hulls. J
Hazard Mater 166: 1006-1013.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Rapoport AI and Muter OA (1995). Biosorption of hexavalent chromium by yeasts.
Process Biochem 30: 145-149.
Rascioa N and Navari-Izzov F (2011) Heavy metal hyperaccumulating plants: How and
why do they do it? And what makes them so interesting? Plant Sci 180: 169-181.
Ray S and Ray MK (2009). Bioremediation of heavy metal toxicity-with special
reference to chromium. Al Almeen J Medical Sci 2: 57-63.
Razmovski R and Sciban M (2008). Biosorption of Cr (VI) and Cu (II) by waste tea
fungal biomass. Ecol Eng 34: 179-186.
Regvar M and Vogel-Mikus K (2008). Arbuscular mycorrhiza in metal
hyperaccumulating plants. In: Mycorrhiza. Varma A (Ed), Springer-Verlag,
Berlin, pp 261-280.
Regvar M, Groznik N, Gljevscek K and Gogala N (2001). Diversity of arbuscular
mycorrhizal fungi from various disturbed ecosystems in Slovenia. Acta Biol
Slovenia 44: 27-34.
Rehman A, Farooq H and Shakoori AR (2007). Copper tolerant yeast, Candida
tropicalis, isolated from industrial effluents: Its potential use in wastewater
treatment. Pak J Zool 39: 405-412.
Reininger VR and Sieber TN (2012). Mycorrhiza reduces adverse effects of dark septate
endophytes (DSE) on growth of conifers. PLoS One 7: e42865.
Ritchie AG (1977). Alternative to the Elovich equation for the kinetics of adsorption of
gases on solids. J Chem Soc Faraday Trans I 73: 1650-1653.
Robinson-Boyer L, Grzyb I and Jeffries P (2009). Shifting the balance from qualitative to
quantitative analysis of arbuscular mycorrhizal communities in field soils. Fungal
Ecol 2: 1-9.
Robinson-Lora MA and Brennan RA (2010). The role of precipitation and biosorption in
the abiotic removal of manganese with crab-shell chitin. National Meeting of the
American Society of Mining and Reclamation, Pittsburg, PA Bridging
Reclamation, Science and the Community Published by ASMR, 3134 Montavesta
Rd, Lexington, KY.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Rodrigues BF and Muthukumar T (Eds) (2009). Arbuscular mycorrhizae of Goa-
A manual of identification protocol. Goa University, Goa, pp 1-135.
Rodriguez R, White J, Arnold A and Redman R (2009). Fungal endophytes: diversity and
functional roles. New Phytol 182: 314-330.
Romeiro S (2005). Potencial de Ricinus communis L. Helianthus annuus L. e Canavalia
ensiformes L. como extratoras de chumbo em solução nutritiva. M.Sc. Thesis.
Campinas, Instituto Agronômico, Campinas.
Romeiro S, Lagô AMMA, Furlani PR, de Abreu CA , de Abreu MF and Erismann NM
(2006). Lead uptake and tolerance of Ricinus communis. Braz J Plant Physiol 18:
483-489.
Romera E, Gonzalez F, Ballester A, Blazquez ML and Munoz JA (2007). Comparative
study of biosorption of heavy metals using different type of algae. Bioresour
Technol 25: 3344-3353.
Ruiz-Lozano JM and Azcon R (2000) Symbiotic efficiency and infectivity of an
authochthous arbuscular mycorrhizal Glomus sp. from saline soils and Glomus
deserticola under salinity. Mycorrhiza 10: 137-143.
Ruscitti M, Arango M, Ronco M and Beltrano J (2011). Inoculation with mycorrhizal
fungi modifies proline metabolism and increases chromium tolerance in pepper
plants (Capsicum annuum L.). Braz J Plant Physiol 23: 15-25.
Ruta L, Paraschivescu C, Matache M, Avramescu S and Farcasanu IC (2010). Removing
heavy metals from synthetic effluents using “kamikaze” Saccharomyces
cerevisiae cells. Appl Microbiol Biotechnol 85: 763-771.
Sag Y, YalcËuk A and Kutsal T (1996). Full competitive biosorption of chromium (VI)
and iron (III) ions from binary metal mixtures by Rhizopus arrhizus: Use of
competitive Langmuir model. Process Biochem 31: 573-585.
Sahu RK, Katiyar S, Tiwari J and Kisku GC (2007). Assessment of drain water receiving
effluent from tanneries and its impact on soil and plants with particular emphasis
on bioaccumulation of heavy metals. J Environ Biol 28: 685-690.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Saleh M, Al-Garni M, Khaled G and Abdulaziz SB (2009). Biosorption characteristics of
Aspergillus fumigatus in removal of cadmium from an aqueous solution. Afr J
Biotechnol 8: 4163-4172.
Salt DE, Blaylock M, Kumar NPBA, Dushenkov V, Ensley BD, Chet I and Raskin I
(1995a). Phytoremediation: A novel strategy for the removal of toxic metals from
the environment using plants. Biotechnol 13: 468-474.
Salt DE, Prince RC, Pickering IJ and Raskin I (1995b). Mechanisms of cadmium
mobility and accumulation in Indian mustard. Plant Physiol 109: 1427-1433.
Sanders IR and Fitter AH (1992). Evidence of differential responses between host-fungus
combinations of vesicular arbuscular mycorrhizas from a grassland. Mycol Res
96: 415-419.
Santos FS, Hernández-Allica J, Becerril JM, Ama- ral-Sobrinho N, Mazur N and Garbisu
C (2006). “Chelate-induced phytoextraction of metal polluted soils with
Brachiaria decumbens,” Chemosphere 65: 43-50.
Say R, Yilmaz N and Denizli A (2003). Biosorption of cadmium, lead, mercury, and
arsenic ions by the fungus Penicillium purpurogenum. Sep Sci Technol 38:
2039-2053.
Scervino JM, Gottlieb A, Silvani VA, Pergola M, Fernandez L and Godeas AM (2009).
Exudates of dark septate endophyte (DSE) modulate the development of
arbuscular mycorrhizal fungus (AMF) Gigaspora rosea. Soil Biol Biochem 4:
1753-1756.
Schenck NC and Perez Y (1990). Manual for the identification of VA mycorrhizal fungi.
Synergistic, Gainesville.
Schüepp H, Dehne B and Sticher H (1987). Interaktionen zwischen VA-mykorrhizen und
Schwermetallbelastungen. Angewandte Botanik 61: 85-95.
Scott JA and Karanjkar AM (1992). Repeated cadmium biosorption by regenerated
Enterobacter aerogenes biofilm attached to activated carbon. Biotechnol Lett 14:
737-740.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Selatnia A, Boukazoula A, Kechid N, Bakhti MZ, Chergui A and Kerchich Y (2004).
Biosorption of lead (II) from aqueous solution by a bacterial dead Streptomyces
rimosus biomass. Biochem Eng J 19: 127-135.
Sen M, Dastidar MG and Roychoudhury PK (2007). Biological removal of Cr (VI) using
Fusarium solani in batch and continuous modes of operation. Enzyme Microb
Technol 41: 51-56.
Severino LS, Auld DL, Baldanzi M, Candido MJ, Chen G, Crosby W and Zieler H
(2012). A review on the challenges for increased production of castor. Agron J
104: 853-880.
Shanker A, Loza-Tavera H and Avudainayagam S (2005). Chromium toxicity in plants.
Environ Int 31: 739-753.
Shanker AK, Djanaguiraman M, Sudhagar R, Jayaram R and Pathmanabhan G (2004b).
Expression of metallothionein 3 (MT3) like protein mRNA in Sorghum cultivars
under chromium (VI) stress. Curr Sci 86: 901-902.
Sharma DC, Sharma CP and Tripathi RD (2003). Phytotoxic lesions of chromium in
maize. Chemosphere 51: 63-68.
Sharma J and Fulekar MH (2009). Phylogenetic analysis of the potential microorganism
for remediation of heavy metals from the contaminated environment. Int J Biometric
Bioinform 3: 19-30.
Sheng PX, Tan LH, Chen JP and Ting YP (2004). Biosorption performance of two brown
marine algae for removal of chromium and cadmium. J Dispersion Sci Technol
25: 679-686.
Shi XL and Dalal NS (1990a). One-electron reduction of chromate by NADPH-
dependent glutathione reductase. J Inorg Biochem 40: 1-12.
Shi XL and Dalal NS (1990b). NADPH-dependent flavoenzymes catalyze one electron
reduction of metal ions and molecular oxygen and generate hydroxyl radicals.
FEBS Lett 276: 189-191.
Shugaba AI, Buba F, Kolo BG, Nok AJ, Ameh DA and Lori JA (2012). Uptake and
reduction of hexavalent chromium by Aspergillus niger and Aspergillus
parasiticus. J Pet Environ Biotechnol 3:119-125.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Singh RP, Tripathi RD, Sinha SK, Maheshwari R and Srivastava HS (1997). Response of
higher plants to lead contaminated environment. Chemosphere 34: 2467–2493.
Singh VP and Yadava RM (2003). Waste water treatment and waste management. Proc
Int Conf Water Environ (WE-2003), December 15-18, Bhopal, India.
Singleton I and Simmons P (1996). Factors affecting silver biosorption by an industrial
strain of Saccharomyces cerevisiae. J Chem Technol Biotechnol 65: 21-28.
Sinha S, Saxena R and Singh S (2002). Comparative studies on accumulation of Cr from
metal solution and tannery effluent under repeated metal exposure by aquatic
plants: its toxic effects. Environ Monit Assess 80: 17-31.
Siqueira JO and Saggin-Júnior OJ (1995). The importance of mycorrhizal association in
natural low fertility soil. In: Anais do Simpósio Internacional sobre Estresse
Ambiental. Belo Horizonte , Sete Lagoas, pp 240-280.
Skłodowski P, Maciejewska A and Kwiatkowska J (2006). The effect of organic matter
from brown coal on bioavailability of heavy metals in contaminated soils. Soil
Water Monitor Prot Remed 69: 299-307.
Smith RAH and Bradshaw AD (1992). Stabilization of toxic mine wastes by the use of
tolerant plant populations. Trans Inst Min Metall 81: 230-237.
Smith SE and Read DJ (1997). Mycorrhizal symbiosis. Academic Press, London.
Soares CRFS and Siqueira JO (2008). Mycorrhiza and phosphate protection of tropical
grass species against heavy metal toxicity in multi-contaminated soil. Biol Fertil
Soils 44: 833-841.
Sola O, Awodoyin RO and Opadeji T (2003). Urban agricultural production: heavy metal
contamination of Amaranthus cruentus L. grown on domestic refuse landfill soils
in Ibadan, Nigeria. Emir J Agric Sci 15: 87-94.
Soltysiak J, Berchová-Bímová K, Vach M and Brej T (2011). Heavy metals content in
the Fallopia genus in Central European cities-study from Wroclaw and Prague.
Acta Botanica Silesiaca 7: 209-218.
Speranza A, Ferri P, Battistelli M, Falcieri E, Crinelli R and Scoccianti V (2007). Both
trivalent and hexavalent chromium strongly alter in vitro germination and
ultrastructure of kiwifruit pollen. Chemosphere 66:1165-1174.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Srinath T, Garg SK and Ramteke PW (2003). Biosorption and elution of chromium from
immobilized Bacillus coagulans biomass. Indian J Exp Biol 41: 986-990.
Srinath T, Verma T, Ramteke PW and Garg SK (2002). Chromium (VI) biosorption and
bioaccumulation by chromate resistant bacteria. Chemosphere 48: 427-435.
Srivastava S and Thakur IS (2006). Biosorption potency of Aspergillus niger for removal
of Chromium (VI). Curr Microbiol 53: 232-237.
Subudhi E and Kar RN (2008). Rhizopus arrhizus - an efficient fungus for copper effluent
treatment. Int J Integr Biol 2: 166-171.
Sudha BR and Abraham E (2003). Studies on chromium (VI) adsorption-desorption using
immobilized fungal biomass. Bioresour Technol 87: 17-26.
Sudova R, Jurkiewicz A, Turnau K and Vosatka M (2007). Persistence of heavy metal
tolerance of the arbuscular mycorrhizal fungus Glomus intraradices under
different cultivational regimes. Symbiosis 43: 71-81.
Tabak HH, Lens P, Hullebusch ED and Dejonghe W (2005). Developments in
bioremediation of soils and sediments polluted with metals and radio nuclides: I.
Microbial processes and mechanisms affecting bioremediation of metal
contamination and influencing metal toxicity and transport. Rev Environ Sci
Biotechnol 4: 115-156.
Talos K, Timea Pernyeszi, Majdik C, Hegedusova A and Pager C (2012). Cadmium
biosorption by baker’s yeast in aqueous suspensions. J Serb Che Soc 77: 549-561.
Tang SR, Wilke BM, Brooks RR and Tang SR (2001). Heavy-metal uptake by metalo-
tolerant Elsholtzia haichowensis and Commelina communis from China. Commun
Soil Sci Plant Anal 32: 895-905.
Tangaromsuk J, Pokethitiyook P, Kruatrachue M and Upatham ES (2002). Cadmium
biosorption by Sphingomonas paucimobilis biomass. Bioresource Technol 85:
103-105.
Terry N (1981). An analysis of the growth responses of Beta vulgaris L. to phytotoxic
trace elements. II. Chromium. Final report to the Kearney foundation of Soil
Science, July, 1975-June, 1980.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Terry N, Carlson C, Raab TK and Zayed A (1992). Rates of selenium volatilization
among crop species. J Environ Qual 21: 341-344.
Thangavel P and Subhuram CV (2004). Phytoextraction - Role of hyper accumulators in
metal contaminated soils. Proc Indian Natl Sci Acad Part B. 70: 109-130.
Thippeswamy B, Shivakumar CK and Krishnappa M (2012). Accumulation potency of
heavy metals by Saccharomyces sp. indigenous to paper mill effluent. J Environ
Res Dev 6: 439-445.
Tong JY, Sun M and Li B (2007). Cystein modified biomass for Cd(II) and Pb(II)
biosorption. J Hazard Mater 143: 277-284.
Tonin C, Vandenkoornhuyse P, Joner EJ, Straczek J and Leyval C (2001). Assessment of
arbuscular mycorrhizal fungi diversity in the rhizosphere of Viola calaminaria
and effect of these fungi on heavy metal uptake by clover. Mycorrhiza 10: 161-168.
Tu C and Ma LQ (2005). Effects of arsenic on concentration and distribution of nutrients
in the trends of the darsenic hyperacumulator Pteris vittata L. Environ Pollut 135:
333-340.
Turnau K and Mesjasz-Przybylowicz J (2003). Arbuscular mycorrhizal of Berkheya codii
and other Ni hyperaccumulating members of Asteraceae from ultramafic soils in
South Africa. Mycorrhiza 13: 185-190.
Turnau K, Miszalski Z, Trouvelot A, Bonfante P and Gianinazzi S (1996). Oxalis
acetosella as a monitoring plant on highly polluted soils. In: Mycorrhizas in
integrated systems: from genes to plant development. Azcon-Aguilar C and Barea
JM (Eds), European Commission, Luxembourg, pp 483-486.
Vajpayee P, Tripathi RD, Rai LC, Ali MB and Singh SN (2000). Chromium (VI)
accumulation reduces chlorophyll biosynthesis, nitrate reductase activity and
protein content in Nymphaea alba L. Chemosphere 41: 1075-1082.
Vangronsveld J and Cunningham SD (1998). Introduction to the concepts. In: Metal-
contaminated soils: In-situ inactivation and phytorestoration. Vangronsveld J and
Cunningham SD (Eds). Springer Verlag, Berlin Heidelberg, pp 1-15.
Vasanthy M, Sangeetha M and Kavitha C (2003). Solutions using a mixture of fly ash
and activated carbon. Indian J Environ prot 23: 1321-1325.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Vasudevan P, Padmavathy V, Tewari N and Dhingra S (2001). Biosorption of heavy
metal ions. J Sci Ind Res 60: 112-120.
Velkova Z, Stoytcheva M and Gochev V (2012). “Biosorption of Cu (II) onto chemically
modified waste mycelium of Aspergillus awamori: Equilibrium, kinetics and
modeling studies”. J Biosci Biotech 1: 163-169.
Verma T and Baiswar V (2013). Isolation and characterization of extracellular
thermoalkaline protease producing Bacillus cereus isolated from tannery effluent.
Int J Eng Sci 2: 23-29.
Vernay P, Gauthier-Moussard C and Hitmi A (2007). Interaction of bioaccumulation of
heavy metal chromium with water relation, mineral nutrition and photosynthesis
in developed leaves of Lolium perenne L. Chemosphere 68: 1563-1575.
Viarengo A and Nott JA (1993). Mechanisms of heavy metal cation homeostasis in
marine invertebrates. Comp Biochem Physiol A: Physiol 104: 355-372.
Vijayaraghavan K and Yun Y (2007). Chemical modification and immobilization of
Corynebacterium glutamicum for biosorption of reactive black 5 from aqueous
solution. Ind Eng Chem Res 46: 608-617.
Villegas LB, Fernández PM, Amoroso MJ, de Figueroa LI (2008). Chromate removal by
yeasts isolated from sediments of a tanning factory and a mine site in Argentina.
Biometals 21: 591-600.
Viti C and Giovannetti L (2001). The impact of chromium contamination on soil
heterotrophic and photosynthetic microorganisms. Ann Microbiol 51: 201-213.
Vogel-Mikus K, Drobne D and Regvar M (2005). Zn, Cd and Pb accumulation and
arbuscular mycorrhizal colonisation of pennycress Thlaspi praecox Wulf.
(Brassicaceae) from the vicinity of a lead mine and smelter in Slovenia. Environ
Pollut 133: 233-242.
Volesky B (1986). Biosorbent materials. Biotechnol Bioeng Symp 16: 121-126.
Volesky B (2001). Detoxification of metal-bearing effluents: Biosorption for the next
century. Hydrometallurgy 59: 203-216.
Volesky B and May-Phillips HA (1995). Biosorption of heavy metals by Saccharomyces
cerevisiae. Appl Microbiol Biotechnol 42: 797-806.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Vwioko DE, Anoliefo GO and Fashemi SD (2006). Metal contamination in plant tissues
of Ricinus communis L. (Castor oil) grown in soil contaminated with spent
lubricating oil. J Appl Sci Environ Manage 10: 127-134.
Wagg C, Pautler M, Massicotte HB and Peterson RL (2008). The co‐occurrence of
ectomycorrhizal, arbuscular mycorrhizal, and dark septate fungi in seedlings of
four members of the Pinaceae. Mycorrhiza 18: 103‐110.
Wang FY, Lin XG and Yin R (2005). Heavy metal uptake by arbuscular mycorrhizas of
Elsholtzia splendens and the potential for phytoremediation of contaminated soil.
Plant Soil 269: 225-232.
Wang J and Chen C (2006). Biosorption of heavy metals by Saccharomyces cerevisiae:
A review. Biotechnol Adv 24: 427-451.
Wang J, Zhao F, Meharg AA, Raab A, Feldmann J and McGrath PS (2002). Mechanisms
of arsenic hyper-accumulation in Pteris vittata. Uptake kinetics, interactions with
phosphate and arsenic speciation. Plant Physiol 130: 1552-1561.
Wang JL (2002). Biosorption of copper (II) by chemically modified biomass of
Saccharomyces cerevisae. Process Biochem 37: 847-850.
Wang JL and Chen C (2009). Biosorbents for heavy metals removal and their future.
Biotechnol Adv 27: 195-226.
Watanabe ME (1997). Phyto-remediation on the brink of commercialization. Environ Sci
Technol 31: 182-186.
Wei-Bin L, Jun-Ji S, Ching-Hsiung W and Jo-Shu C (2006). Biosorption of lead, copper
and cadmium by an indigenous isolate Enterobacter sp. J1 possessing high heavy-
metal resistance. J Hazard Mater 134: 80-86.
Weissenhorn I (1994). Les mycorhizes à arbuscules dans des sols pollués par des métaux
lourds / Arbuscular mycorrhiza in heavy metal polluted soils. Thèse du doctorat
en Sciences du Sol, Université Henri Poincaré-Nancy I, Nancy, Frankrijk, p 166.
Weissenhorn I and Leyval C (1995) Root colonization of maize by a Cd-sensitive and a
Cd-tolerant Glomus mosseae and cadmium uptake in sand culture. Plant Soil 175:
233-238.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Weissenhorn I, Glashoff A, Leyval C and Berthelin J (1994). Differential tolerance to Cd
and Zn of arbuscular mycorrhizal (AM) fungal spores isolated from heavy metal-
polluted and unpolluted soils. Plant Soil 167: 189-196.
Weissenhorn I, Leyval C and Berthelin J (1993). Cd-tolerant arbuscular mycorrhizal
(AM) fungi from heavy metal-polluted soils. Plant Soil 157: 247-256.
Weissenhorn I, Leyval C and Berthelin J (1995a). Bioavailability of heavy metals and
abundance of arbuscular mycorrhiza in a soil polluted by atmospheric deposition
from smelter. Biol Fertil Soils 19: 22-28.
Weissenhorn I, Leyval C and Berthelin J (1995b). Bioavailability of heavy metals and
abundance of arbuscular mycorrhiza in a sewage sludge amended sandy soil. Soil
Biol Biochem 27: 287-296.
Whitfield L, Richards AJ and Rimmer DL (2001). Relationships between soil heavy
metal concentration and mycorrhizal colonization in Thymus polytrichus in
northern England. Mycorrhiza 14: 55-62.
Wild H (1974). Indigenous plants and chromium in Rhodesia. Kiekia 9: 233-241.
Wilkins DA (1978). The measurement of tolerance to edaphic factors by means of root
growth. New Phytol 80: 623-633.
Won SW and Yun YS (2008). Biosorptive removal of reactive Yellow 2 using waste
biomass from lysine fermentation process. Dyes Pigm 76: 502-507.
Wong PK and Kwok SC (1992). Accumulation of nickel ion by immobilized cells of
Enterobacter species. Biotechnol Lett 14: 629-634.
World Health Organization (WHO) (1997). Health and environment in sustainable
development, Geneva.
Wright SF and Upadhyaya A (1998). A survey of soil for aggregates stability and
glomalin, a glycoprotein produced by hyphae of arbuscular mycorrhizal fungi.
Plant Soil 198: 97-107.
Wu FY, Ye ZH and Wong MH (2009). Intraspecific differences of arbuscular
mycorrhizal fungi in their impacts on arsenic accumulation by Pteris vittata L.
Chemosphere 76: 1258-1264.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Yadav S and Chandra R (2011). Heavy metals accumulation and ecophysiological effect
on Typha angustifolia L. and Cyperus esculentus L. growing in distillery and
tannery effluent polluted natural wetland site, Unnao, India. Environ Earth Sci 62:
1235-1243.
Yamato M (2004). Morphological types of arbuscular mycorrhizal fungi in roots of
weeds on vacant land. Mycorrhiza 14: 127-131.
Yan G and Viraraghavan T (2000). Effect of pretreatment on the bioadsorption of heavy
metals on Mucor rouxii. Water SA 26: 119-123.
Yang J and Volesky B (1999). Modeling uranium-proton ion exchange in biosorption.
Environ Sci Technol 33: 4079-4085.
Yang S, Liang S, Yi L, Xu B, Cao J, Guo Y and Zhou Y (2014). Heavy metal
accumulation and phytostabilization potential of dominant plant species growing
on manganese mine tailings. Front Environ Sci Eng 8: 394-404.
Yanqun Z, Yuan L, Jianjun C, Haiyan C, Li Q and Schvartz C (2005).
Hyperaccumulation of Pb, Zn and Cd in herbaceous grown on lead-zinc mining
area in Yunnan, China. Environ Int 31: 755-762.
Yavuz H, Denizli A, Gungunes H, Safarikova M and Safarik I (2006). Biosorption of
magnetically modified yeast cells. Sep Purif Technol 52: 253-260.
Yekta G; Sibel U and Ulgar G (2005). Biosorption of cadmium and lead ions by ethanol
treated waste baker's yeast biomass. Bioresour Technol 96: 103-109.
Yun-guo L, Ting F, Guang-ming Z, Xin, L, Qing T, Fei Y, Ming Z, Wei-hua X and Yu-e H
(2006). Removal of cadmium and zinc ions from aqueous solution by Aspergillus
niger. Trans Nonferrous Met Soc China 16: 681-686.
Zaefarian F, Rezvani M, Rejali F, Ardakani MR, Noormohammadi G (2010). Ability of
Glomus mosseae, alfalfa (Medicago sativa L.) association for heavy metal
phytoextraction from soil. Environ Sci 7: 75-90.
Zaefarian F, Vahidzadeh S, Rahdari P, Rezvani M and Zadeh HG (2012). Effectiveness
of plant growth promoting rhizobacteria in facilitating lead and nutrient uptake by
little seed canary grass. Brazil J Bot 35: 241-248.
Please purchase PDF Split-Merge on www.verypdf.com to remove this watermark.
Zafar S, Aquil F and Ahmed I (2007). Metal tolerance and biosorption potential of
filamentous fungi isolated from contaminated agricultural soil. Bioresour Technol
98: 257-263.
Zak JC and Parkinson D (1982). Initial vesicular-arbuscular mycorrhizal development of
slender wheat grass on two amended mine spoils. Can J Bot 60: 2241-2248.
Zayed AM and Terry N (2003). Chromium in the environment: factors affecting
biological remediation. Plant Soil 249: 139-156.
Zayed AM, Lytle CM and Terry N (1998). Accumulation and volatilization of different
chemical species of selenium by plants. Planta 206: 284-289.
Zhan FD, He YM, Zu YQ, Li T and Zhao ZW (2011). Characterization of melanin
isolated from a dark septate endophyte (DSE), Exophiala pisciphila. World J
Microbiol Biotechnol 27: 2483-2489.
Zhang H, Kim MS, Krishnamachari V, Payton P, Sun Y, Grimson M, Farag MA,
Ryu CM, Allen R, Melo IS and Pare PW (2007). Rhizobacterial volatile
emissions regulate auxin homeostasis and cell expansion in Arabidopsis. Planta
226: 839-851.
Zhang XH, Luo YP, Huang HT, Liu J and Chen J (2005). Electroplating factory heavy
metal pollution in soil and characteristics of plant accumulation. J Guilin Univ
Technol 25: 289-292.
Zhang YJ, Zhang Y, Liu MJ, Shi XD and Zhao ZW (2008). Dark septate endophyte
(DSE) fungi isolated from metal polluted soils: their taxonomic position,
tolerance, and accumulation of heavy metals in vitro. J Microbiol 46: 624-632.
Zhang Z, Li M, Chen W, Zhu S, Liu N and Zhu L (2010). Immobilization of lead and
cadmium from aqueous solution and contaminated sediment using nano-
hydroxyapatite. Environ Pollut 158: 514-519.
Zhitkovich A, Voitkun V and Costa M (1996). Formation of the amino acid-DNA
complexes by hexavalent and trivalent chromium in vitro: Importance of trivalent
chromium and the phosphate group. Biochem 35: 7275-7282.
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Zhu Y-G and Smith SE (2001). Seed phosphorus (P) content affects growth, and P uptake
of wheat plants and their association with arbuscular mycorrhizal (AM) fungi.
Plant Soil 231: 105-112.
Zhu Y-G, Cavagnaro TR, Smith SE and Dickson S (2001). Backseat driving? Accessing
phosphate beyond the rhizosphere-depletion zone. Trends Plant Sci 6: 194-195.
Zhu YL, Zayed AM, Qian JH, De Souza M and Terry N (1999). Phytoaccumulation of
trace elements by wetland plants: II. Water hyacinth. J Environ Qual 28: 339-344.
Zou JH, Wang M, Jiang WS and Liu DH (2006). Chromium accumulation and its effects
on other mineral elements in Amaranthus viridis L. Acta Biologica Cracoviensia
Series Botanica 48: 7-12.
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