Biological Approach for Removal of Pharmaceutical Pollutants     137


           Niemuth, N. J. and Klaper, R. D. 2015. Emerging wastewater contaminant metformin causes
                intersex and reduced fecundity in fish. Chemosphere 135: 38–45.
           Osenbruck, K., Glaser, H. R., Knoller, K. et al. 2007. Sources and transport of selected organic
                micropollutants in urban groundwater underlying the city of Halle (Saale), Germany.
                Water Research 41: 3259–3270.
           Peng, Y. Z., Li, Y. Z., Peng, C. Y. et al. 2004. Nitrogen removal from pharmaceutical manu-
                facturing wastewater with high concentration of ammonia and free ammonia via partial
                nitrification and denitrification. Water Science and Technology 50: 31–36.
           Raj, D. S. S. and Anjaneyulu, Y. 2005. Evaluation of biokinetic parameters for pharmaceuti-
                cal wastewaters using aerobic oxidation integrated with chemical treatment. Process
                Biochemistry 40: 165–175.
           Ramaswamy, B., Shanmugam, G., Velu, G. et al. 2011. GC–MS analysis and ecotoxicological
                risk assessment of triclosan, carbamazepine, and parabens in Indian rivers. Journal of
                Hazardous Materials 186: 1586–1593.
           Roberts, J., Kumar, A., Du, J. et al. 2016. Pharmaceuticals and personal care products
                (PPCPs) in Australia’s largest inland sewage treatment plant, and its contribution to a
                major Australian river during high and low flow. Science of the Total Environment 541:
                1625–1637.
           Sarmah, A. K., Meyer, M. T., and Boxall, A. B. A. 2006. A global perspective on the use,
                sales, exposure pathways, occurrence, fate and effects of veterinary antibiotics (VAs)
                in the environment. Chemosphere 65: 725–759.
           Shanmugam, G., Sampath, S., Selvaraj, K. et al. 2013. Nonsteroidal anti-inflammatory drugs
                in Indian rivers. Environmental Science and Pollution Research 21: 921–931.
           Shi, H., Zheng, H. J., Zhao, D. H. et al. 2008. Treatment of nisin production wastewater by
                biochemical method. Chinese Journal of Environment Engineering 2(10): 1369–1372.
           Sirtori, C., Zapata, A., Oller, I. et al. 2009. Decontamination industrial pharmaceutical
                wastewater by combining solar photo-Fenton and biological treatment. Water Research
                43(3): 661–668.
           Subedi, B., Balakrishna, K., Sinha, R. et al. 2015. Mass loading and removal of pharmaceu-
                ticals and personal care products, including psychoactive and illicit drugs and artifi-
                cial sweeteners, in five sewage treatment plants in India. Journal of Environmental
                Chemical Engineering 3: 2882–2891.
           Synder, S. A. 2008. Occurrence, treatment, and toxicological relevance of EDCs and pharma-
                ceuticals in water. Ozone Science and Engineering 30: 65–69.
           Wang, J. and Wang, S. 2016. Removal of pharmaceuticals and personal care products (PPCPs)
                from wastewater: A review. Journal of Environmental Management 182: 620–640.
           Watkins, D. and Weiss, K. 1999. New air and wastewater compliance challenges for the phar-
                maceutical industry. Pharmaceutical Engineering 19: 6.
           Wu, M., Xiang, J., Que, C. et al. 2015. Occurrence and fate of psychiatric pharmaceuticals in
                the urban water system of Shanghai, China. Chemosphere 138: 486–493.
           Yang, S. F., Lin, C. F., Lin, A. C. et al. 2011. Sorption and biodegradation of sulfonamide anti-
                biotics by activated sludge: Experimental assessment using batch data obtained under
                aerobic conditions. Water Research 45: 3389–3397.