Adwibowo, A. Does social distancing have an effect on water quality? An evidence from Chlorophyll-a level in the water of populated Southeast Asian Coasts. Preprints 2020, 2020050091.
Aletta, F., Osborn, D. The COVID-19 global challenge and its implications for the environment - what we are learning. UCL Open: Environment. 2020, (1):05.
Braga, F., Scarpa, G.M., Brando, V.E., Manfè, G., Zaggia, L. 2020. COVID-19 lockdown measures reveal human impact on water transparency in the Venice Lagoon. Science of the Total Environment 736, 139612.
Brazil. Ministry of Health – COVID19 – Coronavirus Panel. https://covid.saude.gov.br/. (2020), Accessed 30th May 2020.
Carvalho, L.R., Sant'Anna, C.L., Gemelgo, M.C.P., Azevedo, M.T.P. (2007). Cyanobacterial occurrence and detection of microcystin by planar chromatography in surface water of Billings and Guarapiranga Reservoirs, SP, Brazil. Brazilian Journal of Botany, 30(1), 141-148.
Castagna, A.; Simis, S.; Dierssen, H.; Vanhellemont, Q.; Sabbe, K.; Vyverman, W. Extending Landsat 8: Retrieval of an Orange contra-Band for Inland Water Quality Applications. Remote Sens. 2020, 12, 637.
CETESB. Avaliação da qualidade das águas interiores no estado de São Paulo 2002. São Paulo, 2003. (Série Relatórios) Available in:< http://www.cetesb.sp.gov.br/agua/aguas-superficiais/35- publicacoes-/-relatorios>. Access in: 03/06/2020.
CETESB - Companhia Ambiental do Estado de São Paulo, 2017. Qualidade das águas interiores no estado de São Paulo - 2016.. https://cetesb.sp.gov.br/aguas-interiores/publicacoes-e-relatorios/ (acessed 1 April 2020).
Chakraborty, S., Mitra, A., Pramanick, P., Zaman, S., Mitra, A. Scanning the water quality of lower Gangetic delta during COVID-19 lockdown phase using dissolved oxygen (DO) as proxy. NJUS Journal of Regulatory Studies, Special Issue on COVID-19 (2020), 69-74.
Cunha, D.G.F., Calijuri, M.C., Lamparelli, M.C. A trophic state index for tropical/subtropical reservoirs (TSItsr). Ecological Engineering. 60 (2013). 126-134.
Gemelgo, MCP, Mucci, JLN, Navas-Pereira, D. Population dynamics: seasonal variation of phytoplankton functional groups in Brazilian reservoirs (Billings and Guarapiranga, São Paulo). Braz. J. Biol., 69(4), 1001-1013, 2009
Kumar, A.; Mishra, D.R.; Ilango, N. Landsat 8 Virtual Orange Band for Mapping Cyanobacterial Blooms. Remote Sens., 12, 868, 2020.
Mishra, S.; Mishra, D.R. Normalized difference Chlorophyll index: A novel model for remote estimation of Chlorophyll a concentration in turbid productive waters. Remote Sens. Environ., 117, 394-406, 2012.
Mishra, S., Stumpf, R.P., Schaeffer, B.A., Wedell, P.J., Loftin, K.A., Meredith, A. Measurement of cyanobacterial bloom magnitude using satellite remote sensing. Scientific Reports. 9 (2019), 18310.
Muhammad, S., Long, X., Salman, M. COVID-19 pandemic and environmental pollution: a blessing in disguise? Science of the Total Environment 728, (2020). Article 138820.
Mukherjee, P., Pramanick, P., Zaman, S., Mitra, A. Eco-restoration of River Ganga water quality during COVID-19 lockdown period using Total Coliform (TC) as proxy. NJUS Journal of Regulatory Studies, Special Issue on COVID-19 (2020), 75-82.
Munster, V.J., Koopmans, M., Van Doremalen N., Van Riel, D., Wit, E. A novel coronavirus emerging in china - key questions for impact assessment. New England Journal of Medicine. 382 (2020). pp. 692-4.
Pires, D.A., Tucci, A., Carvalho, M.C., Lamparelli, M.C. Water quality in four reservoirs of the metropolitan region of São Paulo, Brazil. Acta Limnologica Brasiliensia. 27, (2015), 370-380.
São Paulo. São Paulo State – Social Isolation Intelligent Monitoring System. https://www.saopaulo.sp.gov.br/coronavirus/isolamento/ (2020), Accessed 14 May 2020.SEADE. Coronavirus. https://www.seade.gov.br/coronavirus/ (2020), Accessed 30th May 2020.
SIGRH - Sistema Integrado de Gerenciamento de Recursos Hídricos do Estado de São Paulo. 2020. http://www.sigrh.sp.gov.br/pageitems/450/news/10417
Simis, S.G.H., Peters, S.W.M., Gons, H.J. Remote sensing of the cyanobacterial pigment phycocyanin in turbid inland water. Limnology and Oceanography. 50 (2005). 237-245.
Souza, Roberto Tavares. Interview in Radio Cultura FM, May 13, 2020. http://culturafm.cmais.com.br/oito-em-ponto/o-consumo-de-agua-aumentou-na-quarentena.
Stumpf, R.P., Davis, T.W., Wynne, T.T., Graham, J.L., Loftin, K.A., Johengen, T.H., Gossiaux, D., Palladino, D., Burtner, A. Challenges for mapping cyanotoxin patterns form remote sensing of cyanobacteria. Harmful Algae. 54 (2016), 160-173.
Vanhellemont, Q.; Ruddick, K. Atmospheric correction of metre-scale optical satellite data for inland and coastal water applications. Remote Sens. Environ., 216, 586–597, 2018.
Vanhellemont, Q. Adaptation of the dark spectrum fitting atmospheric correction for aquatic applications of the Landsat and Sentinel-2 archives. Remote Sens. Environ., 225, 175–192, 2019.
Xu, H. et al. Possible environmental effects on the spread of COVID-19 in China. Science of The Total Environment. 731. (2020). 139211.
Yunus, A.P., Masago, Y., Hijioka, Y. COVID-19 and surface water quality: Improved lake water quality during the lockdown. Science of The Total Environment. 731, (2020). Article 139012.
Zambrano-Monserrate, M.A., Ruano, M.A., Sanchez-Alcalde, L. Indirect effect of COVID-19 on the environment. Science of The Total Environment. 728, (2020). Article 138813.
Zhu, N. et al. A novel coronavirus from patients with pneumonia in China. New England Journal of Medicine. 382 (2020). pp. 727-733.