Accumulation of Organic Carbon in Reclaimed Soils Dumping Grounds : Bełchatów, Machów, Turów

• Autorzy: Stanisław Gruszczyński
• Języki publikacji: EN

Abstrakty

EN

The paper presents the diversity of soil organic carbon (SOC) contents in soils of three reclaimed objects: external dumping grounds of mines Bełchatów, Machów and Turów. Sites vary in soil texture, age of tree stands and their species composition. The largest carbon pool in the organic level (litter) is in a dumping ground for the Turów mine, - the oldest of the objects. Similarly, the total SOC pool in the organic layer and the mineral to 30 cm deep in the soil is the largest dumping ground, Turów. The average annual increase in SOC stocks varied from about 0.5 t/ha/year in Bełchatów, after more than 1.2 t/ha/year in Machów. The annual deposition of organic carbon can be estimated at 1.7-2.5 t / ha / year.(original abstract)

Słowa kluczowe

EN

Reclamation of soil; Coal mining

PL

Rekultywacja gleb; Wydobycie węgla

• Czasopismo: Infrastruktura i Ekologia Terenów Wiejskich
• Rocznik: 2015
• Numer: nr IV/4
• Strony: 1417--1436

Twórcy

autor

Stanisław Gruszczyński

• University of Science and Technology in Krakow

Bibliografia

• Akala V.A., Lal R. (2000). Potential of mine land reclamation for soil organic carbon sequestration in Ohio. Land Degradation & Development, 11(3), 289-297
• Coleman K., Jenkinson D.S. (1996). RothC.-26.3, A model for the turnover of carbon in soil. In: Evaluation of Soil Organic Matter Models using Existing LongTerm Datasets (eds D.S. Powlson, P.Smith & J.U. Smith), 237, NATO ASI Series I, Vol.38, Springer-Verlag, Heidelberg.
• Commission Decision of 10 June 2010 on guidelines for the calculation of land carbon stocks for the purpose of Annex V to Directive 2009/28/EC (notified under document C(2010) 3751). Official Journal of the European Union L 151/19 17.6.2010
• Faloon P.D. (2001). Large scale spatial modelling of soil organic carbon dynamics, Thesis submitted to University of Nottingham For the degree of Doctor of Philosophy
• Friedman, J.H. (1991). Multivariate Adaptive Regression Splines. The Annals of Statistics, 19(1)
• Gruszczyński S., Eckes T., Gołda T., Sroka K., Trafas M., Wojtanowicz P. (2014). Akumulacja węgla organicznego w utworach bezglebowych, zrekultywowanych dla leśnego kierunku zagospodarowania. Krakow. Wydawnictwa AGH, 2014- 1 optical drive. - 100 p. - (Wydawnictwa Naukowe / AGH Krakow University of Science and Technology; KU 0564)
• Jekabsons G. (2013). ARESLab: Adaptive Regression Splines Toolbox for Matlab/Octave. http://www.cs.rtu.lv/jekabsons/ access: 15.10.2015
• Jones C., McConnell, C., Coleman, K., Cox, P., Falloon, P., Jenkinson, D., Powlson, D. (2005). Global climate change and soil carbon stocks; predictions from two contrasting models for the turnover of organic carbon in soil. Global Change Biology, 11, 154-166.
• Lal R. (2004). Agricultural activities and the global carbon cycle. Nutrient Cycling in Agroecosystems, 70, 103-116, Kluwer Academic Publishers. Printed in the Netherlands 2004.
• Lal R. (2007). Carbon Management in Agricultural Soils . Mitigation and Adaptation Strategies for Global Change (2007), 12, 303-322 Springer 2006
• Müller M.J. (1982). Selected climatic data for a global set of standard stations for vegetation science. Dr. W. Junk, Publishers. The Hague
• Scharnagl B., Vrugt J.A., Vereecken H., Herbst M. (2010). Information content of incubation experiments for inverse estimation of pools in the Rothamsted carbon model: a Bayesian perspective, Biogeosciences, 7, 763-776. DOI:10.5194/ bg-7-763-2010,
• Van-Camp L., Bujarrabal B., Gentile A-R., Jones R.J.A., Montanarella L., Olazabal C. & Selvaradjou S-K. (2004). Reports of the Technical Working Groups Established under the Thematic Strategy for Soil Protection. EUR 21319 EN/2, 872 pp. Office for Official Publications of the European Communities, Luxembourg
• Wójcik J. (2013). Możliwości zwiększania sekwestracji węgla w ekosystemach leśnych w warunkach zmian klimatycznych. Gromadzenie węgla w glebie, ochrona materii organicznej Panel Ekspertów "Klimat", Lasy i drewno a zmiany klimatyczne: zagrożenia i szanse, Instytut Badawczy Leśnictwa
• Yaron B., Calvet R., Prost R. (1996). Soil pollution. Processes and dynamics. Springer

Identyfikatory

DOI

http://dx.medra.org/10.14597/infraeco.2015.4.4.102