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

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Bioremediation for Sustainable Environmental Cleanup

Mekwichai, P., C. Tongcumpou, S. Kittipongvises and N. Tuntiwiwattanapun. 2020. Simultaneous biosurfactant

assisted remediation and corn cultivation on cadmium contaminated soil. Ecotoxicol. Environ. Saf. 192:

110298.

Mougin, C., H. Boukcim and C. Jolivalt. 2009. Soil bioremediation strategies based on the use of fungal enzymes.

In Advances

in Applied Bioremediation. pp. 123–149. Springer, Berlin, Heidelberg.

Naghdi, M., M. Taheran, S. K. Brar, A. Kermanshahi-Pour, M. Verma and R. Y. Surampalli. 2018. Removal of

pharmaceutical compounds in water and wastewater using fungal oxidoreductase enzymes. Environ. Pollut.

234: 190–213.

Nayak, Y., S. Chakradhari, K. S. Patel, R. K. Patel, S. Yurdakul, H. Saathoff and P. Martín-Ramos. 2022. Distribution,

variations, fate and sources of polycyclic aromatic hydrocarbons and carbon in particulate matter, road dust,

and sediments in Central India. Polycycl.

Aromat. Compd. 1–23.

Nikiforova, S. V., N. N. Pozdnyakova and O. V. Turkovskaya. 2009. Emulsifying agent production during PAHs

degradation by the white rot fungus Pleurotus ostreatus D1. Curr. Microbiol. 58(6): 554–558.

Nikiforova, S. V., N. N. Pozdnyakova, O. E. Makarov, M. P. Chernyshova and O. V. Turkovskaya. 2010. Chrysene

bioconversion by the white rot fungus Pleurotus ostreatus D1. Microbiol. 79(4): 456–460.

Ning, D., H. Wang, C. Ding and H. Lu. 2010. Novel evidence of cytochrome P450-catalyzed oxidation of phenanthrene

in Phanerochaete chrysosporium under ligninolytic conditions. Biodegradation.

21(6): 889–901.

Noman, E., A. Al-Gheethi, R. M. S. R. Mohamed and B. A. Talip. 2019. Myco-remediation of xenobiotic organic

compounds for a sustainable environment: a critical review. Top. Curr. Chem. 377(3): 1–41.

Omoni, V. T., C. N. Ibeto, A. J. Lag-Brotons, P. O. Bankole and K. T. Semple. 2022. Impact of lignocellulosic waste-

immobilised white-rot fungi on enhancing the development of 14C-phenanthrene catabolism in soil. Sci. Total

Environ. 81

1: 152243.

Osono, T., Y. Ono and H. Takeda. 2003. Fungal ingrowth on forest floor and decomposing needle litter of

Chamaecyparis obtusa in relation to resource availability and moisture condition. Soil Biol. Biochem.

35(11):

1423–1431.

Ostrem Loss, E. M., M. K. Lee, M. Y. Wu, J. Martien, W. Chen, D. Amador-Noguez and J. H. Yu. 2019. Cytochrome

P450 monooxygenase-mediated metabolic utilization of benzo [a] pyrene by Aspergillus species. mBio

10: 00558–19.

Passarini, M. R., L. D. Sette and M. V. Rodrigues. 2011. Improved extraction method to evaluate the degradation of

selected PAHs by marine fungi grown in fermentative medium. J. Braz. Chem. Soc. 22: 564–570.

Pathak, S., A. K. Sakhiya, A. Anand, K. K. Pant and P. Kaushal. 2022. A state-of-the-art review of various adsorption

media employed for the removal of toxic Polycyclic aromatic hydrocarbons (PAHs): an approach towards a

cleaner environment. J.

Water Process. Eng. 47: 102674.

Pawlik, A., M. Wójcik, K. Rułka, K. Motyl-Gorzel, M. Osińska-Jaroszuk, J. Wielbo and G. Janusz. 2016. Purification

and characterization of laccase from Sinorhizobium meliloti and analysis of the lacc gene. Int. J. Biol.

Macromol. 92: 138–147.

Perez-Boada, M., F. J. Ruiz-Duenas, R. Pogni, R. Basosi, T. Choinowski, M. J. Martínez and A. T. Martínez. 2005.

Versatile peroxidase oxidation of high redox potential aromatic compounds: site-directed mutagenesis,

spectroscopic and crystallographic investigation of three long-range electron transfer pathways. J. Mol.

Biol. 354(2): 385–402.

Pi, Y., B. Chen, M. Bao, F. Fan, Q. Cai, L. Ze and B. Zhang. 2017. Microbial degradation of four crude oil by

biosurfactant producing strain Rhodococcus sp. Bioresour Technol. 232: 263–269.

Potin, O., E. Veignie and C. Rafin 2004. Biodegradation of polycyclic aromatic hydrocarbons (PAHs) by Cladosporium

sphaerospermum isolated from an aged PAH contaminated soil. FEMS Microbiol. Ecol. 51(1): 71–78.

Pourfadakari, S., M. Ahmadi, N. Jaafarzadeh, A. Takdastan, S. Ghafari and S. Jorfi. 2021. Remediation of PAHs

contaminated soil using a sequence of soil washing with biosurfactant produced by Pseudomonas aeruginosa

strain PF2 and electrokinetic oxidation of desorbed solution, effect of electrode modification with Fe3O4

nanoparticles. J. Hazard. Mater. 379: 120839.

Pozdnyakova, N. N., S. V. Nikiforova, O. E. Makarov, M. P. Chernyshova, K. E. Pankin and O. V. Turkovskaya.

2010. Influence of cultivation conditions on pyrene degradation by the fungus Pleurotus ostreatus D1. W

orld

J. Microbiol. Biotechnol. 26(2): 205–211.

Pozdnyakova, N. N. 2012. Involvement of the ligninolytic system of white-rot and litterdecomposing fungi in the

degradation of polycyclic aromatic hydrocarbons. Biotechnol. Res. Int. 1–20.

Pozdnyakova, N. N., M. P. Chernyshova, V. S. Grinev, E. O. Landesman, O. V. Koroleva and O. V. Turkovskaya.

2016. Degradation of fluorene and fluoranthene by the basidiomycete Pleurotus ostreatus. Appl. Biochem.

Microbiol. 52(6): 621–628.

Pramanik, K., S. Banerjee, D. Mukherjee, K. K. Saha, T. K. Maiti and N. C. Mandal. 2021. Beneficial role of plant

growth-promoting rhizobacteria in bioremediation of heavy metal (loid)-contaminated agricultural fields.

In Microbes:

The Foundation Stone of the Biosphere. pp. 441–495. Springer, Cham.