Author:
Kumar Prasann,Choudhury Debjani
Publisher
Springer Nature Switzerland
Reference96 articles.
1. Akhtar, M. S., Chali, B., & Azam, T. (2013). Bioremediation of arsenic and lead by plants and microbes from contaminated soil. Research in Plant Sciences, 1(3), 68–73.
2. Albers, P. H., & Camardese, M. B. (1993). Effects of acidification on metal accumulation by aquatic plants and invertebrates. 1. Constructed wetlands. Environmental Toxicology and Chemistry: An International Journal, 12(6), 959–967.
3. Ali, S., Abbas, Z., Rizwan, M., Zaheer, I. E., Yavaş, İ, Ünay, A., Abdel-Daim, M. M., Bin-Jumah, M., Hasanuzzaman, M., & Kalderis, D. (2020). Application of floating aquatic plants in phytoremediation of heavy metals polluted water: A review. Sustainability, 12(5), 1927.
4. Ankit, Saha L., Kumari, K., Sinha, S., Bordoloi, N., Tiwari, J., Korstad, J., & Bauddh, K. (2020). Removal of organic pollutants from contaminated water bodies using aquatic macrophytes coupled with bioenergy production and carbon sequestration. Emerging Eco-Friendly Green Technologies for Wastewater Treatment, 221–244.
5. Baker, A. J. M., McGrath, S. P., Sidoli, C. M. D., & Reeves, R. D. (1994). The possibility of in situ heavy metal decontaminating polluted soils using crops of metal-accumulating plants. Resources, Conservation and Recycling, 11(1–4), 41–49.