References

1. Y. Fan, K. Zhao, Z.-L. Shi, P. Zhou, Bat coronaviruses in China, Viruses, 11 (2019) 210 (1–14), doi: 10.3390/v11030210.
2. WHO, WHO Announces COVID-19 Outbreak a Pandemic, World Health Organization, 2020. Available online at: https:// www.euro.who.int/en/health-topics/health-emergencies/ coronavirus-covid-19/news/news/2020/3/who-announcescovid-19-outbreak-a-pandemic (accessed June 12, 2020).
3. S. Szewrański, J. Chrusćinśki, J. Kazak, M. Swíader, K. Tokarczyk-Dorociak, R. Zmuda, Pluvial Flood Risk Assessment Tool (PFRA) for rainwater management and adaptation to climate change in newly urbanised areas, Water, 10 (2018) 386 (1–20), doi: 10.3390/w10040386.
4. C.C. Lai, T.P. Shih, W.C. Ko, H.J. Tang, P.R. Hsueh, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and coronavirus disease-2019 (COVID-19): the epidemic and the challenges, Int. J. Antimicrob. Agents, 55 (2020), doi: 10.1016/j. ijantimicag.2020.105924.
5. Y. Ma, Y. Zhao, J. Liu, X. He, B. Wang, S. Fu, J. Yan, J. Niu, J. Zhou, B. Luo, Effects of temperature variation and humidity on the death of COVID-19 in Wuhan, China, Sci. Total Environ., 724 (2020) 138226, doi: 10.1016/j.scitotenv.2020.138226.
6. Y. Wu, W. Jing, J. Liu, Q. Ma, J. Yuan, Y. Wang, M. Du, M. Liu, Effects of temperature and humidity on the daily new cases and new deaths of COVID-19 in 166 countries, Sci. Total Environ., 729 (2020) 139051 (1–7), doi: 10.1016/j.scitotenv.2020.139051.
7. S. Grover, D. Dua, S. Sahoo, A. Mehra, R. Nehra, S. Chakrabarti, Why all COVID-19 Hospitals should have Mental Health Professionals: the importance of mental health in a worldwide crisis!, Asian J. Psychiatry, 51 (2020) 102147, doi: 10.1016/j. ajp.2020.102147.
8. Y. Tanoue, S. Nomura, D. Yoneoka, T. Kawashima, A. Eguchi, S. Shi, N. Harada, H. Miyata, Mental health of family, friends, and co-workers of COVID-19 patients in Japan, Psychiatry Res., 291 (2020) 113067 (1–3), doi: 10.1016/j.psychres.2020.113067.
9. T. Probst, P. Stippl, C. Pieh, Changes in provision of psychotherapy in the early weeks of the COVID-19 lockdown in Austria, Int. J. Environ. Res. Public Health, 17 (2020) 3815 (1–10), doi: 10.3390/ijerph17113815.
10. B. Stanczykiewicz, A. Banik, N. Knoll, J. Keller, D.H. Hohl, J. Rosińczuk, A. Luszczynska, Sedentary behaviors and anxiety among children, adolescents and adults: a systematic review and meta-analysis, BMC Public Health, 19 (2019) 1–22.
11. D. Szczesniak, M. Ciulkowicz, J. Maciaszek, B. Misiak, D. Luc, T. Wieczorek, K.F. Witecka, J. Rymaszewska, Psychopathological responses and face mask restrictions during the COVID-19 outbreak: results from a nationwide survey, Brain Behav. Immun., 87 (2020) 161–162.
12. K. Kajdanek, “Have We Done Well?” decision to return from suburbia to polish cities in the context of the Covid-19 pandemic, City Soc., 32 (2020) 1–17.
13. N.N. Hartmann, B. Lussier, Managing the sales force through the unexpected exogenous COVID-19 crisis, Ind. Mark. Manage., 88 (2020) 101–111.
14. T. Laing, The economic impact of the Coronavirus 2019 (Covid- 2019): implications for the mining industry, Extr. Ind. Soc., 7 (2020) 580–582.
15. A. Sharif, C. Aloui, L. Yarovaya, COVID-19 pandemic, oil prices, stock market, geopolitical risk and policy uncertainty nexus in the US economy: fresh evidence from the waveletbased approach, Int. Rev. Financ. Anal., 70 (2020) 101496 (1–9), doi: 10.1016/j.irfa.2020.101496.
16. S. Saadat, D. Rawtani, C.M. Hussain, Environmental perspective of COVID-19, Sci. Total Environ., 728 (2020) 138870, doi: 10.1016/j.scitotenv.2020.138870.
17. Q. Wang, M. Su, A preliminary assessment of the impact of COVID-19 on environment – a case study of China, Sci. Total Environ., 728 (2020) 138915, doi: 10.1016/j.scitotenv.2020.138915.
18. S. Muhammad, X. Long, M. Salman, COVID-19 pandemic and environmental pollution: a blessing in disguise?, Sci. Total Environ., 728 (2020) 138820, doi: 10.1016/j.scitotenv.2020.138820.
19. A. Otmani, A. Benchrif, M. Tahri, M. Bounakhla, E.M. Chakir, M. El Bouch, M. Krombi, Impact of Covid-19 lockdown on PM10, SO₂ and NO₂ concentrations in Salé City (Morocco), Sci. Total Environ., 735 (2020) 139541, doi: 10.1016/j.scitotenv.2020.139541.
20. M.A. Zambrano-Monserrate, M.A. Ruano, L. Sanchez-Alcalde, Indirect effects of COVID-19 on the environment, Sci. Total Environ., 728 (2020) 138813, doi: 10.1016/j.scitotenv.2020.138813.
21. A.P. Yunus, Y. Masago, Y. Hijioka, COVID-19 and surface water quality: improved lake water quality during the lockdown, Sci. Total Environ., 731 (2020) 139012, doi: 10.1016/j. scitotenv.2020.139012.
22. F. Braga, G.M. Scarpa, V.E. Brando, G. Manfè, L. Zaggia, COVID-19 lockdown measures reveal human impact on water transparency in the Venice Lagoon, Sci. Total Environ., 736 (2020) 139612 (1–7), doi: 10.1016/j.scitotenv.2020.139612.
23. W. Ahmed, N. Angel, J. Edson, K. Bibby, A. Bivins, J.W. O’Brien, P.M. Choi, M. Kitajima, S.L. Simpson, J. Li, B. Tscharke, R. Verhagen, W.J.M. Smith, J. Zaugg, L. Dierens, P. Hugenholtz, K.V. Thomas, J.F. Mueller, First confirmed detection of SARSCoV-2 in untreated wastewater in Australia: a proof of concept for the wastewater surveillance of COVID-19 in the community, Sci. Total Environ., 728 (2020) 138764 (1–8), doi: 10.1016/j. scitotenv.2020.138764.
24. M. Kitajima, W. Ahmed, K. Bibby, A. Carducci, C.P. Gerba, K.A. Hamilton, E. Haramoto, J.B. Rose, SARS-CoV-2 in wastewater: state of the knowledge and research needs, Sci. Total Environ., 739 (2020) 139076 (1–19), doi: 10.1016/j. scitotenv.2020.139076.
25. C.G. Daughton, Wastewater surveillance for population-wide Covid-19: the present and future, Sci. Total Environ., 736 (2020) 139631, doi: 10.1016/j.scitotenv.2020.139631.
26. K. Przybyła, M. Kachniarz, D. Ramsey, The investment activity of cities in the context of their administrative status: a case study from Poland, Cities, 97 (2020) 102505 (1–9), doi: 10.1016/j. cities.2019.102505.
27. S. Mahato, S. Pal, K.G. Ghosh, Effect of lockdown amid COVID-19 pandemic on air quality of the megacity Delhi, India, Sci. Total Environ., 730 (2020) 139086, doi: 10.1016/j. scitotenv.2020.139086.
28. G. He, Y. Pan, T. Tanaka, The short-term impacts of COVID-19 lockdown on urban air pollution in China, Nat. Sustainability, 3 (2020) 1005–1011.
29. S. Selvam, K. Jesuraja, S. Venkatramanan, S.Y. Chung, P.D. Roy, P. Muthukumar, M. Kumar, Imprints of pandemic lockdown on subsurface water quality in the coastal industrial city of Tuticorin, South India: a revival perspective, Sci. Total Environ., 738 (2020) 139848 (1–7), doi: 10.1016/j.scitotenv.2020.139848.
30. V. Dutta, D. Dubey, S. Kumar, Cleaning the River Ganga: impact of lockdown on water quality and future implications on river rejuvenation strategies, Sci. Total Environ., 743 (2020) 140756, doi: 10.1016/j.scitotenv.2020.140756.
31. H. Zhao, H. Zhang, Y. Liu, Y. Zhang, X. (Luke) Zhang, Pattern discovery: a progressive visual analytic design to support categorical data analysis, J. Vis. Lang. Comput., 43 (2017) 42–49.
32. J.J. Thomas, K.A. Cook, Illuminating the Path: The Research and Development Agenda for Visual Analytics, IEEE Comput. Soc., 2005, pp. 1–184, ISBN: 9780769523231.
33. D.A. Keim, F. Mansmann, A. Stoffel, H. Ziegler, Visual Analytics, Encycl. Database Syst., 2009.
34. X. Qin, Y. Luo, N. Tang, G. Li, Making data visualization more efficient and effective: a survey, VLDB J., 29 (2020) 93–117.
35. N. Silver, The Signal and the Noise: Why So Many Predictions Fail But Some Don’t, Penguin Books, New York, NY, 2015.
36. S. Negash, Business intelligence, Commun. Assoc. Inf. Syst., 13 (2004) 177–195.
37. S. Szewrański, J. Kazak, M. Sylla, M. Świąder, Spatial Data Analysis With the Use of ArcGIS and Tableau Systems, I. Ivan, A. Singleton, J. Horák, T. Inspektor, Eds., The Rise of Big Spatial Data. Lecture Notes in Geoinformation and Cartography, Springer, Cham, 2017, pp. 337–349.
38. J. Kazak, M. Chalfen, J. Kamińska, S. Szewrański, M. Świąder, Geo-Dynamic Decision Support System for Urban Traffic Management, I. Ivan, J. Horák, T. Inspektor, Eds., Dynamics in GIscience. GIS OSTRAVA 2017. Lecture Notes in Geoinformation and Cartography, Springer, Cham, 2018, pp. 195–207.
39. B. Jones, Communicating Data With Tableau, O’Reilly Media, Sebastopol, CA, 2014. Available online at: https:// www.worldcat.org/title/communicating-data-with-tableau/ oclc/891410435&referer=brief_results (accessed September 23, 2020).
40. F. Pedrero, J.J. Alarcón, M. Abellán, P. Perez-Cutillas, Optimization of the use of reclaimed water through groundwater recharge, using a Geographic Information System, Desal. Water Treat., 57 (2016) 4864–4877.
41. J. Dąbrowska, P.B. Dąbek, I. Lejcuś, A GIS based approach for the mitigation of surface runoff to a shallow lowland reservoir, Ecohydrol. Hydrobiol., 18 (2018) 420–430.
42. J.M. Wilson, Gantt charts: a centenary appreciation, Eur. J. Oper. Res., 149 (2003) 430–437.
43. Ustawa z dnia 2 Marca 2020 r. o Szczególnych Rozwiązaniach Związanych Z Zapobieganiem, Przeciwdziałaniem I Zwalczaniem COVID-19, Innych Chorób Zakaźnych Oraz Wywołanych Nimi Sytuacji Kryzysowych. Available at: https://prawo.sejm.gov.pl/isap.nsf/DocDetails.xsp?id=WDU 20200000374 (accessed June 12, 2020).
44. C. Zhou, F. Su, T. Pei, A. Zhang, Y. Du, B. Luo, Z. Cao, J. Wang, W. Yuan, Y. Zhu, C. Song, J. Chen, J. Xu, F. Li, T. Ma, L. Jiang, F. Yan, J. Yi, Y. Hu, Y. Liao, H. Xiao, COVID-19: challenges to GIS with Big Data, Geogr. Sustainability, 1 (2020) 77–87.
45. Z. Engin, J. van Dijk, T. Lan, P.A. Longley, P. Treleaven, M. Batty, A. Penn, Data-driven urban management: mapping the landscape, J. Urban Manage., 9 (2019) 140–150.
46. R. Madurai Elavarasan, R. Pugazhendhi, Restructured society and environment: a review on potential technological strategies to control the COVID-19 pandemic, Sci. Total Environ. 725 (2020) 138858, doi: 10.1016/j.scitotenv.2020.138858.
47. M.H. Connolly, R.R. Hagelman, Management implications of spatiotemporal non-stationarity in municipal water consumption patterns and drivers, Appl. Geogr., 65 (2015) 70–81.
48. M.A. Hossain, M.M. Rahman, M. Murrill, B. Das, B. Roy, S. Dey, D. Maity, D. Chakraborti, Water consumption patterns and factors contributing to water consumption in arsenic affected population of rural West Bengal, India, Sci. Total Environ., 463–464 (2013) 1217–1224.
49. D. Morales, S. Molares, L. Epele, A. Ladio, P. Manzo, G. Alday, An interdisciplinary approach to perception of water quality for human consumption in a Mapuche community of arid Patagonia, Argentina, Sci. Total Environ., 720 (2020) 137508, doi: 10.1016/j.scitotenv.2020.137508.
50. L. Eichelberger, Recognizing the dynamics of household water insecurity in the rapidly changing polar north: expected uncertainties in access, quality, and consumption patterns in Niugtaq (Newtok), Alaska, World Dev. Perspect., 16 (2019) 100148, doi: 10.1016/j.wdp.2019.100148.
51. S. Sun, C. Bao, Z. Tang, Tele-connecting water consumption in Tibet: patterns and socio-economic driving factors for virtual water trades, J. Cleaner Prod., 233 (2019) 1250–1258.
52. M. Baneshi, S.A. Bahreini, Impacts of hot water consumption pattern on optimum sizing and techno-economic aspects of residential hybrid solar water heating systems, Sustainable Energy Technol. Assess., 30 (2018) 139–149.
53. M. Sojka, M. Kozłowski, R. Stasik, M. Napierała, B. Kęsicka, R. Wróżyński, J. Jaskuła, D. Liberacki, J. Bykowski, Sustainable water management in agriculture—the impact of drainage water management on groundwater table dynamics and subsurface outflow, Sustainability, 11 (2019) 4201 (1–18), doi: 10.3390/su11154201.
54. J. Markowska, W. Szalińska, J. Dąbrowska, M. Brząkała, The concept of a participatory approach to water management on a reservoir in response to wicked problems, J. Environ. Manage., 259 (2020), doi: 10.1016/J.JENVMAN.2019.109626.
55. J. Dąbrowska, K. Lejcuś, M. Kuśnierz, A. Czamara, J. Kamińska, I. Lejcuś, Phosphate dynamics in the drinking water catchment area of the Dobromierz Reservoir, Desal. Water Treat., 57 (2016) 25600–25609.
56. A. Bawiec, K. Pawęska, K. Pulikowski, LED light use for the improvement of wastewater treatment in the hydroponic system, Environ. Technol., 41 (2018) 2024–2036.
57. K. Kołecka, M. Gajewska, H. Obarska-Pempkowiak, D. Rohde, Integrated dewatering and stabilization system as an environmentally friendly technology in sewage sludge management in Poland, Ecol. Eng., 98 (2017) 346–353.
58. M. Radinja, J. Comas, L. Corominas, N. Atanasova, Assessing stormwater control measures using modeling and a multicriteria approach, J. Environ. Manage., 243 (2019) 257–268.
59. A. Zraunig, M. Estelrich, H. Gattringer, J. Kisser, G. Langergraber, M. Radtke, I. Rodriguez-Roda, G. Buttiglieri, Long term decentralized greywater treatment for water reuse purposes in a tourist facility by vertical ecosystem, Ecol. Eng., 138 (2019) 138–147.
60. I. Leščešen, M. Urošev, D. Dolinaj, M. Pantelić, T. Telbisz, G. Varga, S. Savić, D. Milošević, Regional flood frequency analysis based on L-moment approach (case study Tisza River Basin), Water Resour., 46 (2019) 853–860.
61. S.L. Dias, H. Lucas, M.C. Almeida, H. Alegre, M. Viriato, D. Loureiro, Identification of opportunities to improve efficiency by water consumption assessment, Desal. Water Treat., 2 (2009) 59–64.
62. J. Stańczyk, E. Burszta-Adamiak, Analiza mocy hydraulicznej strumienia wody w detekcji stanów pracy sieci wodociągowej, Gaz Woda Tech. Sanit., 8 (2019) 255–260.
63. J. Stańczyk, E. Burszta-Adamiak, The analysis of water supply operating conditions systems by means of empirical exponents, Water, 11 (2019) 2452 (1–18), doi: 10.3390/ w11122452.
64. V. Kanakoudis, A. Papadopoulou, S. Tsitsifli, Domestic water pricing in Greece: a spatial differentiation, Des. Water Treat., 54 (2015) 2204–2211.
65. J.K. Kazak, J. van Hoof, Decision support systems for a sustainable management of the indoor and built environment, Indoor Built Environ., 27 (2018) 1303–1306.
66. M. Świąder, S. Szewrański, J. Kazak, Poverty risk index as a new methodology for social inequality distribution assessment, IOP Conf. Ser.: Mater. Sci. Eng., 245 (2017) 072021 (1–9), doi: 10.1088/1757-899X/245/7/072021.
67. R.B. Sowby, Emergency preparedness after COVID-19: a review of policy statements for the U.S. water sector, Util. Policy, 64 (2020) 101058, doi: 10.1016/j.jup.2020.101058.