Details
Title
Assessment of the possibility of implementing small retention reservoirs in terms of the need to increase water resourcesJournal title
Archives of Environmental ProtectionYearbook
2021Volume
vol. 47Issue
No 1Affiliation
Wiatkowski, Mirosław : Wrocław University of Environmental and Life Sciences, Institute of Environmental Engineering, Poland ; Wiatkowska, Barbara : University of Opole, Institute of Socio-Economic Geography and Spatial Management, Poland ; Gruss, Łukasz : Wrocław University of Environmental and Life Sciences, Institute of Environmental Engineering, Poland ; Rosik-Dulewska, Czesława : Institute of Environmental Engineering Polish Academy of Sciences in Zabrze ; Tomczyk, Paweł : Wrocław University of Environmental and Life Sciences, Institute of Environmental Engineering, Poland ; Chłopek, Dawid : Wrocław University of Environmental and Life Sciences, Institute of Environmental Engineering, PolandAuthors
Keywords
small water reservoirs ; projected reservoirs ; rivers ; hydrology ; water quality ; planning of sustainable water management ; multivariate statistical analysis ; typology of reservoirsDivisions of PAS
Nauki TechniczneCoverage
80-100Publisher
Polish Academy of SciencesBibliography
1. Adamski, W., Gortat, J., Leśniak, E. & Żbikowski, A. (1986). Small water construction for the villages. Arkady, Warszawa (in Polish).2. Bănăduc, D., Razvam, V., Marić, S., Dobre, A. & Bănăduc, A. (2018). Technical Solutions to Mitigate Shifting Fish Fauna Zones Impacted by Long Term Habitat Degradation in the Bistra Mărui River – Study Case, Transylvanian Review of Systematical and Ecological Research, 20(3). DOI: 10.2478/trser-2018-0021.
3. Bartnik, A. & Jokiel, P. (2007). Maximum outflows and flood indexes for European rivers, Water Management/Gospodarka Wodna, (1), pp. 28–32 (in Polish).
4. Baumgartner, M. T., Piana, P. A., Baumgartner, G. & Gomes, L. C. (2019). Storage or Run-of-river Reservoirs: Exploring the Ecological Effects of Dam Operation on Stability and Species Interactions of Fish Assemblages, Environmental Management, DOI: 10.1007/s00267-019-01243-x.
5. Bierman, P. & Steig, E.J. (1996). Estimating rates of denudation using cosmogenic isotope abundances in sediment, Earth Surface Processes and Landforms, 21(2). DOI: 10.1002/(SICI)1096-9837(199602)21:2125::AID-ESP511>3.0.CO;2-8.
6. Bogdał A., Kowalik, T. & Witoszek, K. (2015). Impact of the Goczałkowicki reservoir on changes in water quality in the Vistula River. Inżynieria Ekologiczna, 45, pp. 2015, 124–134, DOI: 10.12912/23920629/60605 (in Polish).
7. Bogdał A., Policht-Latawiec, A. & Kołdras, S. (2015). Changes of Water Quality Indices with Depth at Drinking Water Intake from Dobczyce Reservoir. Annual Set the Environment Protection, 17, pp. 1239–1258 (in Polish).
8. Boyacioglu, H. (2006). Surface water quality assessment using factor analysis. Water SA, 32(3), pp. 389–393. DOI: 10.4314/wsa.v32i3.5264.
9. Boyacioglu, H. (2014). Spatial differentiation of water quality between reservoirs under anthropogenic and natural factors based on statistical approach. Archives of Environmental Protection, 40(1), 41–50, DOI: 10.2478/Aep-2014-0002.
10. Boyacioglu, H., & Boyacioglu, H. (2008). Water pollution sources assessment by mul-tivariate statistical methods in the Tahtali Basin. Turkey, Environmental Geology, 54(2), 275–282, DOI 10.1007/s00254-007-0815-6.
11. Bus, A. & Mosiej, J. (2018). Water Quality Changes of Inflowing and Outlawing Water from Complex of Niewiadoma Reservoirs Located at Cetynia River. Annual Set The Environment Protection, 20, pp. 1793–1810 (in Polish).
12. Byczkowski, A. (1999). Hydrology, vol. 1, ed. 2. SGGW Publishing House, Warszawa (in Polish).
13. Carlson, R.E. & Simpson, J. (1996). A Coordinator’s Guide to Volunteer Lake Monitoring Methods. North American Lake Management Society.
14. Chłopek, D. (2018). Multi-criteria analysis of the possibility of implementing small water reservoirs in the Barycz river basin. Diploma thesis, Faculty of Environmental Engineering and Geodesy, Wrocław University of Environmental and Life Sciences, pp. 65 (in Polish).
15. Chongxun, M., Fanggui, L. Mei, Y., Rongyong, M. & Guikai, S. (2008), Risk analysis for earth dam overtopping, Water Science and Engineering, 1(2), pp. 76-87, DOI: 10.3882/j.issn.1674-2370.2008.02.008.
16. Ciepielowski, A. (1999). Basics of water management. Publisher SGGW, Warszawa, pp. 328 (in Polish).
17. Cupak, A., Wałęga, A. & Michalec, B. (2017). Cluster analysis in determination of hydrologically homogeneous regions with low flow, Acta Scientiarum Polonorum Formatio Circumiectus, 16(1), pp. 53–63. DOI: 10.15576/ASP.FC/2017.16.1.53
18. Cymes, I. & Glińska-Lewczuk, K. (2016). The use of Water Quality Indices (WQI and SAR) for multipurpose assessment of water in dam reservoirs. J. Elem., 21(4): 1211-1224, DOI: 10.5601/jelem.2016.21.2.1200.
19. Czamara, W., Czamara, A. & Wiatkowski, M. (2008). The use of predams with plants filters to improve water quality in storage reservoirs, Archives of Environmental Protection, 34, pp. 79-89.
20. Degoutte, G. (ed.). (2002). Small dams, guidelines for design, construction and monitoring. Cemagref Éditions and ENGREF (France), with French Committee on Large Dams.
21. Degórski, M. (2018). Circular economy – a new approach in the understanding of the human–environment relationship, [in:] Theoretical and application challenges of contemporary geography socioeconomic, P. Churski (ed.), Studia Komitetu Przestrzennego Zagospodarowania Kraju, Polska Akademia Nauk, Tom CLXXXIII, Warszawa, pp. 27-35 (in Polish).
22. Dodds, W.K. & Smith, V.H. (2016). Nitrogen, phosphorus, and eutrophication in streams, Inland Waters, 6(2), pp. 155-164, DOI: 10.5268/IW-6.2.909.
23. Dziewoński, Z. (1973). Agricultural storage reservoirs, PWN Publisher (in Polish).
24. DZMiUW Wrocław (2006). Small water retention program in the Lower Silesian Voivodship. Study prepared by Agricultural University of Wroclaw - Hydrological Process Modeling Center (in Polish).
25. EPA – Environmental Protection Agency (1974). An approach to a relative trophic index system for classifying lakes and reservoirs. Working Paper, 24.
26. FitzHugh, T. W., & Vogel, R. M. (2010). The impact of dams on flood flows in the United States, River Research and Applications, 27(10), pp. 1192–1215, DOI: 10.1002/rra.1417.
27. Gaupp, F., Hall, J., & Dadson, S. (2015). The role of storage capacity in coping with intra- and inter-annual water variability in large river basins, Environmental Research Letters, 10(12), 125001, DOI: 10.1088/1748-9326/10/12/125001.
28. GIOŚ (2018) Corine Land Cover – Land Cover / Land Use Database. Chief Inspec-torate for Environmental Protection (GIOŚ).
29. Grimard, Y. & Jones, H.G. (2011). Trophic Upsurge in New Reservoirs: A Model for Total Phosphorus Concentrations, Canadian Journal of Fisheries and Aquatic Sciences, 39(11), pp. 1473-1483, DOI: 10.1139/f82-199.
30. Gruss Ł. & Wiatkowski M. (2018). Rainfall models in small catchments in the context of hydrologic and hydraulic assessment of watercourses. ECO CHEM ENG A. 25(1): 19-27, DOI: 10.2428/ecea.2018.25(1)2.
31. Ignatius, A. R., & Rasmussen, T. C. (2016). Small reservoir effects on headwater wa-ter quality in the rural-urban fringe, Georgia Piedmont, USA, Journal of Hydrolo-gy: Regional Studies, 8, pp. 145–161, DOI: 10.1016/j.ejrh.2016.08.005.
32. Junakova, N. & Junak, J. (2017). Sustainable Use of Reservoir Sediment through Par-tial Application in Building Material, Sustainability, 9(5), DOI: 10.3390/su9050852. 33. Kajak, Z. (2001). Hydrobiology - limnology. Inland water ecosystems. PWN Publisher, Warszawa (in Polish).
34. Kałuża, T., Zawadzki, P., Mądrawski, J., Stasik, R. (2017). Analysis of impact of Strużyna reservoir modernization on groundwater level. Acta. Sci. Pol., Formatio Circumiectus, 16(3), 153–169 (in Polish).
35. Karimian, E., Modares, R., Soltani S., Eslamian S., Ostad-Ali-Askari, K., Vijay, P.S & Dalezios, N.R. (2018). Multivariate and Cluster Analysis of Hydrologic Indices: A Case Study of Karun Watershed, Khuzestan Province, Iran, International Journal of Research Studies in Science, Engineering and Technology, 5(2), pp. 4-13
36. Kasperek R., Wiatkowski M. & Czamara W. (2007). Assessment of sediment transport flowing into the Mściwojów water reservoir. Infrastructure and Ecology of Rural Areas, 4, 2, pp. 69-76 (in Polish).
37. Kasperek, R., Mokwa, M. & Wiatkowski, M. (2013). Modelling of pollution transport with sediment on the example of the Widawa River, Archives of Environmental Protection, 39(2), pp. 29-43, DOI: 10.2478/aep-2013-0017.
38. Khaba, L. & Griffiths, J.A. (2017). Calculation of reservoir capacity loss due to sedi-ment deposition in the `Muela reservoir, Northern Lesotho, International Soil and Water Conservation Research, 5 (2), pp. 130-140. DOI: 10.1016/j.iswcr.2017.05.005.
39. Kubicz, J., Lochynski,, P., Pawełczyk, A. & Karczewski, M. (2021). Effects of drought on environmental health risk posed by groundwater contamination. Chemosphere, 263, 128145, DOI: 10.1016/j.chemosphere.2020.128145.
40. Kostecki, M., Tytła, M., Kernert, J. & Stahl, K. (2017). Temporal and spatial variability in concentrations of phosphorus species under thermal pollution conditions of a dam reservoir – the Rybnik Reservoir case study, Archives of Environmental Protection, 43(3), pp. 42–52, DOI: 10.1515/aep-2017-0022.
41. Kowalewski, Z. (2008). Actions for small water retention undertaken in Poland. J. Water. Land. Dev. No. 12, pp. 155–167.
42. Kundzewicz, Z.W., Ulbrich, U., Brücher, T. et al. (2005). Summer Floods in Central Europe – Climate Change Track?, Natural Hazards, 36, 165–189. DOI: 10.1007/s11069-004-4547-6
43. KZGW (National Water Management Authority) 2017. Hydrographic Map of Poland. Available online: https://danepubliczne.gov.pl/dataset/komputerowa-mapa-podzialu-hydrograficznego-polski (accessed on: 05.12.2017).
44. Laacha, G. & Blöschl, G. (2006). A comparison of low flow regionalisation methods – catchment grouping, Journal of Hydrology, 323, pp. 193–214. DOI: 10.1016/j.jhydrol.2005.09.001.
45. Łabaz, B., Bogacz, A. & Kabała, C. (2014). Anthropogenic transformation of soils in the Barycz valley –conclusions for soil classification, Soil Science Annual, 65(3/2014), pp. 103-110. DOI: 10.1515/ssa-2015-0001.
46. Larinier, M. (2008). Fish Passage Experience at Small-Scale Hydro-Electric Power Plants in France, Hydrobiologia, 609(1). DOI: 10.1007/s10750-008-9398-9.
47. Lewis, S.E., Bainbridge, Z.T., Kuhnert, P.M., Sherman, B.S., Henderson, B., Dougall, C., Cooper, M. & Brodie, J.E. (2013). Calculating sediment trapping efficiencies for reservoirs in tropical settings: A case study from the Burdekin Falls Dam, NE Australia, Water Resources Research, 49(2), pp. 1017-1029. DOI: 10.1002/wrcr.20117.
48. Lindsey, C.R., Ghanashym, N., Spycher, N., Fairley, J.P., Dobson, P., Wood, T., McLing, T. & Conrad, M. (2018). Cluster analysis as a tool for evaluating the exploration potential of Known Geothermal Resource Areas, Geothermics, 72, pp. 358-370. DOI: 10.1016/j.geothermics.2017.12.009
49. Ling, T.Y., Soo, C-L, Liew, J-J., Nyanti, L, Sim, S.F. & Grinang, J. (2017). Application of multivariate statistical analysis in evaluation of surface river water quality of a tropical river J. Chemother., pp. 1-13, DOI: 10.1155/2017/5737452
50. Madeyski M., Michalec, B. & Tarnawski, M. (2008). Silting of small water reservoirs and quality of sediments, Infrastructure and Ecology of Rural Areas, 11 (monography; in Polish).
51. Maloney, T.E. (1979). Lake and Reservoir Classification Systems. United States Environmental Protection Agency.
52. Mansanarez, V., Westerberg, I.K., Lam, N. & Lyon, S.W. (2019). Rapid Stage‐Discharge Rating Curve Assessment Using Hydraulic Modeling in an Uncertainty Framework, Water Resources Research, 55(11). DOI: 10.1029/2018WR024176.
53. Marcinkowski, P., Piniewski, M., Kardel, I., Szczęśniak, M., Benestad, R.E., Sriniva-san, R., Ignar, S. & Okruszko, T. (2017). Effect of Climate Change on Hydrology, Sediment and Nutrient Losses in Two Lowland Catchments in Poland, Water, 9, 156, DOI: 10.3390/w9030156.
54. Markowska, J., Szalińska, W., Dąbrowska, J. & Brząkała, M. (2020). The concept of a participatory approach to water management on a reservoir in response to wicked problems. J. Environ. Manage. 259:109626. DOI: 10.1016/j.jenvman.2019.109626
55. Melo, D.C.D., Scanlon, B.R., Zhang, Z., Wendland, E. & Yin, L. (2016). Reservoir storage and hydrologic responses to droughts in the Paraná River basin, south-eastern Brazil, Hydrology and Earth System Sciences, 20, pp. 4673-4688, DOI: 10.5194/hess-20-4673-2016.
56. MGMiŻG, (2019a), Regulation of the Minister of Maritime Economy and Inland Navigation of 11 October 2019 on the classification of ecological status, ecological potential and chemical status and the method of classifying the status of surface water bodies as well as environmental quality standards for priority substances, OJ 2019, item 2149 (in Polish).
57. MGMiŻG, (2019b), Ministry of Maritime Economy and Inland Navigation. Assumptions for the Program for Combating Water Shortage for 2021-2027 with a perspective to 2030. Project, Warszawa, pp. 19 (in Polish).
58. Miąsik M., Koszelnik P. & Bartoszek L. (2014). Trophic water assessment of the small retention reservoirs Blizne and Cierpisz in the Podkarpacie Region (Subcarpathian Province), Limnol. Rev. , 14(, 4), pp. 181-186. DOI 10.1515/limre-2015-0008.
59. Michalec, B., Wałęga, A., Cupak, A., Michalec, A. & Połoska-Wróblel, A. (2016). Determination of the flow rate curve in the back section of water reservoirs in Zesławice. Acta Scientiarum Polonorum Formatio Circumiectus, 15(1), pp. 113–124.
60. Mioduszewski, W. (2014). Water management in rural areas in the light of new challenges. Wiadomości Melioracyjne i Łąkarskie, 1, pp. 2-9 (in Polish).
61. Mioduszewski, W. (2014). Small (natural) water retention in rural areas. J. Water. Land. Dev., No. 20 (I–III), pp. 19–29.
62. Mosisch, T.D. & Arthington, A. (2006). The impacts of power boating and water ski-ing on lakes and reservoirs, Lakes & Reservoirs Research & Management, 3(1), pp. 1-17, DOI: 10.1111/j.1440-1770.1998.tb00028.x.
63. Moss, B. (2007). The art and science of lake restoration, Hydrobiologia, 581, pp. 15-24. DOI: 10.1007/s10750-006-0524-2.
64. Myronidis, D., Fotakis, D., Ioannou, K. & Sgouropoulou, K. (2018). Comparison of ten notable meteorological drought indices on tracking the effect of drought on streamflow. Hydrological Science Journal, DOI: 10.1080/02626667.2018.1554285
65. Myronidis, M. & Ivanova, E. (2020). Generating Regional Models for Estimating the Peak Flows and Environmental Flows Magnitude for the Bulgarian-Greek Rhodope Mountain Range Torrential Watersheds, Water, 12, 784. DOI: 10.3390/w12030784
66. National Water Policy Project (2011) until 2030 (including the stage of 2016), Ministry of the Environment, National Water Management Authority, Warszawa, pp. 74 (in Polish).
67. O’Keeffe, J., Marcinkowski, P., Utratna, M., Piniewski, M., Kardel, I., Kundzewicz, Z.W. & Okruszko, T. (2019). Modelling Climate Change’s Impact on the Hydrology of Natura 2000 Wetland Habitats in the Vistula and Odra River Basins in Poland. Water, 11, 2191, DOI: 10.3390/w11102191.
68. Özdemir, Ö. (2016). Application of multivariate statistical methods for water quality assessment of Karasu Sarmisakli Creeks and Kizilirmak River in Kayseri, Turkey. Polish Journal of Environmental Studies, 25 (3), 1149.
69. Panek, T. & Zwierzchowski, J. (2013). Statistical methods of multivariate compara-tive analysis. Theory and applications, SGH Publishing House, Warszawa, pp. 400 (in Polish).
70. Paruch, A.M., Mæhlum, T. & Robertson, L. (2015). Changes in Microbial Quality of Irrigation Water Under Different Weather Conditions in Southeast Norway. Environ. Process. 2, pp. 115–124. DOI: 10.1007/s40710-014-0054-2
71. Pazdro, Z. & Kozerski, B. (1990). General hydrogeology, Geological Publishing, Edition 4th, Warszawa (in Polish).
72. Pejman, A.H., Nabi Bidhendi, G.R., Karbassi, A.R., Mehrdadi, N. & Esmaeili Bidhendi, M. (2009). Evaluation of spatial and seasonal variations in surface water quality using multivariate statistical techniques, International Journal of Environmental Science and Technology, 6, 3, pp. 467–476. DOI: 10.1007/BF03326086.
73. Przybyła, C., Kozdroj, P. & Sojka, M. (2015). Application of Multivariate Statistical Methods in Water Quality Assessment of River-reservoirs Systems (on the Example of Jutrosin and Pakoslaw Reservoirs, Orla Basin), Annual Set the Environment Protection, 17(2), pp. 1125-1141.
74. Rao, A.R. & Srinivas, V.V. (2008). Regionalization of Watersheds. An approach based on cluster analysis. Springer, New York.
75. Sakamoto, M. (1966). Primary production by phytoplankton community in some Japanese lakes and its dependence on lake depth, Archiv für Hydrobiologie, 62, pp. 1–28.
76. Sand-Jensen, K., Bruun, H.H. & Baastriup-Spohr, L. (2016). Decade‐long time delays in nutrient and plant species dynamics during eutrophication and re‐oligotrophication of Lake Fure 1900–2015, Journal of Ecology, 105(3), DOI: 10.1111/1365-2745.12715.
77. Schiozer, D.J, Ligero, E.L. & Santos, J.A.M. (2004). Risk assessment for reservoir de-velopment under uncertainty, Journal of the Brazilian Society of Mechanical Sci-ences and Engineering, 26(2), DOI: 10.1590/S1678-58782004000200014.
78. Shrestha, S. & Kazama, F. (2007). Assessment of Surface Water Quality using Multi-variate Statistical Techniques: A Case Study of the Fuji River Basin, Japan. Environmental Modelling & Software, 22(4), 464–475, DOI: 10.1016/j.envsoft.2006.02.001.
79. Singh, K. P., Malik, A., Singh V. K., Mohan, D. & Sinha, S. (2005). Chemometric Da-ta Analysis of Pollutants in wastewater - a Case Study. Analytica Chimica Ac-ta, 550, 82–91. DOI: 10.1016/j.aca.2004.10.043.
80. Sojka, M., Jaskuła, J., Siepak, M. (2019). Article Heavy Metals in Bottom Sediments of Reservoirs in the Lowland Area of Western Poland: Concentrations, Distribution, Sources and Ecological Risk, Water, 11, 56, DOI: 10.3390/w11010056.
81. Stathis, D., Myronidis, D. (2009). Principal component analysis of precipitation in Thessaly region (Central Greece). Global NEST Journal, Vol. 11 (4), pp. 467-476,
82. StatSoft, Electronic Statistics Textbook. 2011. Available on: https://www.statsoft.pl/textbook/stathome.html (accessed on January 2020).
83. Szatten, D., Habel, M., Pellegrini, L. & Maerker, M. (2018). Assessment of Siltation Processes of the Koronowski Reservoir in the Northern Polish Lowland Based on Bathymetry and Empirical Formulas, Water, 10, 1681. DOI: 10.3390/w10111681.
84. Szoszkiewicz K., Wicher-Dysarz J., Sojka, M. & Dysarz, T. (2016). Assessment of hydraulic, hydrological and physicochemical factors affecting vegetation development in dam reservoir with separated inlet zone - stare miasto (Central Poland) reservoir as a case study. Fresenius Environmental Bulletin. Vol. 25, No.( 8), pp. 2772-2783.
85. Tallar, R. & Suen, J-P. (2017). Measuring the Aesthetic Value of Multifunctional Lakes Using an Enhanced Visual Quality Method, Water, 9(4), DOI: 10.3390/w9040233.
86. Tokarczyk-Dorociak, K., Gębarowski, S. (2011). Implementation of Water Frame-work Directive in Barycz river basin,. Infrastruktura i Ekologia Terenów Wiejskich 10, pp. 15-27 (in Polish).
87. Tokarczyk, T. & Szalińska, W. (2018). Drought hazard assessment in the process of drought risk management . Acta Sci. Pol., Formatio Circumiectus, 18(3), 217–229. DOI: 10.15576/ASP.FC/2018.17.3.217.
88. Varol, M., Gökot, B., Bekleyen, A. & Şen, B. (2012). Water quality assessment and apportionment of pollution sources of Tigris river (Turkey) using multivariate statistical techniques – a case study, River Research and Applications, 28, pp. 1428–1438, DOI: 10.1002/rra.1533.
89. Vollenweider, R.A. (1965). Material and ideas for a hydrochemistry of water, Memorie dell'Istituto Italiano di Idrobiologia, 19, pp. 213-286 (in Italian).
90. Vollenweider, R.A. (1992). The relationship between phosphorus load and eutrophication response in Lake Vanda, Physical and Biogeochemical Processes in Antarctic Lakes, 59, DOI: 10.1029/AR059p0197.
91. Voza, D., Vuković, M., Takić, L.J., Nikolić, D.J. & Mladenović-Ranisavljević, I. (2015) Application of multivariate statistical techniques in the water quality assessment of Danube river, Serbia. Archives of Environmental Protection, 41(4), pp. 96–103. DOI 10.1515/aep-2015-0044.
92. Waligórski B., Sojka M., Jaskuła J. & Korytowski M. (2018). Analysis of the use of se-lected reservoirs in the Wielkopolska province. Ann. Warsaw Univ. of Life Sci. – SGGW, Land Reclam. 50 (4), 2018). DOI: 10.2478/sggw-2018-0029.
93. Wiatkowska, B. & Słodczyk, J. (2018). Spatial Diversity of Environmental Govern-ance in the Aspect of Sustainable Development of the Polish-Czech Border Area, [in:] Development and administration of border areas of the Czech Republic and Poland. Support for sustainable development, VŠB – Technical University of Ostrava, pp. 292–301. https://repo.uni.opole.pl/docstore/download/UO08212fce5a4b44c88b513175db404927/WiatkowskaB-SlodczykJ-SpatialDiversity.pdf
94. Wiatkowski, M. & Paul, L. (2009). Surface water quality assessment in the Troja river catchment in the context of Włodzienin reservoir construction. Polish Journal of Environmental Studies,. Vol. 18, 5, pp. 923-929.
95. Wiatkowski, M. & Czerniawska-Kusza, I. (2009). Use of Jedlice preliminary reservoir for water protection of Turawa dam reservoir. Oceanological and Hydrobiological Studies, vol. XXXVIII, 1, pp. 83-91.
96. Wiatkowski, M. (2010). Impact of the small water reservoir Psurów on the quality and flows of the Prosna river. Archives of Environmental Protection, vol. 36, 3, pp. 83-96.
97. Wiatkowski, M., Rosik-Dulewska, C., Kuczewski, K. & Kasperek, R. (2013). Water Quality Assessment of Włodzienin Reservoir in the First Year of Its Operation, Annual Set The Environment Protection, 15(3), pp. 2666-2682 (in Polish).
98. Wiatkowski M., Rosik-Dulewska, C. & Kasperek R. (2015). Inflow of Pollutants to the Bukówka Drinking Water Reservoir from the Transboundary Bóbr River Basin. Annual Set The Environment Protection, 17, pp. 316-336.
99. Wiatkowski, M., & Rosik-Dulewska, C. (2015). Water management problems at the Bukówka drinking water reservoir's cross-border basin area in terms of its established functions. J. Ecol. Eng. , 16(2), pp. 52–60. DOI: 10.12911/22998993/1857.
100. Wiatkowski, M., Gruss, Ł., Tomczyk, P. & Rosik-Dulewska, C. (2018). Analy-sis of water quality of the Stobrawa river at the location of the Walce small retention reservoir. Annual Set The Environment Protection, Vol. 20, pp. 184-202.
101. Wiatkowski, M. & Wiatkowska, B. (2019). Changes in the flow and quality of water in the dam reservoir of the Mała Panew catchment (South Poland) characterized by multidimensional data analysis. Archives of Environmental Protection, 45, 1, pp. 26–41. DOI: 10.24425/aep.2019.126339.
102. Wilk, P. & Grabarczyk, A. (2018). The effect of selected inviolable flow char-acteristics on the results of environmental analysis using the example of river absorp-tion capacity Archives of Environmental Protection, 44(2), pp. 14-25. DOI: 10.24425/119702.
103. WIOŚ (Regional Inspectorate for Environmental Protection) (2011, 2013, 2015, 2016). Report on the state of the environment in the Dolnośląskie and Wielkopolskie voivodships, Wrocław, Poznań.
104. Wu, J., Liu, Z., Yao, H., Chen, X., Chen, X., Zheng, Y., & He, Y. (2018). Impacts of reservoir operations on multi-scale correlations between hydrological drought and meteorological drought, Journal of Hydrology, 563, pp. 726–736, DOI: 10.1016/j.jhydrol.2018.06.053.
105. WZMiUW (Provincial Board of Land Reclamation and Water Facilities) Poznań (2015). Program małej retencji wodnej w województwie wielkopolskim na lata 2016–2030. Study prepared by Bureau for Land Reclamation and Environmental Engineering Biprowodmel Ltd (in Polish).
106. Żmuda R., Szewrański S., Kowalczyk T., Szarawarski Ł. & Kuriata M. (2009). Landscape alteration in view of soil protection from water erosion - an example of the Mielnica watershed, Journal of Water and Land Development, 13a, pp. 161-175.
Date
2021.03.08Type
ArticleIdentifier
DOI: 10.24425/aep.2021.136451Source
Archives of Environmental Protection; 2021; vol. 47; No 1; 80-100Abstracting & Indexing
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