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dc.contributor.authorNiewiadomski, Arkadiusz
dc.contributor.authorTołoczko, Wojciech
dc.date.accessioned2014-10-22T09:38:56Z
dc.date.available2014-10-22T09:38:56Z
dc.date.issued2014
dc.identifier.isbn978-83-7969-134-0
dc.identifier.urihttp://hdl.handle.net/11089/5595
dc.descriptionPublished in: Natural environment of Poland and its protection in Łódź University Geographical Research, edited by E. Kobojek and T.Marszałpl_PL
dc.description.abstractThe vast majority (as much as 92%) of soil resources in Poland occur in lowlands and uplands, and only 8% of the area of Poland has the characteristics of mountain soils. Nearly a half (46%) of soils in Poland is created of sandy formations of various origins – usually with a slightly acidic pH. Soils of the Łódź region were mainly formed from sands, and to a lesser degree from clays, silts and organogenic formations. Brown, lessive, podzolic and rusty soils dominate here. Chernozems, fensoils, organogenic soils (peat, muck and silt soils) and rendzinas are also present. Owing to their sandy grain-size composition, they are most often light and very light for cultivation. Most soils are acidified. Socioeconomic and natural conditions have determined the utilisation structure of soils in the Łódź region, where arable lands constitute 60% of the area and grasslands – less than 10%.pl_PL
dc.language.isoenpl_PL
dc.publisherŁódź University Presspl_PL
dc.relation.ispartofNatural environment of Poland and its protection in Łódź University Geographical Research, edited by E. Kobojek and T.Marszał, Łódź University Press, Łódź 2014, ISBN 978-83-7969-134-0
dc.rightsUznanie autorstwa-Użycie niekomercyjne-Bez utworów zależnych 3.0 Polska*
dc.rights.urihttp://creativecommons.org/licenses/by-nc-nd/3.0/pl/*
dc.titleCharacteristics of soil cover in Poland with special attention paid to the Łódź regionpl_PL
dc.typeBook chapterpl_PL
dc.contributor.authorAffiliationUniversity of Łódź, Faculty of Geographical Sciences, Department of Physical Geographypl_PL
dc.referencesBaran S., Oleszczuk P., 2003, Changes in the content of Polycyclic Aromatic Hydrocarbons (PAHs) in light soil fertilized with sewage sludge, J. Env. Sci. Heal. A, 38 (5), pp. 793–805.
dc.referencesBednarek R., Dziadowiec H., Pokojska U., Prusinkiewicz Z., 2004, Ecological-soil Scientific Research, PWN, Warszawa (in Polish).
dc.referencesBednarek R., Prusinkiewicz Z., 1999, Soil Geography, PWN, Warszawa (in Polish).
dc.referencesBer A., 2005, Polish Pleistocene stratigraphy – a review of interglacial stratotypes, Neth. J. Geosci., 84 (2), pp. 61–76.
dc.referencesBrundrett M., 1991, Myccorhizas in natural ecosystems. (In:) Begon M., Fitter A.H., MacFadyen A. (eds.), Advances in Ecological Research, Academic Press, London, pp. 171–313.
dc.referencesDegórski M., 1985, An investigation into the spatial variability of continentality in West and Central Europe by the Ellenberg method, Docum. Phytosoc., 9, pp. 337–349.
dc.referencesDegórski M., 1987, Dynamics of the reaction and sulphate sulphur in soil as an indicator of antropogenic pressure on forest habitat conditions, Ekol. Pol., 35 (3–4), pp. 775–799.
dc.referencesDegórski M., 1995, Direction of soil degradation in Poland, Aquilo Ser. Bot., 35, pp. 53–63.
dc.referencesDegórski M., 1997, Potential and actual contamination of soil in Poland, 3rd Int. Symp. and Exhib. on Environmental Contamination in Central and Eastern Europe, Florida State Univ., pp. 917–920.
dc.referencesDegórski M., 1998, Spatial and vertical distribution of soil physico-chemical properties and the content of heavy metals in the pedosphere in Poland, Proc. of the Int. Symp. on Air Pollution and Climate Change Effects on Forest Ecosystems, Pacific Southwest Research Station, USDA Forest Service General Report, PSW-GTR, 166, pp. 169–179.
dc.referencesDegórski M., Gworek B., 1997, Heavy metals in diagnostic surface horizons in Białowieża National Park, Pol. J. Environ. Stud., 6, Suplement, pp. 37–39.
dc.referencesFertilizer Use by Crop in Poland, 2003, FAO, Rome, pp. 1–49.
dc.referencesJankowski M., Bednarek R., 2000, Quantitative and qualitative changes of properties as basis for distinguishing development stages of soils formed from dune sands, Pol. J. Soil Sci., 33 (2), pp. 61–69.
dc.referencesJones A., Montarella L., Jones R., 2005, Soil Atlas of Europe, European Soil Bureau Network, European Commission.
dc.referencesKabała C., Chodak T., 2000, General characteristic of the environmental factors in South-Western Poland and the description of the typical soil profiles. In: Comparison of Polish and German Soils Classification Systems for Soil Cartography of the Mountain and Sub-mountain Areas, PTG– DBG, Wrocław, pp. 135–151.
dc.referencesKaszubkiewicz J., Kawałko D., Perlak Z., 2010, Concentration of policyclic aromatic hydrocarbons in surface horizon of soils in immediate neighborhood of illegal waste dumps in the district of Jelenia Góra, Pol. J. Env. Stud., 19 (1), pp. 73–82.
dc.referencesKołodziej J., 2008, Forming of climatic water balance in Poland in the years 1981–2000, Infrastr. Ekol. Ter. Wiejs., 5, pp. 85–97.
dc.referencesKrasowicz S., Oleszek W., Horabik J., Dębicki R., Jankowiak J., Stuczyński T., Jadczyszyn J., 2011, Rational management of the soil environment in Poland, Pol. J. Agron., 7, pp. 43–58.
dc.referencesLaskowski S., 1993, Soil cover. (In:) Pączka S. (ed.), Geographical Environment of Central Poland, Wyd. UŁ, Łódź, pp. 135–159 (in Polish).
dc.referencesLaskowski S., Tołoczko W., 1995, Environmental assessment of soil surrounded by urban-industrial agglomeration of Zgierz, Zesz. Probl. Post. Nauk Roln., 418, pp. 313–320 (in Polish).
dc.referencesLaskowski S., Tołoczko W., 1998, Changes of soil reaction and sulphur content in soils under the impact of urban-industrial agglomeration of Zgierz, Zesz. Probl. Post. Nauk Roln., 456, pp. 343–351 (in Polish).
dc.referencesLaskowski S., Tołoczko W., 2001, Alterations of some chemical and physico-chemical properties of selected soils in field ecosystems, Acta Agroph., 50, pp. 177–188.
dc.referencesLaskowski S., Tołoczko W., 2003, Content of benzo(a)pirene, anthracene i fenentrene in soils located near roads with different traffic, Zesz. Probl. Post. Nauk Roln., 493, pp. 193–199 (in Polish).
dc.referencesLaskowski S., Tołoczko W., Rólka M., 2001, Content of Pb, Zn i Cu in soils located near roads with different traffic in the vicinity of Lodz, Acta Agroph., 56, pp. 137–144 (in Polish).
dc.referencesLaskowski S., Trawczyńska A., Tołoczko W., 2005, Polycyclic aromatic hydrocarbons (PAHs) in arable soils in proximity of communication tracts near Lodz city, Ecol. Chem. Eng., 12 (7), pp. 709–715.
dc.referencesLaskowski S., Trawczyńska A., Tołoczko W., 2006, Influence of irrigation on some chemical properties of very lightfan soils of the Ner Valley, Ecol. Chem. Eng., 13 (1–2), pp. 79–84.
dc.referencesLekan S., Terelak H., 1997, Diversity of soil and agricultural environment in Poland, Mat. konf. nauk. nt. „Ochrona i wykorzystanie rolniczej przestrzeni produkcyjnej Polski”, Puławy, pp. 7–21 (in Polish).
dc.referencesMaliszewska-Kordybach B., Smreczak B., Klimkowicz-Pawlas A., Terelak H., 2008, Monitoring of the total content of polycyclic aromatic hydrocarbons (PAHs) in arable soils in Poland, Chemosphere, 73, pp. 1284–1291.
dc.referencesManikowska B., 1998, Aeolian deposits and fossil soils in dunes of Central Poland – the dune in Kamion. (In:) Dunes and Fossil Soils of Vistulian and Holocene Age between Elbe and Wisła, AMU, Poznań, pp. 92–97
dc.referencesManikowska B., 2001, Fossil paleosols and pedogenetic periods in the evolution of Central Poland environment after the Wartian Glaciation. (In:) Manikowska B., Konecka-Betley K., Bednarek R. (eds.), Problems of Paleopedology in Poland, Wyd. ŁTN, Łódź, pp. 165–212.
dc.referencesMocek A., Drzymała S., 2010, Genesis, Analysis and Classification of Soils, Wyd. Uniw. Przyrod., Poznań (in Polish).
dc.referencesNiedźwiedź T., 1992, Climate of the Tatra Mountains, Mount. Res. Dev., 12 (2), pp. 131–146.
dc.referencesNiewiadomski A., Tołoczko W., 2005, The characteristics of soil environement in the influence zone communal landfill in Zgniłe Błoto, Zesz. Probl. Post. Nauk Roln., 505, pp. 273–279 (in Polish).
dc.referencesOleszczuk P., 2006, Persistence of polycyclic aromatic hydrocarbons (PAHs) in sewage sludge-amended soil, Chemosphere, 65 (9), pp. 1616–1626.
dc.referencesOleszek W., Terelak H., Maliszewska-Kordybach B., Kukuła S., 2003, Soil, food and agroproduct contamination monitoring in Poland, Pol. J. Env. Stud., 12 (3), pp. 261–268.
dc.referencesOstaszewska K., 2008, Soil regions of Poland according to AG Boden criteria, Misc. Geogr., 13, pp. 121–132.
dc.referencesPolish Soil Classification, 2011, Rocz. Gleboz./Soil Sci. Ann. 62 (3), pp. 1–142.
dc.referencesRegulation of the Minister of the Environment of the protected wild plants, 2004a, Dz. U., 168, 1764 (in Polish).
dc.referencesRegulation of the Minister of the Environment of the protected wild mushrooms species, 2004b. Dz. U., 168, 1765 (in Polish).
dc.referencesSkłodowski P., Bielska A., 2009, Properties and fertility of soils in Poland – A basis for the formation of agro-environmental relations, Woda Środ. Obsz. Wiejs., 9, 4 (28), pp. 203–214 (in Polish).
dc.referencesSlankis V., 1974, Soil factors influencing formation of Mycorrhizae, Ann. Rev. Phytopath., 12, pp. 437–457.
dc.referencesTołoczko W., Niewiadomski A., Trawczyńska A., 2009, Influence of salinity on the sorptive features in soils of Lodz city centre, Ecol. Chem. Eng. A, 16 (4), pp. 465–474.
dc.referencesTrawczyńska A., Tołoczko W., 2005a, Content of Cu, Pb, Zn and Cd in soils and ground water of the soils of Bzura River Valley, (In:) Gworek B. (ed.), Circuit of Elements in Nature – Monography, vol. 3, IOŚ, Warszawa, pp. 169–173.
dc.referencesTrawczyńska A., Tołoczko W., 2005b, Content of heavy metals in ground water of the soil of Bzura river valley, Chem. Inż. Ekol., 12 (1–2), pp. 121–126.
dc.referencesTrawczyńska A., Tołoczko W., 2006, Content and profile arrangement of total and sulphate sulphur in soils of greenlands of Bzura River Valley, Ecol. Chem. Eng., 13 (1–2), pp. 139–145.
dc.referencesTołoczko W., Trawczyńska A., Niewiadomski A., 2009, Content of organic compounds in soils fertilized with EM preparation, Rocz. Gleboz., 60 (1), pp. 97–101 (in Polish).
dc.referencesTurkowska K., 2006, Geomorphology of Łódź Region, Wyd. UŁ, Łódź.
dc.referencesWawer R., Nowocień E., Podolski B., 2010, Actual water erosion risk in Poland based upon Corine Land Cover 2006, J. Pol. Agric. Univ., 13 (2), http://www.ejpau.media.pl/volume13/issue2/art-13.html
dc.referencesWorld Reference Base for Soils Resources 2006 (2007), World Soil Resources Reports, 103, FAO, Rome.


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