1. Zhou H, Wang H, Huang Y, Fang T. Characterization of Pyrene Degradation by Halophilic Thalassospira sp. Strain tsl5-1 Isolated from the Coastal Soil of Yellow Sea, China. Int Biodeterior Biodegradation. 2016; 107: 62-9. [
Crossref] [
Google Scholar]
2. Kang CU, Kim DH, Khan MA, Kumar R, Ji SE, Choi KW, et al. Pyrolytic Remediation of Crude Oil-Contaminated Soil. Sci Total Environ. 2020; 713: 136498. [
Crossref] [
Google Scholar]
3. Yang Z, Fang S, Duan M, Xiong Y, Wang X. Chemisorption Mechanism of Crude oil on Soil Surface. J Hazard Mater. 2020; 386: 121991. [
Crossref] [
Google Scholar]
4. Akinola JO, Olawusi Peters OO, Apkambang VOE. Human Health Risk Assessment of Tphs in Brackish Water Prawn (Nematopalaemon Hastatus, Aurivillus, 1898). Heliyon. 2020; 6(1): e03234. [
Crossref] [
Google Scholar]
5. Fadhil NM, Al Baldawi IAW. Biodegradation of Total Petroleum Hydrocarbon from Al-Daura Refinery Wastewater by Rhizobacteria. J Eng. 2020; 26(1): 14-23. [
Crossref] [
Google Scholar]
6. Kuppusamy S, Maddela NR, Megharaj M, Venkateswarlu K. Fate of Total Petroleum Hydrocarbons in the Environment. Total Pet Hydrocarbon: Springer. 2020: 57-77. [
Crossref] [
Google Scholar]
7. Feng L, Xu W, Sun N, Mandal S, Wang H, Geng Z. Efficient Improvement of Soil Salinization Through Phytoremediation Induced by Chemical Remediation in Extreme Arid Land Northwest China. Int J Phytoremediation. 2020; 22(3): 334-41. [
Crossref] [
Google Scholar]
8. Tarla DN, Erickson LE, Hettiarachchi GM, Amadi SI, Galkaduwa M, Davis LC, et al. Phytoremediation and Bioremediation of Pesticide-Contaminated Soil. Appl Sci. 2020; 10(4): 1217. [
Crossref] [
Google Scholar]
9. Li R, Dong F, Yang G, Zhang W, Zong M, Nie X, et al. Characterization of Arsenic and Uranium Pollution Surrounding a Uranium Mine in Southwestern China and Phytoremediation Potential. Polish J Environ Stud. 2020; 29(1): 20-5. [
Crossref] [
Google Scholar]
10. Wan X, Lei M, Chen T. Review on Remediation Technologies for Arsenic-Contaminated Soil. Frontier Environ Sci Eng. 2020; 14(2): 1-14. [
Crossref] [
Google Scholar]
11. Kumar M, Yadav A, Ramanathan A. Arsenic Contamination in Environment, Ecotoxicological and Health Effects, and Bioremediation Strategies for Its Detoxification. Bioremediation Industrial Waste Environ Safe: Springer. 2020: 245-64. [
Crossref] [
Google Scholar]
12. Jaskulak M, Grobelak A, Vandenbulcke F. Modelling Assisted Phytoremediation of Soils Contaminated With Heavy Metals–Main Opportunities, Limitations, Decision Making and Future Prospects. Chemosphere. 2020: 126196. [
Crossref] [
Google Scholar]
13. Awa SH, Hadibarata T. Removal of Heavy Metals in Contaminated Soil by Phytoremediation Mechanism: a Review. Water Air Soil Pollut. 2020; 231 (2): 47-53. [
Crossref]
14. Macci C, Peruzzi E, Doni S, Masciandaro G. Monitoring of a Long Term Phytoremediation Process of A Soil Contaminated by Heavy Metals and Hydrocarbons in Tuscany. Environ Sci Pollut Res. 2020; 27(1): 424-37. [
Crossref] [
Google Scholar]
15. Abdullah SRS, Al Baldawi IA, Almansoory AF, Purwanti IF, Al Sbani NH, Sharuddin SSN. Plant-Assisted Remediation of Hydrocarbons in Water and Soil: Application, Mechanisms, Challenges and Opportunities. Chemosphere. 2020: 125932. [
Crossref] [
Google Scholar]
16. Brereton N, Gonzalez E, Desjardins D, Labrecque M, Pitre F. Co-Cropping with Three Phytoremediation Crops Influences Rhizosphere Microbiome Community in Contaminated Soil. Sci Total Environt. 2020; 711: 135067. [
Crossref] [
Google Scholar]
17. Guo J, Lv X, Jia H, Hua L, Ren X, Muhammad H, et al. Effects of EDTA and Plant Growth-Promoting Rhizobacteria on Plant Growth and Heavy Metal Uptake of Hyperaccumulator Sedum Alfredii Hance. J Environ Sci. 2020; 88: 361-9. [
Crossref] [
Google Scholar]
18. Rangabhashiyam S, Jayabalan R, Rajkumar MA, Balasubramanian P. Elimination of Toxic Heavy Metals From Aqueous Systems Using Potential Biosorbents: A Review. Green Build Sustain Eng: Springer. 2019: 291-311. [
Google Scholar]
19. Tsai HJ, Shao KH, Chan MT, Cheng CP, Yeh KW, Oelmüller R, et al. Piriformospora Indica Symbiosis Improves Water Stress Tolerance of Rice Through Regulating Stomata Behavior and Ros Scavenging Systems. Plant Signal Behav. 2020: 1722447. [
Crossref] [
Google Scholar]
20. Yaghoubian Y, Siadat SA, Telavat MRM, Pirdashti H, Yaghoubian I. Bio-Removal of Cadmium from Aqueous Solutions by Filamentous Fungi: Trichoderma spp. and Piriformospora Indica. Environ Sci Pollut Res. 2019; 26(8): 7863-72. [
Crossref] [
Google Scholar]
21. Vergara C, Araujo KEC, Souza SRd, Schultz N, Jaggin Júnior OJ, Sperandio MVL, et al. Plant-Mycorrhizal Fungi Interaction and Response to Inoculation with Different Growth-Promoting Fungi. Pesquisa Agropecuária Brasileira. 2019; 54. [
Crossref] [
Google Scholar]
22. De las Torres AIG, Giráldez I, Martínez F, Palencia P, Corns WT, Sánchez-Rodas D. Arsenic Accumulation and Speciation in Strawberry Plants Exposed to Inorganic Arsenic Enriched Irrigation. Food Chem. 2020; 315: 126215. [
Crossref] [
Google Scholar]
23. Besalatpour A, Hajabbasi M, Khoshgoftarmanesh A, Dorostkar V. Landfarming Process Effects on Biochemical Properties of Petroleum-Contaminated Soils. Soil Sed Contam. 2011; 20(2): 234-48. [
Crossref] [
Google Scholar]
24. Mehrabadi MA, Amini F, Sabeti P. Evaluation of Phytoremediation of Petroleum Hydrocarbon and Heavy Metals with Using Catharanthus Roseus. J Plant Biol. 2014; 6(21): 111-26. [
Google Scholar]
25. Askary M, Noori M, Biegi F, Amini F. Evaluation of the Phytoremediation of Robinia Pseudoacacia l. in Petroleum-Contaminated Soils with Emphasis on the Some Heavy Metals. J Cell Tissue. 2012; 2(4): 437-42. [
Google Scholar]
26. Baghaie A, Mahanpoor K. Lead Phyto-Remediation by Corn (Maxima cv.) and White Clover in Monoculture and Mixed Culture System in a pb Polluted Soil. Iran J Health Environ. 2018; 11(1): 75-84. [
Google Scholar]
27. Liu Y, Zhuang P, Li Z, Zou B, Wang G, Li N, et al. Cadmium Accumulation in Maize Monoculture and Intercropping with Six Legume Species. Acta Agric Scand B Soil Plant Sci. 2013; 63(4): 376-82. [
Crossref] [
Google Scholar]
28. Li WC, Ye ZH, Wong MH. Metal Mobilization and Production of Short-Chain organic Acids by Rhizosphere Bacteria Associated with a cd/zn Hyperaccumulating Plant, Sedum Alfredii. Plant Soil. 2010; 326(1-2): 453-67. [
Crossref] [
Google Scholar]
29. Gill SS, Gill R, Trivedi DK, Anjum NA, Sharma KK, Ansari MW, et al. Piriformospora Indica: Potential and Significance in Plant Stress Tolerance. Front Microbiol. 2016; 7: 332. [
Crossref] [
Google Scholar]
30. Wu M, Wei Q, Xu L, Li H, Oelmüller R, Zhang W. Piriformospora Indica Enhances Phosphorus Absorption by Stimulating Acid Phosphatase Activities and Organic Acid Accumulation in Brassica Napus. Plant Soil. 2018; 432(1-2): 333-44. [
Crossref] [
Google Scholar]
31. Mottaghi D, Homaee M, Rahnemaie R. Applying Multicropping System to Phytoremediate Cadmium Contaminated Soils by Using Natural and Synthetic Chelates. Environ Sci. 2015; 13(3): 75-88. [
Google Scholar]
32. Mansouri T, Golchin A, Babaakbari Sari M. The Effect of Arsenic on Phosphorus, Iron, Zinc and Manganese Concentrations in Soil and Corn Plant. J Water Soil Sci. 2017; 31(2): 627-43. [
Google Scholar]
33. Li N, Li Z, Zhuang P, Zou B, McBride M. Cadmium uptake from soil by maize with intercrops. Water Air Soil Pollut. 2009; 199(1-4): 45-56. [
Crossref] [
Google Scholar]
34. Nascimento CW. Organic Acids Effects on Desorption of Heavy Metals from a Contaminated Soil. Scientia Agricola. 2006; 63(3): 276-80. [
Crossref] [
Google Scholar]
35. Xie Y, Fan J, Zhu W, Amombo E, Lou Y, Chen L, et al. Effect of Heavy Metals Pollution on Soil Microbial Diversity and Bermudagrass Genetic Variation. Frontier Plant Sci. 2016; 7: 755. [
Crossref] [
Google Scholar]
36. Al Hawash AB, Dragh MA, Li S, Alhujaily A, Abbood HA, Zhang X, et al. Principles of Microbial Degradation of Petroleum Hydrocarbons in the Environment. Egyptian J Aquatic Res. 2018; 44(2): 71-6. [
Crossref] [
Google Scholar]
37. Mohd S, Shukla J, Kushwaha AS, Mandrah K, Shankar J, Arjaria N, et al. Endophytic Fungi Piriformospora Indica Mediated Protection of Host from Arsenic Toxicity. Frontier Microbiol. 2017; 8: 754. [
Crossref] [
Google Scholar]