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The Changes in Physicochemical Properties in Soils Subjected to Many Years of Reclamation

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The work under the conditions of the micropark experience analyzes the impact related to the method of mineral wool application and various reclamation methods on the physicochemical changes in the soilless track devastated by mining sulfur. Our results showed that the tested waste, as well as its manner of application to the soil, had a positive influence on the physical and chemical properties of degraded soils. The most beneficial impact was recorded under the conditions of the mineral wool association in the top layer of the soil (0–25 cm) of sewage sludge.
Rocznik
Strony
47--53
Opis fizyczny
Bibliogr. 36 poz., rys., tab.
Twórcy
  • Institute of Soil Science, Engineering and Environmental Management, University of Life Sciences in Lublin, Leszczyńskiego 7, 20-069 Lublin, Poland
  • Institute of Soil Science, Engineering and Environmental Management, University of Life Sciences in Lublin, Leszczyńskiego 7, 20-069 Lublin, Poland
  • Institute of Soil Science, Engineering and Environmental Management, University of Life Sciences in Lublin, Leszczyńskiego 7, 20-069 Lublin, Poland
  • Institute of Soil Science, Engineering and Environmental Management, University of Life Sciences in Lublin, Leszczyńskiego 7, 20-069 Lublin, Poland
  • Institute of Soil Science, Engineering and Environmental Management, University of Life Sciences in Lublin, Leszczyńskiego 7, 20-069 Lublin, Poland
Bibliografia
  • 1. An, S., Li, H., Guan, B., Zhou, C., Wang, Z., Deng, Z., Jiang, J., 2007. China’s natural wetlands: past problems, current status, and future challenges. AMBIO: A Journal of the Human Environment, 36(4), 335–343.
  • 2. Baran, S., 2008. Possibilities of using Grodan mineral wool to shape water properties of soils and grounds. Problem Notebooks of Progress of Agricultural Sciences, 533, 15–19.
  • 3. Baran, S., Wójcikowska-Kapusta, A., Żukowska, G., Bik, M., 2008. Sorption properties of a soilless soil recultivated with sewage sludge and mineral wool. Problem Notebooks of Progress of Agricultural Sciences, 533, 39–47.
  • 4. Baran, S., Wójcikowska-Kapusta, A., Żukowska, G., Bik, M., Szewczuk, Cz., Zawadzki, K., 2012. The role of mineral wool and sewage sludge in shaping the nitrogen content in the recultivated soilless soil. Chemical Industry, 91, 6, 1259–1262.
  • 5. Baran, S., Wójcikowska-Kapusta, A., Żukowska, G., Strzałka, A., Bik, M., Strzałka, D., 2010. Possibilities of using waste mineral wool from crops under covers to increase soil productivity and their reclamation in degraded areas. Substantive report. UP Lublin.
  • 6. Bowszys, T., Wierzbowska, J., Sternik, P., Busse, M.K., 2015. Effect of the application of sewage sludge compost on the content and leaching of zinc and copper from soils under agricultural use. Journal of Ecological Engineering, 16(1).
  • 7. Bryk, M., Kołodziej, B., 2009. Reclamation problems for the area of a former borehole sulfur mine with particular reference to soil air properties. Land Degrad. Dev., 20, 509–521.
  • 8. Cui, J., Liu, C., Li, Z., Wang, L., Chen, X., Ye, Z., & Fang, C.,2012. Long-term changes in topsoil chemical properties under centuries of cultivation after reclamation of coastal wetlands in the Yangtze Estuary, China. Soil and Tillage Research, 123, 50–60.
  • 9. Czajkowski, R., Dzieidzic, W., Kostuch, R., Maślanka, K., 2009. Estimation of selected elements of environment on recultivated terrains of sulphur mine ‘Jeziórko’ (in Polish). Acta Sci. Pol., 13,1, 3–18.
  • 10. Czekała, J., Jakubus, M., 1999. Heavy metals and polycyclic aromatic hydrocarbons as integral components of sewage sludge. Foil Universitatis Agriculturae Stetinensis. Agricultura 77, 39–44.
  • 11. Ellis, S., Atherton, J.K., 2003. Properties and development of soils on reclaimed alluvial sediments of the Humber estuary, eastern England. Catena 52, 129–147.
  • 12. Healy, M.G., & Hickey, K.R.,2002. Historic land reclamation in the intertidal wetlands of the Shannon estuary, western Ireland. Journal of Coastal Research, 36(sp1), 365–374.
  • 13. Hu, J., Lin, X., Yin, R., Chu, H., Wang, J., Zhang, H., & Cao, Z.,2008. Comparison of fertility characteristics in paddy soils of different ages in Cixi, Zhejiang. Plant Nutr. Fertil. Sci, 14, 673–677.
  • 14. Jaroszuk-Sierocka, M., 2007. Właściwości wodnopowietrzne wełny mineralnej Grodan Master, Acta Agrophysica, 10,1, 113–120
  • 15. Joniec, J., Fruczak, J., Kwiatkowska, E., 2015. Application of biological indicators for estimation of remediation of soil degraded by sulphur industry. Ecological Chemistry Eng. S, 22, 269–283.
  • 16. Joniec, J. ,2019. Indicators of microbial activity in the assessment of soil conditio subjected to several years of reclamation. Ecological Indicators 98, 686–693.
  • 17. Józefowska, A., Woś, B., Pietrzykowski, M., 2016. Tree species and soil substrate effects on soil biota during early soil forming stages at afforested mine sites. Appl. Soil Ecol., 102, 70–79.
  • 18. Kaniuczak, J., 2007. Selected physicochemical and chemical properties of post-mining land in the area after the Sulfur Mine Jeziorko. Problem Notebooks of Progress of Agricultural Sciences, 520, 93–99.
  • 19. Klimont, K., Góral, S., Jońca, M., 2001. Flotation lime as a soil substrate. Biopreparations in environmental protection and use, land protection and reclamation. PTIE, Ecological Engineering, 105–114.
  • 20. Knap, R., Kaniuczak, J., Hajduk, E., Szewczyk, A., 2016. Properties of degraded and reclaimed soils in the area of the abandoned ‘Jeziórko’ sulfur mine (Poland). Soil Sci. Ann., 67, 163–172.
  • 21. Krzywy, E., Wołoszyk, Cz., Iżewska, A., 2000a. Assessment of suitability for fertilizing composts from sewage sludge from municipal treatment plants. Vol. I. Yielding the reclamation grass mixture in field cultivation. Univ foil. Agric. Stein. Agricultura 84, 199–204.
  • 22. Martyn, W., Jońca, M., 2006. Selected chemical properties of surface waters in the area of former sulphur mine” Jeziórko” as an indicator of condition of environment after reclamation of mining areas (in Polish). Acta Agrophys., 8,2, 449–458.
  • 23. Olson, N.C. , 2010. Quantifying the effectiveness of soil remediation techniques in compact urban soils.
  • 24. Olson N.C., Gulliver J.S., Nieber J.L., Kayhanian M., 2013. Remediation to improve infiltration into compact soil. J. Environ. Manag., 117, 85–95.
  • 25. Ossola, A., Hahs, A.K., & Livesley, S.J. (2015). Habitat complexity influences fine scale hydrological processes and the incidence of stormwater runoff in managed urban ecosystems. Journal of Environmental Management, 159, 1–10.
  • 26. Oświęcimski, W., 1996. Current trends in the use of inorganic substrates in cultivation under cover. Problem Notebooks of Progress of Agricultural Sciences, 429, 9–13.
  • 27. Siuta, J., 2016. Istota i zadania inżynierii ekologicznej (ekoinżynierii). Inżynieria Ekologiczna.
  • 28. Siwik-Ziomek, A., Brzezińska, M., Lemanowicz, J., Koper, J., Szarlip, P., 2018. Biological parameters in technogenic soils of a former sulphur mine. Int. Agrophys., 32, 237–245.
  • 29. Warzybok, W., 2000. Reclamation of the mining areas of the „Jeziórko” Sulfur Mine, Materials of the Scientific and Technical Conference – Baranów Sandomierski. Environmental Engineering, 121–133.
  • 30. Wójcikowska-Kapusta, A., Baran, S., Żukowska, G., 2012. Impact of sewage sludge on the content of zinc and lead in reclaimed land. Chemical Industry, 6.
  • 31. Wolff, W.J., 1992. The end of a tradition: 1000 years of embankment and reclamation of wetlands in the Netherlands. Ambio, 287–291.
  • 32. Wysocka-Owczarek, M., 2001.Tomatoes under shelter – traditional cultivationand modern. Second Edition, Hortpress, Sp.z.o.o., Warsaw.
  • 33. Yoon, C.G., 2009. Wise use of paddy rice fields to partially compensate for the loss of natural wetlands. Paddy and Water Environment, 7,4, 357.
  • 34. Zedler, J.B., & Kercher, S.,2005. Wetland resources: status, trends, ecosystem services, and restorability. Annu. Rev. Environ. Resour., 30, 39–74.
  • 35. Zou, P., Fu, J., & Cao, Z., 2011. Chronosequence of paddy soils and phosphorus sorption–desorption properties. Journal of soils and sediments, 11,2, 249–259.
  • 36. Żukowska, G., Flis-Bujak, M., Baran, S., 2012. Impact of sewage sludge fertilization on the organic matter of light soil under wicker cultivation. Organic waste and the protection and productivity of agrocenosis. Acta Agrophysica 73, 357–367.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-7cbc8d21-3395-49b6-a6df-52c09c74ee83
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