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article: 1 from 1  
2005, vol. 29, iss. 1, pp. 187-194
Effects of organic and conventional production systems on organic matter content in chernozem
aUniversity of Novi Sad, Faculty of Agriculture
bInstitute of Field and Vegetable Crops, Novi Sad

emailmajacuv@polj.ns.ac.yu
Abstract
In this paper, in on-farm research, the effects of organic and conventional production systems on content of organic matter in Chernozem were compared. Preliminary results indicate that there were significant differences between some locations. Significantly lower organic matter content was measured on location Ljutovo (2,49%), compared to Čenej (3,17%) and Bačko Gradište (3,14%). In organic production systems which include manure application content of organic matter is equal or higher compared to conventional production systems. The lowest organic matter content was measured in crop rotations which include summer barley, regardless production systems or location.
References
Albert, E. (2001) Effect of long-term different mineral and organic fertilization on yields, humus content, net N-mineralization and balance. Arch Acker-Pfl. Boden, 46, 197-21
Čuvardić, M. (2005) Uticaj agrotehničkih mera na rezerve organskog ugljenika u černozemu. in: Kongres Društva za proučavanje zemljišta Srbije i Crne Gore. Zemljište kao resurs odrzivog razvoja (XI), 13-16 septembar 2005, Budva, Plenarni referati i apstrakti, 74
Čuvardić, M., Tveitnes, S., Krogstad, T., Lombnaes, P. (2004) Long-term effects of crop rotation and different fertilization systems on soil fertility and productivity. Acta Agriculturae Scandinavica Section B-Soil and Plant Science, vol. 54, br. 4, str. 193-201
Dersch, G., Bohm, K. (2001) Effects of agronomic practices on the soil carbon storage potential in arable farming in Austria. Nutrient Cycling in Agroecosystems, 60 (1-3), 49-55
Jarecki, M.K., Lai, R., James, R. (2004) Crop management on soil carbon sequestration on selected farmers' fields in northeastern Ohio. Soil and Tillage Research
Lal, R. (1999) Soil management and restoration for C sequestration to mitigate the accelerated greenhouse effect. Progress in Environmental Science, 1(4), 307-326
Loveland, P., Webb, J. (2003) Is there a critical level of organic matter n the agricultural soils of temperate regions: A review. Soil and Tillage Research, 70, 1-18
Reeves, D.W. (1997) The role of soil organic matter in maintaining soil quality in continuous cropping systems. Soil and Tillage Research, 43, 131-167
Schulz, E. (2004) Influence of site conditions and management on different soil organic matter (SOM) pools. Archives of Agronomy and Soil Science, 50, 33-47
 

About

article language: Serbian
document type: Original Scientific Paper
published in SCIndeks: 02/06/2007

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