Changes and dynamics of headwaters chemistry on the boundary of nature protected areas: Example of upper Blanice River catchment, Czechia References

Geografie > Archive > 2022, Vol. 127 > Issue 2 > p. 99 > References

Geografie 2022, 127, 99-126

https://doi.org/10.37040/geografie.2022.001

Changes and dynamics of headwaters chemistry on the boundary of nature protected areas: Example of upper Blanice River catchment, Czechia

Kateřina Fraindová

, Milada Matoušková

, Zdeněk Kliment

, Vojtěch Vlach

Charles University, Faculty of Science, Department of Physical Geography and Geoecology, Prague, Czechia

Received September 2021
Accepted January 2022

References

1. ABSOLON, K., HRUŠKA, J. (1999): Záchranný program perlorodky říční (Margaritifera margaritifera Linnaeus, 1758) v České republice. NCA CR, Prague, 1−27.

2. Act No. 399/2004 page 7879. Decree No. 399/2004 Coll. Decree amending Decree of the Ministry of Agriculture No. 274/1998 Coll., On the storage and use of fertilizers, as amended.

3. ÅSTRÖM, M, AALTONEN, E-K., KOIVUSAARI, J. (2001): Effect of ditching operations on stream-water chemistry in a boreal forested catchment. The Science of the Total Environment, 279, 1−3, 117–129. <https://doi.org/10.1016/S0048-9697(01)00757-4>

4. BAKER, A. (2006): Land Use and Water Quality. In: Anderson, M.G., McDonnell, J.J. (eds.), Encyclopedia of Hydrological Sciences. John Wiley & Sons, Ltd., Chichester. 2925−2930.

5. BATES, B.C., KUNDZEWICZ, Z.W., WU, S., PALUTIKOF, J.P., eds. (2008): Climate Change and Water. Technical Paper of the Intergovernmental Panel on Climate Change, IPCC Secretariat, Geneva.

6. BELECO (2016): http://www.beleco.cz/odborna-cinnost/ochrana-perlorodky-ricni/ochrana-populace-perlorodky-ricni-pred-komunalnim-znecistenim.html (10. 5. 2021).

7. BÍLÝ, M., SIMON, O. (2007): Water Quality Issues in the Protection of Oligotrophic Streams with the Occurrence of Pearl Mussel (Margaritifera margaritifera) in the Czech Republic. AUC–Environmentalica, 21, 21−30.

8. BLAHUŠIAKOVÁ, A., MATOUŠKOVÁ, M., JENICEK, M., LEDVINKA, O., KLIMENT, Z., PODOLINSKÁ, J., SNOPKOVÁ, Z. (2020): Snow and climate trends and their impact on seasonal runoff and hydrological drought types in selected mountain catchments in Central Europe. Hydrological Sciences Journal, 65, 12, 2083−2096. <https://doi.org/10.1080/02626667.2020.1784900>

9. BRODER, T., KNORR, K. H, BIESTER, H. (2017): Changes in dissolved organic matter quality in a peatland and forest headwater stream as a function of seasonality and hydrologic conditions. Hydrology and Earth System Sciences, 21, 2035−2051. <https://doi.org/10.5194/hess-21-2035-2017>

10. CGS (2016): GEOMON network data. Czech geological Survey, Prague.

11. CGS (2019): Map of soil types. https://mapy.geology.cz/arcgis/services/Pudy/pudni_typy50/MapServer/WmsServer, https://mapy.geology.cz/arcgis/services/Pudy/pudni_mapa50_rastr/MapServer/WmsServer (20. 12. 2019).

12. CHALUPOVÁ, D., HAVLÍKOVÁ, P., JANSKÝ, B. (2012): Water quality of selected fluvial lakes in the context of the Elbe River pollution and anthropogenic activities in the floodplain. Environmental Monitoring and Assessment, 184, 6283−6295. <https://doi.org/10.1007/s10661-011-2419-6>

13. CUNI (2020): Hydro-Meteorological Monitoring Network. Charles University, Prague.

14. CUZK (2020): WMS view service – ZABAGED®, http://ags.cuzk.cz/arcgis/services/ZABAGED/MapServer/WmsServer? (18. 3. 2020).

15. CUZK (2021): Orthophoto of the Czech Republic, https://ags.cuzk.cz/geoprohlizec (10. 5. 2021).

16. Czech Statistical Office (2020): https://www.czso.cz (20. 2. 2020).

17. DAVIS, J. C. (1973): Statistics and Data Analysis in Geology. Wiley, New York.

18. DELPLA, I., JUNG, A.V., BAURES, E., CLEMENT, M., THOMAS, O. (2009): Impacts of climate change on surface water quality in relation to drinking water production. Environment International, 35, 1225−1233. <https://doi.org/10.1016/j.envint.2009.07.001>

19. eAgri (2021): Livestock database. Department of Animal Commodities and Central Animal Register, The Ministry of Agriculture of the Czech Republic.

20. EVANS, C.D., MONTEITH, D.T., COOPER, D.M. (2005): Long-term increases in surface water dissolved organic carbon: Observations, possible causes and environmental impacts. Environmental Pollution, 137, 1, 55−71. <https://doi.org/10.1016/j.envpol.2004.12.031>

21. FERDA, J., HLADNÝ, J., BUBENÍČKOVÁ, L., PEŠEK, L. (1971): Odtokový režim a chemismus vod v povodí Horní Otavy se zaměřením na výskyt rašelinišť. Sborník prací HMÚ, 17, HMÚ, Prague, 22−126.

22. FUČÍK, P., NOVÁK, P., ŽÍŽALA, D. (2014): A combined statistical approach for evaluation of the effects of land use, agricultural and urban activities on stream water chemistry in small tile-drained catchments of south Bohemia, Czech Republic. Environmental Earth Sciences, 72, 2195−2216. <https://doi.org/10.1007/s12665-014-3131-y>

23. FUČÍK, P., ZAJÍČEK, A., DUFFKOVÁ, R., KVÍTEK, T. (2015): Water Quality of Agricultural Drainage Systems in the Czech Republic – Options for Its Improvement. In: Lee, T.S. (ed.): Research and Practices in Water Quality. IntechOpen, 239−262.

24. GOVE, N.E., EDWARDS, R.T., CONQUEST, L.L. (2001): Effects of Scale on Land Use and Water Quality Relationships: A Longitudinal Basin-Wide Perspective. Journal of the American Water Resources Association, 37, 6, 1721−1734. <https://doi.org/10.1111/j.1752-1688.2001.tb03672.x>

25. HELIN, J., HYYTIÄINEN, K., KORPELA, E.L., KUUSSAARI, M. (2013): Model for quantifying the synergies between farmland biodiversity conservation and water protection at catchment scale. Journal of Environmental Management, 131, 307−317. <https://doi.org/10.1016/j.jenvman.2013.09.029>

26. HINTNAUS, I. (2008): Změny ve vývoji krajiny v pramenné oblasti Blanice. Bachelor thesis, Faculty of Science, Charles University, Prague.

27. HÖNIGOVÁ, I., CHOBOT, K. (2014): Jemné předivo české krajiny v GIS: konsolidovaná vrstva ekosystémů. Ochrana přírody, 4, 26−30.

28. HRUŠKA, J., JOHNSON, C.E., KRÁM, P. (1996): Role of Organic Solutes in the Chemistry Of Acid‐Impacted Bog Waters of the Western Czech Republic, Water Resources Research, 32, 9, 2841−2851.

29. HRUŠKA, J., KOHLER, S., BISHOP, K. (1999): Buffering processes in a boreal dissolved organic carbon – rich stream during experimental acidification. Environmental Pollution, 106, 1, 55−65. <https://doi.org/10.1016/S0269-7491(99)00061-5>

30. HUBBARD, R.K., NEWTON, G.L., HILL, G.M. (2004): Water quality and the grazing animal. Journal of Animal Science, 82, 13, E255–E263.

31. HUGHES, A.O., QUINN, J.M. (2019): The effect of forestry management activities on stream water quality within a headwater plantation Pinus radiata forest. Forest Ecology and Management, 439, 41−54. <https://doi.org/10.1016/j.foreco.2019.02.035>

32. HŮNOVÁ, I., MAZNOVÁ, J., KURFÜRST, P. (2014): Trends in atmospheric deposition fluxes of sulphur and nitrogen in Czech forests. Environmental Pollution, 184, 668−675. <https://doi.org/10.1016/j.envpol.2013.05.013>

33. HYNČICA, M., HUTH, R. (2019): Long-term changes in precipitation phase in Czechia. Geografie, 124, 1, 41−55. <https://doi.org/10.37040/geografie2019124010041>

34. KALKUS, J. (2012): Vliv odvodňovacích příkopů na hydrologický režim lesního povodí. Master thesis, Faculty of Science, Charles University, Prague.

35. KÄNDLER, M., BLECHINGER, K., SEIDLER, CH., PAVLŮ, V., ŠANDA, M., DOSTÁL, T., KRÁSA, J., VITVAR, T., ŠTICH, M. (2017): Impact of land use on water quality in the upper Nisa catchment in the Czech Republic and in Germany. Science of The Total Environment, 586, 1316−1325. <https://doi.org/10.1016/j.scitotenv.2016.10.221>

36. KASTE, Ø., AUSTNES, K., DE WIT, H.A. (2020): Streamwater responses to reduced nitrogen deposition at four small upland catchments in Norway. Ambio, 49, 1759−1770. <https://doi.org/10.1007/s13280-020-01347-3>

37. KENDALL, M.G. (1975): Rank Correlation Methods. Griffin, London.

38. KLIMENT, Z., MATOUŠKOVÁ, M., ŠOBR, M., POTŮČKOVÁ, M., HUJSLOVÁ, J. (2008): Fluvial dynamics and selected methods of ecohydrological monitoring of restored Sviňovický brook channel. AUC–Geographica, 1−2, 125–144.

39. KLIMENT, Z., MATOUŠKOVÁ, M., LEDVINKA, O., KRÁLOVEC, V. (2011): Evaluation of trends in hydro-climatic long-term data series for selected mountains catchments. In: Středová, H., Rožnovský, J., Litschmann, T. (eds.): Mikroklima a mezoklima krajinných struktur a antropogenních prostředí. Skalní mlýn, 2, 4.2.

40. KOCUM, J., OULEHLE, F., JANSKÝ, B., BŮZEK, F., HRUŠKA, J., VLČEK, L. (2016): Geochemical evidence for peat bog contribution to the streamflow generation process: case study of the Vltava River headwaters, Czech Republic. Hydrological Sciences Journal, 61, 14, 2579−2589. <https://doi.org/10.1080/02626667.2016.1140173>

41. KOLÁŘ, T., ČERMÁK, P., OULEHLE, F., TRNKA, M., ŠTĚPÁNEK, P., CUDLÍN, P., HRUŠKA, J., BÜNTGEN, U., RYBNÍČEK, M. (2015): Pollution control enhanced spruce growth in the “Black Triangle” near the Czech-Polish border. Science of the Total Environment, 538, 703−711. <https://doi.org/10.1016/j.scitotenv.2015.08.105>

42. KRÁLOVEC, V., KLIMENT, Z., MATOUŠKOVÁ, M. (2016): Evaluation of runoff response on the basis of a comparative paired research in mountain catchments with the different land use: case study of the Blanice River, Czechia. Geografie, 121, 2, 209−234. <https://doi.org/10.37040/geografie2016121020209>

43. KULHAVÝ, Z., FUČÍK, P. (2015): Adaptation Options for Land Drainage Systems Towards Sustainable Agriculture and the Environment: A Czech Perspective. Polish Journal of Environmental Studies, 24, 3, 1085−1102. <https://doi.org/10.15244/pjoes/34963>

44. KVÍTEK, T., ŽLÁBEK, P., BYSTŘICKÝ, V., FUČÍK, P., LEXA, M., GERGEL, J., NOVÁK, P., ONDR, P. (2009): Changes of nitrate concentrations in surface waters influenced by land use in the crystalline complex of the Czech Republic. Physics and Chemistry of the Earth, 34, 541−551. <https://doi.org/10.1016/j.pce.2008.07.003>

45. LANGHAMMER, J. (2010): Water quality changes in the Elbe River Basin, Czech Republic, in the context of the post-socialist economic transition. GeoJournal, 75, 185−198. <https://doi.org/10.1007/s10708-009-9292-7>

46. MACHORDOM, A., ARAUJO, R., ERPENBECK, D., RAMOS, M. (2003): Phylogeography and conservation genetics of endangered European Margaritiferidae (Bivalvia: Unionoidea). Biological Journal of the Linnean Society, 78, 2, 235−252. <https://doi.org/10.1046/j.1095-8312.2003.00158.x>

47. MANCINI, L., FORMICHETTI, P., ANSELMO, A., TANCIONI, L., MARCHINI, S., SORACE, A. (2005): Biological quality of running waters in protected areas: the influence of size and land use. Biodiversity and Conservation, 14, 351−364. <https://doi.org/10.1007/s10531-004-5355-8>

48. MANN, H.B. (1945): Nonparametric tests against trend. Econometrica, 13, 3, 245−259. <https://doi.org/10.2307/1907187>

49. MATTSSON, T. (2010): Export of organic matter, sulphate and base cations from boreal headwater catchments downstream to the coast: Impacts of land use and climate. Ph.D. thesis, Monographs of the Boreal Environment Research, 36, 49. Edita Prima Ltd., Helsinki.

50. MCDOWELL, R., NORRIS, M. (2014): The Use of Alum to Decrease Phosphorus Losses in Runoff from Grassland Soils. Journal of Environmental Quality, 43, 5, 1635. <https://doi.org/10.2134/jeq2013.12.0479>

51. MEASOM, K.J. (2019): An HGIS Approach to Land-Use/Land-Cover Change in the Blanice Watershed, Czech Republic. Electronic Master theses, University of Denver, Denver.

52. MIDDELKOOP, H., DAAMEN, K., GELLENS, D., GRABS, W., KWADIJK, J.C.J., LANG, H., PARMET, B.W.A.H., SCHÄDLER, B., SCHULLA, J., WILKE, K. (2001): Impact of climate change on hydrological regimes and water resources management in the Rhine basin. Climatic Change, 49, 105−128. <https://doi.org/10.1023/A:1010784727448>

53. MOLONEY, T., FENTON, O., DALY, K. (2020): Ranking connectivity risk for phosphorus loss along agricultural drainage ditches. Science of The Total Environment, 703, 134556. <https://doi.org/10.1016/j.scitotenv.2019.134556>

54. NCA CR (2013): Consolidated layer of ecosystems (ESRI shapefile). Detailed Land use / Land Cover Data in 41 Classes Over the Entire Territory of the Czech Republic. Version 2013. Nature Conservation Agency of the Czech Republic, Prague.

55. OCKENDEN, M.C., DEASY, C.E., BENSKIN, C.M.W.H., BEVEN, K.J., BURKE, S., COLLINS, A.L., EVANS, R., FALLOON, P.D., FORBER, K.J., HISCOCK, K.M., HOLLAWAY, M.J., KAHANA, R., MACLEOD, C.J.A., REANEY, S.M., SNELL, M.A., VILLAMIZAR, M.L., WEARING, C., WITHERS, P.J.A., ZHOU, J.G., HAYGARTH, P.M. (2016): Changing climate and nutrient transfers: Evidence from high temporal resolution concentration-flow dynamics in headwater catchments. Science of the Total Environment, 548−549, 325–339. <https://doi.org/10.1016/j.scitotenv.2015.12.086>

56. OULEHLE, F., JANSKÝ, B. (2003): Limnologie a hydrochemismus v NPR Rejvíz. In: Janský, B., Šobr, M. (eds.): Jezera České republiky (Současný stav geografického výzkumu). Charles University, Prague, 93−108.

57. OULEHLE, F., HRUŠKA, J. (2009): Rising trends of dissolved organic matter in drinkingwater reservoirs as a result of recovery from acidification in the Ore Mts., Czech Republic, Environmental Pollution, 157, 12, 3433−3439. <https://doi.org/10.1016/j.envpol.2009.06.020>

58. OULEHLE, F., CHUMAN, T., MAJER, V., HRUŠKA, J. (2013): Chemical recovery of acidified Bohemian lakes between 1984 and 2012: the role of acid deposition and bark beetle induced forest disturbance. Biogeochemistry, 116, 83−101. <https://doi.org/10.1007/s10533-013-9865-x>

59. OULEHLE, F., KOPÁČEK, J., CHUMAN, T., ČERNOVOUS, V., HŮNOVÁ, I., HRUŠKA, J., KRÁM, P., LACHMANOVÁ, Z., NAVRÁTIL, T., ŠTĚPÁNEK, P., TESAŘ, M., EVANS, CH.D. (2016): Predicting sulphur and nitrogen deposition using a simple statistical method. Atmospheric Environment, 140, 456−468. <https://doi.org/10.1016/j.atmosenv.2016.06.028>

60. OULEHLE, F., CHUMAN, T., HRUŠKA, J., KRÁM, P., MCDOWELL, W.H., MYŠKA, O., NAVRÁTIL, T., TESAŘ, M. (2017): Recovery from acidification alters concentrations and fluxes of solutes from Czech catchments. Biogeochemistry, 132, 251−272. <https://doi.org/10.1007/s10533-017-0298-9>

61. OULEHLE, F., FISCHER, M., HRUŠKA, J., CHUMAN, T., KRÁM, P., NAVRÁTIL, T., TESAŘ, M., TRNKA, M. (2021): The GEOMON network of Czech catchments provides long-term insights into altered forest biogeochemistry: From acid atmospheric deposition to climate change. Hydrological Processes, 35, 5, e14204. <https://doi.org/10.1002/hyp.14204>

62. PEŠIĆ, A.M., BRANKOV, J., MILIJAŠEVIĆ JOKSIMOVIĆ, D. (2020): Water quality assessment and populations’ perceptions in the National park Djerdap (Serbia): key factors afecting the environment. Environment, Development and Sustainability, 22, 2365−2383. <https://doi.org/10.1007/s10668-018-0295-8>

63. PRESTON, S.J., KEYS, A., ROBERTS, D. (2007): Culturing freshwater pearl mussel Margaritifera margaritifera: a breakthrough in the conservation of an endangered species. Aquatic Conservation: Marine and Freshwater Ecosystems, 17, 5, 539−549. <https://doi.org/10.1002/aqc.799>

64. PREVOST, M., PLAMONDON, A. P, BELLEAU, P. (1999): Effects of drainage of a forested peatland on water quality and quantity. Journal of Hydrology, 214, 1−4, 130–143. <https://doi.org/10.1016/S0022-1694(98)00281-9>

65. REYNOLDS, B., EDWARDS, A.C. (1995): Factors influencing dissolved nitrogen concentrations and loadings in upland streams of the UK. Agricultural Water Management, 27, 3−4, 181–202. <https://doi.org/10.1016/0378-3774(95)01146-A>

66. SELLE, B., SCHWIENTEK, M., LISCHEID, G. (2013): Understanding processes governing water quality in catchments using principal component scores. Journal of Hydrology, 486, 31−38. <https://doi.org/10.1016/j.jhydrol.2013.01.030>

67. SEUNA, P. (1982): Influence of forestry draining on runoff and sediment discharge in the Ylijoki basin, north Finland. Aqua Fennica, 12, 3−16.

68. SIMON, O.P., VANÍČKOVÁ, I., BÍLÝ, M., DOUDA, K., PATZENHAUEROVÁ, H., HRUŠKA, J., PELTÁNOVÁ, A. (2015): The status of freshwater pearl mussel in the Czech Republic: Several successfully rejuvenated populations but the absence of natural reproduction. Limnologica, 50, 11−20. <https://doi.org/10.1016/j.limno.2014.11.004>

69. SIMON, O.P., TICHÁ, K., RAMBOUSKOVÁ, K., BÍLÝ, M., ČERNÁ, M., DORT, B., HORÁČKOVÁ, J., HRUŠKA, J., KLADIVOVÁ, V., ŠVANYGA, J., VYDROVÁ, A. (2018): Metodika podpory perlorodky říční (Margaritifera margaritifera). VÚV TGM, Prague.

70. SKEFFINGTON, R.A., COSBY, B.J., WHITEHEAD, P.G. (2016): Long-term predictions of ecosystem acidification and recovery. Science of the Total Environment, 568, 381−390. <https://doi.org/10.1016/j.scitotenv.2016.06.033>

71. SOULSBY, C., MALCOLM, R., GIBBINS, C., DILKS, C. (2001): Seasonality, water quality trends and biological responses in four streams in the Cairngorm Mountains, Scotland. European Surgical Research, 5, 3, 433−450.

72. STAPONITES, L.R., BARTÁK, V., BÍLÝ, M., SIMON, O.P. (2019): Performance of landscape composition metrics for predicting water quality in headwater catchments. Scientific Reports, 9, 14405. <https://doi.org/10.1038/s41598-019-50895-6>

73. STOECKL, K., DENIC, M., GEIST, J. (2020): Conservation status of two endangered freshwater mussel species in Bavaria, Germany: Habitat quality, threats, and implications for conservation management. Aquatic Conservation: Marine and Freshwater Ecosystems, 30, 647−661. <https://doi.org/10.1002/aqc.3310>

74. ŠVANYGA, J., SIMON, O., MINÁRIKOVÁ, T., SPISAR, O., BÍLÝ, M. (2013): Záchranný program Perlorodka říční (Margaritifera margaritifera) v České republice. NCA CR, Prague.

75. TASKINEN, J., BERG, P., SAARINEN-VALTA, M., VÄLILÄ, S., MÄENPÄÄ, E., MYLLYNEN, K., PAKKALA, J. (2011): Effect of pH, iron and aluminum on survival of early life history stages of the endangered freshwater pearl mussel, Margaritifera margaritifera, Toxicological & Environmental Chemistry, 93, 9, 1764−1777. <https://doi.org/10.1080/02772248.2011.610798>

76. THORSEN, W.A., COPE, W.G., SHEA, D. (2007): Toxicokinetics of environmental contaminants in freshwater bivalves. In: Farris, J.L., van Hassel, J.H. (eds.): Freshwater bivalve ecotoxicology. CRC Press, Boca Raton. 169−213.

77. TORRENT, J., BARBERIS, E., GIL-SOTRES, F. (2007): Agriculture as a source of phosphorus for eutrophication in southern Europe. Soil Use and Management, 23, 25−35. <https://doi.org/10.1111/j.1475-2743.2007.00122.x>

78. VUMOP (2019): Information system of amelioration, https://meliorace.vumop.cz/?core=app (20. 12. 2019).

79. VUV (2019): DIBAVOD. Water Management Geodatabase, http://www.dibavod.cz/ (8. 1. 2019).

80. WANNER, F., SIMON, O., KLADIVOVÁ, V. (2012): Decrease in the trophic status of a secondorder oligotrophic stream (Zbytinský Potok) by a new wastewater treatment plant with two low-loaded stabilisation ponds. Silva Gabreta, 18, 1, 23−34.

81. WHITEHEAD, P.G., CROSSMAN, J. (2012): Macronutrient cycles and climate change: Key science areas and an international perspective. Science of the Total Environment, 434, 13−17. <https://doi.org/10.1016/j.scitotenv.2011.08.046>