PAHs in Terrestrial Environment and their Phytoremediation 81

Ali,

H.,

E.

Khan

and

M. A.

Sajad.

2013.

Phytoremediation

of

heavy

metals—concepts

and

applications. Chemosphere. 91(7): 869–881.

Allamin, I. A., M. I. E. Halmi, N. A. Yasid, S. A. Ahmad, S. R. S. Abdullah and Y. Shukor. 2020. Rhizodegradation

of petroleum oily sludge-contaminated soil using Cajanus cajan increases the diversity of soil microbial

community. Sci. Rep. 10(1): 1–11.

Ambade, B., S. S. Sethi and M. R. Chintalacheruvu. 2022. Distribution, risk assessment, and source apportionment

of polycyclic aromatic hydrocarbons (PAHs) using positive matrix factorization (PMF) in urban soils of East

India. Environ. Geochem. Health 1–15. https://doi.org/10.1007/s10653-022-01223-x.

Aralu, C. C., P. A. C. Okoye, K. G. Akpomie, H. O. Chukwuemeka‐Okorie and H. O. Abugu. 2022. Polycyclic

aromatic hydrocarbons in soil situated around solid waste dumpsite in Awka, Nigeria. Toxin Rev. 1–10. https://

doi.org/10.1080/15569543.2021.2022700.

Ashraf, S., Q. Ali, Z. A. Zahir, S. Ashraf and H. N. Asghar. 2019. Phytoremediation: Environmentally sustainable way

for reclamation of heavy metal polluted soils. Ecotoxicol. Environ. Saf. 174: 714–727.

Barrán-Berdón, A. L., V. Garcia Gonzalez, G. Pedraza Aboytes, I. Rodea-Palomares, A. Carrillo-Chavez, H. Gomez-

Ruiz and B. Verduzco Cuellar. 2012. Polycyclic aromatic hydrocarbons in soils from a brick manufacturing

location in central Mexico. Rev. Int. Contam. Ambient. 28(4): 277–288.

Bose, V. G., K. S. Shreenidhi and J. A. Malik. 2022. Phytoremediation of PAH-contaminated areas. pp. 141–156.

In: Advances in Bioremediation and Phytoremediation for Sustainable Soil Management. Springer, Cham.

Cetin, B., S. Yurdakul, M. Keles, I. Celik, F. Ozturk and C. Dogan. 2017a. Atmospheric concentrations,

distributions and air-soil exchange tendencies of PAHs and PCBs in a heavily industrialized area in Kocaeli,

Turkey. Chemosphere. 183: 69–79.

Cetin, B., F. Ozturk, M. Keles and S. Yurdakul. 2017b. PAHs and PCBs in an Eastern mediterranean megacity,

Istanbul: their spatial and temporal distributions, air-soil exchange and toxicological effects. Environ.

Pollut. 220: 1322–1332.

Chaney, R. L., J. S. Angle, M. S. McIntosh, R. D. Reeves, Y. M. Li, E. P. Brewer, K. Y. Chen, R. J. Roseberg,

H. Perner, E. C. Synkowski and C. L. Broadhurst. 2005. Using hyperaccumulator plants to phytoextract soil

Ni and Cd. Z. Naturforsch C 60(3-4): 190–198.

Chatterjee, S., A. Mitra, S. Datta and V. Veer. 2013. Phytoremediation protocols: An overview. In: D. Gupta (eds.).

Plant-Based Remediation Processes. Soil Biol. 35. https://doi.org/10.1007/978-3-642-35564-6_1.

Chatzimichail, S., F. Rahimi, A. Saifuddin, A. J. Surman, S. D. Taylor-Robinson and A. Salehi-Reyhani. 2021.

Hand-portable HPLC with broadband spectral detection enables analysis of complex polycyclic aromatic

hydrocarbon mixtures. Commun. Chem. 4(1): 1–14.

Chaudhary, P., H. Sahay, R. Sharma, A. K. Pandey, S. B. Singh, A. K. Saxena and L. Nain. 2015. Identification and

analysis of polyaromatic hydrocarbons (PAHs)—biodegrading bacterial strains from refinery soil of India.

Environ. Monit. Assess. 187(6): 1–9.

Cule, N., D. Vilotic, M. Nesic, M. Veselinovic, D. Drazic and S. Mitovic. 2016. Phytoremediation potential of Canna

indica L. in water contaminated with lead. Fresenius Environ. Bull. 25(11): 3728–3733.

Cunningham, S. D. and D. W. Ow. 1996. Promises and prospects of phytoremediation. Plant Physiol. 110(3): 715–719.

Dal Corso, G., E. Fasani, A. Manara, G. Visioli and A. Furini. 2019. Heavy metal pollutions: state of the art and

innovation in phytoremediation. Int. J. Mol. Sci. 20(14): 3412.

De Boer, J. and M. Wagelmans. 2016. Polycyclic aromatic hydrocarbons in soil–practical options for remediation.

CLEAN–Soil Air Water. 44(6): 648–653.

Deka, J., N. Baul, P. Bharali, K. P. Sarma and R. R. Hoque. 2020. Soil PAHs against varied land use of a small

city (Tezpur) of middle Brahmaputra Valley: Seasonality, sources, and long-range transport. Environ. Monit.

Assess. 192: 357.

Devi, N. L., I. C. Yadav, Q. Shihua, Y. Dan, G. Zhang and P. Raha. 2016. Environmental carcinogenic polycyclic

aromatic hydrocarbons in soil from Himalayas, India: Implications for spatial distribution, sources

apportionment and risk assessment. Chemosphere. 144: 493–502.

Dhaliwal, S. S., J. Singh, P. K. Taneja and A. Mandal. 2020. Remediation techniques for removal of heavy metals

from the soil contaminated through different sources: a review. Environ. Sci. Pollut. Res. 27(2): 1319–1333.

Dolatabadi, N., S. Mohammadi Alagoz, B. Asgari Lajayer and E. D. van Hullebusch. 2021. Phytoremediation of

polycyclic aromatic hydrocarbons-contaminated soils. pp. 419–445. In: Climate Change and the Microbiome.

Springer, Cham.

Dos Santos, J. J. and L. T. Maranho. 2018. Rhizospheric microorganisms as a solution for the recovery of soils

contaminated by petroleum: a review. J. Environ. Manag. 210: 104–113.

Dushenkov, V., P. N. Kumar, H. Motto and I. Raskin. 1995. Rhizofiltration: the use of plants to remove heavy metals

from aqueous streams. Environ. Sci. Technol. 29(5): 1239–1245.