Biotechnology for Zero Waste – Emerging Waste Management Techniques (Chaudhery Mustansar Hussain (editor) etc.)

References

myriad-resistant properties of organisms with respect to their life history and the

environmental factors are essential for successful bioremediation.

References

1 Paul, T. and Mukherjee, S.K. (2018). Exploration and intervention of geologi-

cally ancient microbial adaptation in the contemporary environmental arsenic

bioremediation. In: Heavy Metals in the Environment: Microorganisms and Biore-

mediation (ed. E.R. Donati), 73–90. USA: CRC Press.

2 Rahman, Z. and Singh, V.P. (2019). The relative impact of toxic heavy metals

(THMs) (arsenic (As), cadmium (Cd), chromium (Cr)(VI), mercury (Hg), and

lead (Pb)) on the total environment: an overview. Environmental Monitoring and

Assessment 191 (7): 419.

3 Qayyum, S., Khan, I., Bhatti Zulfiqar, A. et al. (2016). Fungal strain Aspergillus

flavus F3 as a potential candidate for the removal of lead(II) and chromium(VI)

from contaminated soil. Main Group Metal Chemistry 39 (3, 4): 93.

4 Dixit, R., Malaviya, D., Pandiyan, K. et al. (2015). Bioremediation of heavy metals

from soil and aquatic environment: an overview of principles and criteria of fun-

damental processes. Sustainability 7 (2): 2189–2212.

5 Paul, T. and Saha, N.C. (2019). Environmental arsenic and selenium contam-

ination and approaches towards its bioremediation through the exploration of

microbial adaptations: a review. Pedosphere 29 (5): 554–568.

6 Paul, T., Chakraborty, A., Islam, E. et al. (2018). Arsenic bioremediation poten-

tial of arsenite-oxidizing Micrococcus sp. KUMAs15 isolated from contaminated

soil. Pedosphere 28 (2): 299–310.

7 Wang, S., Wu, W., Liu, F. et al. (2017). Accumulation of heavy metals in soil-crop

systems: a review for wheat and corn. Environmental Science and Pollution

Research 24 (18): 15209–15225.

8 Dickin, S.K., Schuster-Wallace, C.J., Qadir, M. et al. (2016). A review of health

risks and pathways for exposure to wastewater use in agriculture. Environmental

Health Perspectives 124 (7): 900–909.

9 Khan, S., Rehman, S., Khan, A.Z. et al. (2010). Soil and vegetables enrichment

with heavy metals from geological sources in Gilgit, northern Pakistan. Ecotoxi-

cology and Environmental Safety 73 (7): 1820–1827.

10 Al-Saleh, I., Al-Rouqi, R., Elkhatib, R. et al. (2017). Risk assessment of envi-

ronmental exposure to heavy metals in mothers and their respective infants.

International Journal of Hygiene and Environmental Health 220 (8): 1252–1278.

11 Liu, X., Song, Q., Tang, Y. et al. (2013). Human health risk assessment of heavy

metals in soil–vegetable system: a multi-medium analysis. The Science of the

Total Environment 463, 464: 530–540.

12 Hiroaki, I., Motoki, I., Norie, S. et al. (2014). Dietary cadmium intake and breast

cancer risk in Japanese women: a case–control study. Journal of Hazardous

Materials 217 (1): 70–77.