Bioremediation for Sustainable Environmental Cleanup (Anju Malik, Vinod Kumar Garg)

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Bioremediation for Sustainable Environmental Cleanup

Davey, M. E. and G. A. O’toole. 2000. Microbial biofilms: from ecology to molecular genetics. Microbiol. Mol. Biol.

Rev. 64: 847–867.

Demirevska-Kepova, K., L. Simova-Stoilova, Z. Stoyanova, R. Hölzer and U. Feller. 2004. Biochemical changes in

barley plants after excessive supply of copper and manganese. Environ. Exp. Bot. 52: 253–266.

Deng, X., L. Chai, Z. Yang, C. Tang, Y. Wang and Y. Shi. 2013. Bioleaching mechanism of heavy metals in the

mixture of contaminated soil and slag by using indigenous Penicillium chrysogenum strain F1. J. Hazard.

Mater. 248-249: 107–114.

de Philippis, R., G. Colica and E. Micheletti. 2011. Exopolysaccharide-producing cyanobacteria in heavy metal

removal from water: molecular basis and practical applicability of the biosorption process. Appl. Microbiol.

Biotechnol. 92: 697–708.

Dewez, D., O. Didur, J. Vincent-Héroux and R. Popovic. 2008. Validation of photosynthetic-fluorescence parameters

as biomarkers for isoproturon toxic effect on alga Scenedesmus obliquus. Environ. Pollut. 151: 93–100.

Doncheva, S., K. Georgieva, V. Vassileva, Z. Stoyanova, N. Popov and G. Ignatov. 2005. Effects of succinate on

manganese toxicity in pea plants. J. Plant. Nutr. 28: 47–62.

Dorigo, U., X. Bourrain, A. Bérard and C. Leboulanger. 2004. Seasonal changes in the sensitivity of river microalgae

to atrazine and isoproturon along a contamination gradient. Sci. Total. Environ. 318: 101–114.

D’Souza, C. and R. Peretiatko. 2002. The nexus between industrialization and environment: a case study of Indian

enterprises. Environ. Manag. H. 13: 80–97.

Du, X., Y.-G. Zhu, W.-J. Liu and X.-S. Zhao. 2005. Uptake of mercury (Hg) by seedlings of rice (Oryza sativa L.)

grown in solution culture and interactions with arsenate uptake. Environ. Exp. Bot. 54: 1–7.

Edwards, K. J., P. L. Bond, T. M. Gihring and J. F. Banfield. 2000. An archaeal iron-oxidizing extreme acidophile

important in acid mine drainage. Science. 287: 1796–1799.

Flemming, H. C. and J. Wingender. 2001. Relevance of microbial extracellular polymeric substances (EPSs) - Part I:

Structural and ecological aspects. Water Sci. Technol. IWA Publishing. 43(6): 1–8.

Fomina, M. and G. M. Gadd. 2014. Biosorption: current perspectives on concept, definition and application.

Bioresour. Technol. 160: 3–14.

Fuchs, S., T. Haritopoulou, M. Schäfer and M. Wilhelmi. 1997. Heavy metals in freshwater ecosystems introduced by

urban rainwater runoff—Monitoring of suspended solids, river sediments and biofilms. Water. Sci. Technol.

36: 277–282.

García-Esquinas, E., M. Pollán, J. G. Umans, K. A. Francesconi, W. Goessler, E. Guallar et al. 2013. Arsenic exposure

and cancer mortality in a US-based prospective cohort: the strong heart study. Caner Epidemiol. Pren. Biomark.

22: 1944–1953.

Gieg, L. M., S. J. Fowler and C. Berdugo-Clavijo. 2014. Syntrophic biodegradation of hydrocarbon contaminants.

Curr. Opin. Biotechnol. 27: 21–29.

Gumulya, Y., N. J. Boxall, H. N. Khaleque, V. Santala, R. P. Carlson and A. H. Kaksonen. 2018. In a quest for

engineering acidophiles for biomining applications: challenges and opportunities. Genes. 9: 116.

Guo, T., L. Li, W. Zhai, B. Xu, X. Yin, Y. He et al. 2019. Distribution of arsenic and its biotransformation genes in

sediments from the East China Sea. Environ. Pollut. 253: 949–958.

Gupta, A. and P. Sar. 2020. Characterization and application of an anaerobic, iron and sulfate reducing bacterial

culture in enhanced bioremediation of acid mine drainage impacted soil. J. Environ. Sci. Health. - Part A Toxic/

Hazard. Subst. Environ. Eng. 55: 464–482.

Hamada, A. J., S. C. Esteves and A. Agarwal. 2013. A comprehensive review of genetics and genetic testing in

azoospermia. Clinics. 68: 39–60.

Heck, J. E., A. S. Park, J. Qiu, M. Cockburn and B. Ritz. 2014. Risk of leukemia in relation to exposure to ambient air

toxics in pregnancy and early childhood. Int. J. Hyg. Environ. Health. 217: 662–668.

Henriques, B., L. S. Rocha, C. B. Lopes, P. Figueira, R. J. R. Monteiro, A. C. Duarte et al. 2015. Study on

bioaccumulation and biosorption of mercury by living marine macroalgae: prospecting for a new remediation

biotechnology applied to saline waters. Chem. Eng. J. 281: 759–770.

Hines, M. E., E. N. Poitras, S. Covelli, J. Faganeli, A. Emili, S. Žižek et al. 2012. Mercury methylation and

demethylation in Hg-contaminated lagoon sediments (Marano and Grado Lagoon, Italy). Estuar. Coast Shelf

Sci. 113: 85–95.

Holliger, C. and A. J. B. Zehnder. 1996. Anaerobic biodegradation of hydrocarbons. Curr. Opin. Biotechnol. 7:

326–330.

Horemans, B., P. Breugelmans, J. Hofkens, E. Smolders and D. Springael. 2013. Environmental dissolved organic

matter governs biofilm formation and subsequent linuron degradation activity of a linuron-degrading bacterial

consortium. Appl. Environ. Microbiol. 79: 4534–4542.

Ivask, A., H. C. Dubourguier, L. Põllumaa and A. Kahru. 2011. Bioavailability of Cd in 110 polluted topsoils to

recombinant bioluminescent sensor bacteria: effect of soil particulate matter. J. Soils Sediments. 11: 231–237.