1. bookVolume 21 (2017): Issue 1 (March 2017)
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12 Mar 2016
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access type Open Access

Evaluation of Subsoil Compaction of Plastic Soils

Online veröffentlicht: 06 Apr 2017
Seitenbereich: 85 - 94
Eingereicht: 01 Oct 2016
Akzeptiert: 01 Nov 2016
Zeitschriftendaten
License
Format
Zeitschrift
Erstveröffentlichung
12 Mar 2016
Erscheinungsweise
4 Hefte pro Jahr
Sprachen
Englisch

The objective of the research was to evaluate soil compaction with selected indexes and to determine the relation between them including results obtained with Proctor’s method. Measurements of penetration resistance and shear vane, dry density of soil particles (ρd) and their moisture were made in layers in the following depths: 25-30, 35-40, 45-50 and 55-60 cm. Moreover, the maximum volumetric density of soil particles, particles size distribution, content of calcium carbonate and humus, density of solid particles, reaction, plastic and liquid limit were determined with Proctor's method (ρds). Also, packing density and natural density were measured. It was found out that the investigated soils may be generally included to excessively compacted and susceptible to compaction to an average and small degree. It was shown that soil may be recognized as excessively compacted when the quotient ρdds exceeds the value of 0.87.

Aragón, A., García, M.G., Filgueira, R.R., Pachepsky, Ya.A. (2000). Maximum compactibility of Argentine soils from the Proctor test; The relationship with organic carbon and water content. Soil and Tillage Research, 56, 197-204.Search in Google Scholar

Barzegar, A.R., Asoodar, M. A., Ansari, M. (2000). Effectiveness of sugarcane residue incorporation at different water contents and the Proctor compaction loads in reducing soil compactibility. Soil & Tillage Research, 57, 167-172.Search in Google Scholar

Błażejczak, D. (2010). Prognozowanie naprężenia granicznego w warstwie podornej gleb ugniatanych kołami pojazdów rolniczych. Wyd. ZUT w Szczecinie. ISBN 978-83-7663-050-2.Search in Google Scholar

Błażejczak, D., Dawidowski, J.B. (2013). Problem wykorzystania gęstości objętościowej gleby w ocenie jej zagęszczenia. Journal of Research and Applications in Agricultural Engineering, Vol. 58(1), 17-20.Search in Google Scholar

Carter, M. R. (1990). Relative measures of soil bulk density to characterize compaction in tillage studies on fine sandy loams. Canadian Journal of Soil Science, 70, 425-433.Search in Google Scholar

Dobrzański B. Zawadzki S. (red.), (1993): Gleboznawstwo. PWRiL, Warszawa, ISBN 83-09-00083-9.Search in Google Scholar

Gregorich, E. G., Carter, M.R. (1997). Soil quality for crop production and ecosystem health. Developments in soil science 25. Elsevier, Amsterdam, ISBN 0-444-86661-5.Search in Google Scholar

Hakansson, I., Lipiec, J. (2000). A revive of the usefulness of relative bulk density values in studies of soil structure and compaction. Soil and Tillage Research, 53, 71-85.Search in Google Scholar

Iancu, M. (2001). Technique for Reducing Subsoil Compaction of Pedogenetic Origin. Proceedings of the 3rd INCO Copernicus Workshop on Subsoil Compaction, Busteni-Romania, June 14-18, 2001, 437-451.Search in Google Scholar

Jones, R. J. A., Spoor, G., Thomasson A. J. (2003). Vulnerability of subsoil in Europe to compaction: a preliminary analysis. Soil & Tillage Research, 73, 131-143.Search in Google Scholar

Komornicki, T., Zasoński, S. (1965). Powtarzalność wyników oznaczeń niektórych właściwości fizycznych gleb. Roczniki Gleboznawcze, T. XV, z. 2. PWN Warszawa, 315-330.Search in Google Scholar

Krasowicz, S., Oleszek, W., Horabik, J., Dębicki, R., Jankowiak, J., Stuczyński, T., Jadczyszyn, J. (2011). Racjonalne gospodarowanie środowiskiem glebowym Polski. Polish Journal of Agronomy, 7, 43-58.Search in Google Scholar

Kumar D., Bansal M. L., Phogat V. K. (2009). Compactability in relation to texture and organic matter content of alluvial soils. Indian Journal of Agricultural Research,43(3), 180-186.Search in Google Scholar

PN-88/B-04481 (1988). Grunty budowlane. Badania próbek gruntu.Search in Google Scholar

Soane, B.D., Blackwell, P.S., Dickson, J.W., Painter, D.J., (1980/1981). Compaction by agricultural vehicles: a review. I. Soil and wheel characteristics. Soil & Tillage Research. 23, 207-237.Search in Google Scholar

Szeptycki, A. (2003). Wpływ ciężkich maszyn rolniczych na fizykomechaniczne właściwości gleby. Journal of Research and Application in Agricultural Engineering, 48(2), 38-42.Search in Google Scholar

Van den Akker, J. J. H., Arvidsson, J., Horn, R. (2003). Introduction to the special issue on experiences with the impact and prevention of subsoil compaction in the European Union. Soil & Tillage Research, 73, 1-8.Search in Google Scholar

Wagner, L. E., Ambe, N. M., Ding D. (1994). Estimating a Proctor Density Curve from Intrinsic Soil Properties. Transactions of the ASAE, 37(4), 1121-1125.Search in Google Scholar

Wojtasik, M. (1995). Gęstość naturalna gleb mineralnych. WSP Bydgoszcz. ISBN 83-7096-076-6. Search in Google Scholar

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