This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Becker A, Kirchesch V, Baumert HZ, Fischer H, Schol A. Modelling the effects of thermal stratification on the oxygen budget of an impounded river. Riv Res Appl. 2010;26(572)-88. DOI: 10.1002/rra.1260.Search in Google Scholar
Diamantini E, Lutz SR, Mallucci S, Majone B, Merz R, Bellin A. Driver detection of water quality trends in three large European river basins. Sci Total Environ. 2018;612:49-62. DOI: 10.1016/j.scitotenv.2017.08.172.Search in Google Scholar
Glendell M, Granger S, Bol R, Brazier R. Quantifying the spatial variability of soil physical and chemical properties in relation to mitigation of diffuse water pollution. Geoderma. 2014;214-215:25-41. DOI: 10.1016/j.geoderma.2013.10.008.Search in Google Scholar
Orr HG, Simpson GL, des Clers S, Watts G, Hughes M, Hannaford J, et al. Detecting changing river temperatures in England and Wales. Hydrol Process. 2015;29:752-66. DOI: 10.1002/hyp.10181.Search in Google Scholar
Laszewski M, Fedorczyk M, Stępniewski K. The impact of land cover on selected water quality parameters in Polish lowland streams during the non-vegetative period. Water. 2022;14:3295. DOI: 10.3390/w14203295.Search in Google Scholar
Velázquez-Chávez L. Anthropogenic impact on the quality of water and agricultural soil in Guadiana Valley, Durango, Mexico. Ecol Chem Eng S. 2023;30(3):373-86. DOI: 10.2478/eces-2023-0039.Search in Google Scholar
Fekrache F, Boudeffa K. Surface water contamination by mining wastes: case of the Sidi Kambar region (Skikda, north-east Algeria). Ecol Chem Eng S. 2023;30(1):49-61. DOI: 10.2478/eces-2023-0003.Search in Google Scholar
Novický O, Kašpárek L, Peláková M. Climate change impacts and responses in the Czech Republic and Europe. IAHS-AISH publication. 2016;308:418-23. Available from: https://iahs.info/uploads/dms/13697.77-418-423-82-308-Novicky.pdf.Search in Google Scholar
Langhammer J. Water quality changes in the Elbe River basin, Czech Republic, in the context of the post-socialist economic transition. GeoJournal. 2010;75(2):185-98. DOI: 10.1007/s10708-009-9292-7.Search in Google Scholar
Hübner G, Schwandt D. Extreme low flow and water quality - a long-term view on the river. Erdkunde. 2018;72(3):235-52. DOI: 10.3112/erdkunde.2018.03.05.Search in Google Scholar
Havlíková P, Mrkva L, Chuman T, Janský B. Surface water quality in the rural catchment of the Šlapanka River, Czechia: change over time. Environ Earth Sci. 2023;82:379. DOI: 10.1007/s12665-023-11067-y.Search in Google Scholar
Langhammer J, Kliment Z. Water quality changes in selected rural catchments in the Czech Republic. Ekologia Bratislava. 2009;28(3):312-32. DOI: 10.4149/ekol_2009_03_312.Search in Google Scholar
Mrkva L, Janský B. Surface water quality in the Mastnik stream catchment area: The situation in the Czech countryside. Geografie. 2018;123(4):479-505. DOI: 10.37040/geografie2018123040479.Search in Google Scholar
Mrkva L, Janský B, Šobr M. Eutrophication of the Mastník bay of the Slapy Reservoir, Czechia. AUC Geographica. 2021;56(1):65-78. DOI: 10.14712/23361980.2021.2.Search in Google Scholar
Fonseca A, Botelho C, Boaventura R, Vilar V. Integrated hydrological and water quality model for river management: A case study on Lena River. Sci Total Environ. 2014;485-486:474-89. DOI: 10.1016/j.scitotenv.2014.03.111.Search in Google Scholar
Qinggai W, Shibei L, Peng J, Changjun Q, Feng D. A review of surface water quality models. Sci World J. 2013;2013:231768. DOI: 10.1155/2013/231768.Search in Google Scholar
Haag I. A basic water quality model for the River Neckar: Part 2 - Model-based analysis of the oxygen budget and scenarios. Acta Hydrochim Hydrobiol. 2006;34:549-59. DOI: 10.1002/aheh.200400653.Search in Google Scholar
Ejigu M. Overview of water quality modeling. Cogent Eng. 2021;8:1. DOI: 10.1080/23311916.2021.1891711.Search in Google Scholar
Abdeveis S, Sedghi H, Hassonizadeh H, Babazadeh H. Application of water quality index and water quality model QUAL2K for evaluation of pollutants in Dez River, Iran. Water Resour. 2020;47:892-903. DOI: 10.1134/S0097807820050188.Search in Google Scholar
Ajiwibowo H, Ash-Shiddiq RHB, Pratama MB. Water quality and sedimentation modelling in Singkarak Lake, Western Sumatra. Geomate J. 2009;16(54):94-102. DOI: 10.21660/2019.54.8145.Search in Google Scholar
Akomeah E, Davies JM, Lindenschmidt KE. Water quality modeling of phytoplankton and nutrient cycles of a complex cold-region river-lake system. Environ Model Assess. 2019;25:293-306. DOI: 10.1007/s10666-019-09681-x.Search in Google Scholar
Bottelli DN, Santisi S, Martjena SH. A system of hydrodynamic, water quality and neural network models for predicting water quality in the Rio de la Plata estuary. Deltas of the future and what happens upstream. 36th IAHR World Congress; 2015. Available from: https://www.iahr.org/library/info?pid=7832.Search in Google Scholar
Lung WS, Larson E. Water quality modeling of upper Mississippi River and Lake Pepin. J Environ Eng. 1995;121(10). DOI: 10.1061/(ASCE)0733-9372(1995)121:10(691).Search in Google Scholar
BfG. QSim - the water quality model of the Federal Institute of Hydrology (BfG). Koblenz; 2018. DOI: 10.5675/BfG_QSim.Search in Google Scholar
Hardenbicker P, Rolinski S, Weitere M, Fischer H. Contrasting long-term trends and shifts in phytoplankton dynamics in two large rivers. Int Rev Hydrobiol. 2014;99(4):287-99. DOI: 10.1002/iroh.201301680.Search in Google Scholar
Hardenbicker P, Weitere M, Ritz S, Schöll F, Fischer H. Longitudinal plankton dynamics in the rivers Rhine and Elbe. Riv Res Appl. 2016;32(6):1264-78. DOI: 10.1002/rra.2977.Search in Google Scholar
Hein B, Viergutz C, Wyrwa J, Kirchesch V, Schöl A. Impacts of climate change on the water quality of the Elbe Estuary (Germany). J Appl Water Eng Res. 2018;6(1):28-39. DOI: 10.5194/egusphere-2022-1028.Search in Google Scholar
Quiel K, Becker A, Kirchesch V, Schöl A, Fischer H. Influence of global change on phytoplankton and nutrient cycling in the Elbe River. Reg Environ Change. 2012;11:405-21. DOI: 10.1007/s10113-010-0152-2.Search in Google Scholar
Billen G, Garnier J, Ficht A, Cun C. Modelling the response of water quality in the Seine River Estuary to human activity in its watershed over the last 50 years. Estuaries. 2001;24(6B):977-93. DOI: 10.2307/1353011.Search in Google Scholar
Ducharne A, Baubion C, Beaudoin N, Benoit M, Billen G, Brisson N, et al. Long-term prospective of the Seine River system: Confronting climatic and direct anthropogenic changes. Sci Total Environ. 2007;375:292-311. DOI: 10.1016/j.scitotenv.2006.12.011.Search in Google Scholar
Schöl A, Hein B, Wyrwa J, Kirchesch V. Modelling water quality in the Elbe and its estuary - Large scale and long-term applications with focus on the oxygen budget of the estuary. Die Küste. 2014;81. Available from: https://izw.baw.de/die-kueste/0/k081115.pdf.Search in Google Scholar
Schöl A, Kirchesch V, Bergfeld T, Schöll F, Borcherding J, Müller D. Modelling the chlorophyll a content of the river Rhine - Interrelation between riverine algal production and population biomass of grazers, rotifers and the zebra mussel Dreissena polymorpha. Int Rev Hydrobiol. 2002;87(2-3):295-317. DOI: 10.1002/1522-2632(200205)87:2/3<295::AID-IROH295>3.0.CO;2-B.Search in Google Scholar
Matzinger A, Fischer H, Schmid M. Modellierung von biogeochemischen Prozessen in Fließgewässern. 2012. DOI: 10.1002/9783527678488.hbal2012001.Search in Google Scholar
Ruter A, Becker A, Bergfeld-Wiedemann T, Hein B, Viergutz C. Das Gewassergutemodell QSim: Handbuch zur Benutzeroberfläche GERRIS (The QSim Water Quality Model: User Manual for the GERRIS Interface). BfG - 1778; 2013. 99p. DOI: BfG/2015/BfG-1778.pdf.Search in Google Scholar
Moriasi DN, Wilson BN, Douglas-Mankin KR, Arnold JG, Gowda PH. Hydrologic and water quality models: Use, calibration, and validation. Trans ASABE. 2012;55(4):1241-7. DOI: 10.13031/2013.42265.Search in Google Scholar
Moriasi D, Gitau M, Pai N, Daggupati P. Hydrologic and water quality models: Performance measures and evaluation criteria. Trans ASABE. 2015;58:1763-85. DOI: 10.13031/trans.58.10715.Search in Google Scholar
Arhonditsis G, Brett M. Evaluation of the current state of mechanistic aquatic biogeochemical modelling. Mar Ecol Prog Ser. 2004;271:13. DOI: 10.3354/meps271013.Search in Google Scholar
Gupta H, Sorooshian S, Yapo P. Toward improved calibration of hydrologic models: Multiple and non-commensurable measures of information. Water Resour Res. 1998;34. DOI: 10.1029/97WR03495.Search in Google Scholar
Viergutz C, Weitere M. Ökologie von Corbicula fluminea und Corbicula fluminalis als Grundlage für die Gewässergütemodellierung. Literaturstudie und Datenauswertung. Bundesanstalt für Gewässerkunde; 2013. DOI: 10.5675/kliwas_10.2013_corbicula.Search in Google Scholar
Benjamin MM. Water Chemistry. 2nd ed. Waveland Press; 2015. ISBN: 9781478623083.Search in Google Scholar
Bergfeld-Wiedemann T, Scherwass A, Ackermann B, Fischer H, Arndt H, Schöl A. Longitudinal and seasonal dynamics of the planktonic microbial community along the length of the River Rhine. River Syst. 2011;19:337-49. DOI: 10.1127/1868-5749/2011/020-0037.Search in Google Scholar
Perfil de Orcid