References

  1. V.O. Polyanin, Conceptual approaches to monitoring diffuse pollution of water bodies, Water Resour.,
    47 (2020) 785–793.
  2. N. Zolkefli, S.S. Sharuddin, M.Z.M. Yusoff, M.A. Hassan, T. Maeda, N. Ramli, A review of current and emerging approaches for water pollution monitoring, Water, 12 (2020) 3417, doi: 10.3390/w12123417.
  3. M.M. Ibrahim, E. Elhaddad, Surface water quality monitoring and pollution of Ismailia Canal, Egypt,
    using GIS-techniques, Fresenius Environ. Bull., 30 (2021) 70–79.
  4. A. Venkatanarayanan, A. Vijayavel, A. Rajagopal, P. Nagaradjane, Design of sensor system for air pollution and human vital monitoring for connected cyclists, IET Commun., 13 (2019) 3181–3186.
  5. G. Kolumban-Antal, V. Lasak, R. Bogdan, B. Groza, A secure and portable multi-sensor module for distributed air pollution monitoring, Sensors (Basel, Switzerland), 20 (2020) 1–19, doi: 10.3390/s20020403.
  6. S. Wang, K. Zhang, L.P.H. van Beek, X. Tian, T.A. Bogaard, Physically-based landslide prediction over a large region: scaling low-resolution hydrological model results for highresolution slope stability assessment, Environ. Modell. Software, 124 (2020) 104607, doi: 10.1016/j.envsoft.2019.104607.
  7. S. Mishra, A. Kushwaha, D. Aggrawal, A. Gupta, Comparative emission study by real-time congestion monitoring for stable pollution policy on temporal and meso-spatial regions in Delhi, J. Cleaner Prod., 224 (2019) 465–478.
  8. N. Xue, Simulation of multi-parameter detection method for urban heavy polluted river water quality, Comput. Simul., 36 (2019) 453–456.
  9. L. He, Y. Chen, J. Li, A three-level framework for balancing the tradeoffs among the energy, water, and air-emission implications within the life-cycle shale gas supply chains, Resour. Conserv. Recycl., 133 (2018) 206–228.
  10. Y.M. Kilic, M.N. Abus, Determination of noise pollution in the hudavendigar urban park of Bursa, Turkey, Appl. Ecol. Environ. Res., 18 (2020) 2073–2085.
  11. T.T.N. Win, T. Bogaard, N.V.D. Giesen, A low-cost water quality monitoring system for the Ayeyarwady river in Myanmar using a participatory approach, Water, 11 (2019) 1984, doi: 10.3390/ w11101984.
  12. A.G. Hernandez-Ramirez, E. Martinez-Tavera, P.F. Rodriguez- Espinosa, J.A. Mendoza-Pérez, J. Tabla-Hernandez, D.C. Escobedo-Urías, M.P. Jonathan, S.B. Sujitha, Detection, provenance and associated environmental risks of water quality pollutants during anomaly events in River Atoyac, Central Mexico:
    a real-time monitoring approach, Sci. Total Environ., 15 (2019) 1019–1032.
  13. A. Medvedev, N. Telnova, N. Alekseenko, A. Koshkarev, P. Kuznetchenko, S. Asmaryan, A. Narykov, UAV-derived data application for environmental monitoring of the coastal area of Lake Sevan, Armenia with a changing water level, Remote Sens., 12 (2020) 3821, doi: 10.3390/rs12223821.
  14. A. Naziha, L. Fu, G.M. Elamine, L. Wang, A method to construct an indoor air pollution monitoring system based on a wireless sensor network, Sensors, 19 (2019) 967, doi: 10.3390/s19040967.
  15. X. Wan, J. Ran, An alternative method to improve gravity field models by incorporating GOCE gradient data, Earth Sci. Res. J., 22 (2018) 187–193.
  16. A. Gołub, J. Piekutin, Pollution of sedimentary ponds at an industrial plant in Janikowo (Poland), Water, 12 (2020) 536, doi: 10.3390/w12020536.
  17. P. Kapusta, M. Stanek, G. Szarek-Lukaszewska, B. Godzik, Long-term moss monitoring of atmospheric deposition near a large steelworks reveals the growing importance of local nonindustrial sources of pollution, Chemosphere, 230 (2019) 29–39.
  18. C. Yang, F. Gao, M. Dong, Energy efficiency modeling of integrated energy system in coastal areas, J. Coastal Res., 103 (2020) 995.
  19. J.H. Erasmus, V. Wepener, M. Nachev, S. Zimmermann, W. Malherbe, B. Sures, N.J. Smit, The role of fish helminth parasites in monitoring metal pollution in aquatic ecosystems: a case study in the world’s most productive platinum mining region, J. Parasitol. Res., 119 (2020) 2783–2798.
  20. T. Gajbhiye, S.K. Pandey, S.S. Lee, K.-H. Kim, Size fractionated phytomonitoring of airborne particulate matter (PM) and speciation of PM bound toxic metals pollution through Calotropis procera in an urban environment, Ecol. Indic., 104 (2019) 32–40.
  21. L.B. Frederickson, S. Lim, H.S. Russell, S. Kwiatkowski, Monitoring excess exposure to air pollution for professional drivers in London using low-cost sensors, Atmosphere, 11 (2020) 749, doi:10.3390/atmos11070749.
  22. E. Blanco-Rayón, L. Guilhermino, I. Marigómez, U. Izagirre, Collection and transport of sentinel mussels in biomarkerbased coastal pollution monitoring: current flaws and reliable practices, Ecol. Indic., 103 (2019) 722–734.
  23. M. Garmendia, S. Fdez-Ortiz de Vallejuelo, O. Liñero, A. Gredilla, G. Arana, M. Soto, A. de Diego, Long term monitoring of metal pollution in sediments as a tool to investigate the effects of engineering works in estuaries. A case study, the Nerbioi- Ibaizabal estuary (Bilbao, Basque Country), Mar. Pollut. Bull., 145 (2019) 555–563.
  24. S. Wilde, Meeting report air pollution in megacities: advances in monitoring and modelling, Weather, 74 (2019) 226, doi: 10.1002/ wea.3518.
  25. N.P. Gribacheva, G.M. Gecheva, V.M. Stefanova, Air pollution monitoring with mosses in Western Rhodopes, Bulgaria, Bulg. Chem. Commun., 51 (2019) 256–260.