An International Open Access Journal
News Scroll
E-mail Alerts
Subscribe for TOC Alerts
Search Articles
Creative Commons License


Ahmad I, Zafar S, Ahmed F (2005) Heavy metal biosorption potential of Aspergillus sp. and Rhizopussp., isolated from wastewater treated soil. Journal of Applied Sciences and Environmental Management 9:123-126.

Akhtar S, Mahmood-ul-Hassan M, Ahmad R, Suthor V, Yasin M (2013) Metal tolerance potential of filamentous fungi isolated from soils irrigated with untreated municipal effluent. Soil Environment 32:55-62.

Booth C (1977) Fusarium: a Laboratory Guide to the Identifications of the Major Species. CMI, Kew U.K.

Choudhary S, Sar P (2009) Characterization of a metal resistant Pseudomonas sp. isolated from uranimum mine for its potential in heavy metal (Ni2+, Co2+, Cu2+, and Cd2+) sequestration. Bioresource Technology 100: 2482-2492.

Datta HK, Chaudhuri S (2017) Bioactive polysaccharides from wild mushroom, coprinosis sp. Journal of Plant Development Sciences 9:761-769

de Lima M, Franco L, de SouzaP, do Nascimento A, da Silva C, Maia R, Rolim H, Takaki G, (2013) Cadmium tolerance and removal from Cunninghamellaelegans related to the polyphosphate metabolism. International journal of molecular sciences 14:7180-7192.

Elekwachi CO, Andresen J, Hodgman TC (2014) Global use of bioremediation technologies for decontamination of ecosystems. Journal of Bioremediation & Biodegradation 5:1–9.

Ezzouhri L, Castro E, Moya M, Espinola F, Lairini K (2009) Heavy metal tolerance of filamentous fungi isolated from polluted sites in Tangier, Morocco. African Journal of Microbiology Research 3:35-48.

Fazli MM, Soleimani N, Mehrasbi M, Darabian S, Mohammadi J, Ramazani A (2015) Highly cadmium tolerant fungi: their tolerance and removal potential. Journal of Environmental Health Science and Engineering 13:19.

Gadd GM (2000) Bioremedial potential of microbial mechanisms of metal mobilization and immobilization. Current Opinion in Biotechnology11:271–279.

Johncy MR, Hemambika B,Hemapriya J, Rajesh KV (2010) Comparative assessment of heavy metal removal by immobilized and dead bacterial cells: A biosorption approach. African Journal of Environmental Science and Technology 04: 77-83.

Juwarkar A (1988) Bioaccumulation of Zinc by Penicilliumsp. Current Science 57:251-252.

Khosravi F, Savaghebi GH, Farah Bakhsh H (2009) Effect of Potassium chloride on Cd uptake by colza in a polluted soil.  Journal of Water and Soil (Agricultural Sciences and Technology) 23:2 8–35.

Khurshid S, Shoaib A, Javaid A, Abid K (2016) Bioaccumulation of chromium by Fusariumoxysporum. Science Asia 42:92-98.

Kumar PR, Hemanth G, Niharika PS, Kolli SK (2015) Isolation and identification of soil mycoflora in agricultural fields at Tekkali Mandal in Srikakulam District. International Journal of Advances in Pharmacy, Biology and Chemistry 4:484-490.

Lim PE, Mak KY, Mohamed N, Noor AM (2003) Removal and speciation of heavy metals along the treatment path of wastewater in subsurface-flow constructed wetlands. Water Science and Technology 48:307–313.

Lin CC, Lin HL (2005) Remediation of soil contaminated with the heavy metal (Cd2+). Journal of Hazardous Materials122:7–15.

Maghsoodi V, Razavi J, Yaghmaei S (2007) Production of Chitosan by submerged fermentation from Aspergillus niger. Scientia Iranica - Transaction C, Chemistry, Chemical Engineering16 (2):180–184.

Malik A (2004) Metal bioremediation through growing cells. Environment International 30:261–278.

Mohsenzade F, Chehregani A, Akbari M (2012) Evaluation of oil removal efficiency and enzymatic activity in some fungal strains for bioremediation of petroleum-polluted soils. Iranian Journal of Environmental Health Science & Engineering 9:26–34.

Mohsenzadeh F, Shahrokhi  F (2014) Biological removing of Cadmium from contaminated media by fungal biomass of Trichoderma species. Journal of Environmental Health Science and Engineering 12:102.

Parameswari E, Lakshmanan A, ThilagavathiT (2010) Biosorption and metal tolerance potential of filamentous fungi isolated from metal polluted ecosystem. Electronic Journal of Environment and Agricultural Food Chemistry 9: 664-671.

Perfus-Barbeoch L, Leonhardt N, Vavasseur A, Forestier C (2002) Heavy metal toxicity: cadmium permeates through calcium channels and disturbs the plant water status. Plant Journal 32: 539-548.

Pinoa GH, de Mesquitaa LMS, Torema ML, Pinto GAS (2006) Biosorption of Heavy Metals by Powder of Green Coconut Shell. Separation Science and Technology 41:3141-3153.

Rao KR, Rashmi K, Latha JNL, Mohan PM (2005) Bioremediation of toxic metal ions using biomass of Aspergillus fumigatus from fermentative waste. Indian Journal of Biotechnology 4:139-143.

Roane TM, Pepper (2000) Lead resistance to two bacterial isolates from heavy metals contaminated soils. Microbial Ecology 37:218-224.

Sag Y, Kutsal T (2000) Determination of the biosorption activation energies of heavy metal ions on Zoogloea ramigera and Rhizopus arrhizus. ProcessBiochemistry35: 801-807.

Salem HM, Eweida EA, Farag A (2000) Heavy metals in drinking water and their environmental impact on human health. In: Proceedings of the International Conference for Environmental Hazards Mitigation (ICEHM 2000); Cairo University: Giza, Egypt Pp. 542–556.

Schoch CL, Seifert KA, Huhndorf S, Robert V, Spouge JL, Levesque CA, Chen W, Bolchacova E, Voig K, Crous PW, Miller AN (2012) Nuclear ribosomal internal transcribed spacer (ITS) region as a universal DNA barcode marker for Fungi. Proceedings of the National Academy of Sciences 109: 6241-6246.

Simonescu CM, Ferde? M (2012) Fungal Biomass for Cu (II) Uptake from Aqueous Systems. Polish Journal of Environmental Studies 21: 1831-1839.

Singh R, Gautam N, Mishra A, Gupta R (2011) Heavy metals and living systems: An overview.Indian Journal of Pharmacology 43:246.

Smith SN (2007) An overview of ecological and habitat aspects in the genus Fusarium with special emphasis on the soil-borne pathogenic forms. Plant Pathology Bulletin 16:97-120.

Srivastava S, Thakur IS (2006)Biosorption potency of Aspergillusniger for removal of chromium (VI). Current Microbiology 153:232-237.

Tawab Abdul IK, Maqsood ZT (2007) Critical behaviour of Iron (III) with a typical catecholatesiderophore. Scientia Iranica14:106–111.

Uddin AH, Khalid RS, Alaama M, Abdualkader AM, Kasmuri A, Abbas SA (2016) Comparative study of three digestion methods for elemental analysis in traditional medicine products using atomic absorption spectrometry. Journal of Analytical Science and Technology 7:6.

Vadkertiova R, Slavikova E (2006) Metal tolerance of yeasts isolated from water. Journal of Basic Microbiology l46:145–152.

Veglio F, Beolcini F (1997) Removal of metals by biosorption: a review. Hydrometallurgy 44: 301-316.

Vijayaraghavan K, Yeoung SY (2008) Bacterial biosorbents and biosorption. Biotechnology Advances 26: 266-291.

Xiezhi Y, Jieming C, Ming HM (2005) Earthworm-mycorrhiza interaction on Cd uptake and growth of ryegrass. Soil Biology and Biochemistry37:195–201.

Zafar S, Aqil F, Ahmad I (2007) Metal tolerance and biosorption potential of filamentous fungi isolated from metal contaminated agricultural soil. Bioresource Technology98: 2557–2561.

Users Online: 48
Editorial Board
Indexed & Listed In
Track manuscript
Manuscript Statistics
Articles Statistics
Publication Statistics