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2009 | 18 | 4 |

Tytuł artykułu

Effects of different tillage systems on fuel savings and reduction of CO2 emissions in production of silage corn in Eastern Slovenia

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Soil tillage is one of the greatest energy consumers in agriculture and also a significant contributor to CO₂ emissions. For this reason, field experiments with different tillage systems and their influence on fuel consumption and CO₂ emissions were carried out at two locations in Eastern Slovenia. Three tillage methods were researched: direct seeding after gliphosat spraying (DS-G), reduced tillage with chisel plough and seeding (RT), and conventional tillage with mouldboard plough, rotary harrow and seeding (CT). The testing crop was corn silage (Zea mays L.) in rotation after ryegrass. The highest fuel consumption was under the CT system; the CO₂ emission was 225.03 kg ha⁻¹ on silty clay loam and 188.06 kg ha⁻¹ on silty loam. The use of the DSG system saved on average 164.41 kg ha⁻¹ of diesel oil and the use of the RT system, 104.77 kg ha⁻¹. At both locations, the highest yield of dry matter was produced with CT, followed by DS-G and RT; however, on silty clay loam the difference was significant. The alternative soil tillage reduced the CO₂ emission on average by 79.45% (DS-G) and 61.07% (RT). Presuming the use of the CT system in the growing of corn silage on arable land of Eastern Slovenia would decrease from its current 93.7% by 30% as forecasted under the EU soil tillage trend, the total annual emissions of CO₂ could be reduced by 1.08 Gg, or 24.0%.

Wydawca

-

Rocznik

Tom

18

Numer

4

Opis fizyczny

p.711-716,fig.,ref.

Twórcy

autor
  • Faculty of Agriculture, University of Maribor, Vrbanska 30, 2000 Maribor, Slovenia
autor
  • Faculty of Agriculture, University of Maribor, Vrbanska 30, 2000 Maribor, Slovenia
autor
  • Biotechnical Faculty, University of Ljubljana, Jamnikarjeva 101, 1000 Ljubljana, Slovenia
autor
  • Biotechnical Faculty, University of Ljubljana, Jamnikarjeva 101, 1000 Ljubljana, Slovenia

Bibliografia

  • 1. ZUGEC I., STIPESEVIC B., KELAVA I. Rational soil tillage for cereals (Winter Wheat-Triticum aestivum L. and Spring Barley-Hordeum vulgare L.) in eastern Croatia. In: Proceedings of the 15th ISTRO Conference. Fort Worth, USA (CD-ROM), 2000.
  • 2. BAYHAN Y., KAYISOGLU B., GONULOL E., YALCIN H., SUNGUR N. Possiblities of direct drilling and reduced tillage in second crop silage corn. Soil & Tillage Research, 88, (1-2), 1, 2006.
  • 3. WEISE G., BAURARACH E.H. Tillage Machinery. In CIGR Handbook of Agricultural Engineering, ASAE, St, Joseph. pp. 184-217, 1999.
  • 4. ROBERTSON G.P., PAUL E.A., HARWOOD R.R. Greenhouse gases in intensive agriculture: contributions of individual gases to the radiative forcing of the atmosphere. Science 289, 1922, 2000.
  • 5. PELIZZI G., CAVALCHINI A., LAZZARI M. Energy Savings in Agricultural Machinery and Mechanization. Elsevier Applied Science, London/New York., 1988.
  • 6. KOGA N., TSURUTA H., TSUJI H., NAKANO H. Fuel consumptionderived CO2 emissions under conventional and reduced tillage cropping systems in northern Japan. Agric. Ecosyst. Environ. 99, 213, 2003.
  • 7. POJE T., JEJČIČ V. Poraba energije v kmetijstvu. (Energy use in agriculture) pp. 1-6, 2006. http://kazalci.arso.gov.si/kazalci/index_html?lang=1.
  • 8. TAJNŠEK A. The economy of conservation tillage in comparison to conventional tillage on the Laboratory field Jable near Ljubljana. Novi izzivi v poljedelstvu 2002 : zbornik simpozija: proceedings of symposium, [Zreče, 5. in 6. december 2002], ([Novi izzivi v poljedelstvu]). Ljubljana: Slovensko agronomsko društvo, pp. 15-22, 2002.
  • 9. FILIPOVIC D., KOSUTIC S., GOSPODARIC Z., ZIMMER R., BANAJ D. The possibilities of fuel savings and the reduction of CO₂ emissions in the soil tillage in Croatia Agriculture, Ecosystems & Environment, 115, (1-4), 290, 2006.
  • 10. KRAMBERGER B., GSELMAN A., KAPUN S., KALIGARIC M. Effect of Sowing Rate of Italian Ryegrass Drilled into Pea Stubble on Removal of Soil Mineral Nitrogen and Autumn Nitrogen Accumulation by Herbage Yield, Polish Journal of Environmental Studies, 16, (5), 705, 2007.
  • 11. STATISTICAL YEARBOOK. Eds Kuhar de Domizio A., Novak A., Statistical Office of the Republic of Slovenia, Ljubljana, 2007.
  • 12. AMERICAN PETROLEUM INSTITUTE. Compendium of Greenhouse Gas Emissions Estimation Methodologies for the Oil and Gas Industry. American Petroleum Institute, Washington, DC, 2001.
  • 13. STROPPEL A. Soil tillage machines of the future. In: Proceedings of the 25th International Symposium ‘‘Actual Tasks on Agricultural Engineering’’, Opatija, Croatia, pp. 125-129, 1997.
  • 14. BOWERS W. Agricultural field equipment. In: Fluck, R.C. (Ed.), Energy in World Agriculture. Energy in Farm Production, Elsevier, Amsterdam, 6, 117, 1992.
  • 15. KÖLLER K. Production de céréals sous labor. Revue Suisse d’agriculture, 28, 30, 1996.
  • 16. STIPESEVIC B., ZUGEC I., JURIC I., PETRAC B. Possibility of reduced soil tillage for winter wheat in East-Croatia conditions. In: Proceedings of the 14th ISTRO Conference, Pulawy, Poland, pp. 597-600, 1997.
  • 17. BONCIARELLI F., ARCHETTI R. Energy saving through reduction of soil tillage. In: Proceedings of the 15th ISTRO Conference. Fort Worth, USA (CD-ROM), 2000.
  • 18. BASCH G., TEBRŰGGE F. The importance of conservation tillage with regard to the Kyoto Protocol. In: Proceedings of the International Meeting on Climate Change and the Kyoto Protocol. Evora, Portugal (CD-ROM), 2001.
  • 19. FAO, Soil Map of the World. FAO, Rome, 1990.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

bwmeta1.element.agro-article-864dcd42-e2cf-4b8e-993c-fc66447c4f6c
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