Soil considerations in cultivation of plants

• Autorzy: Bulinski J. , Sergiel L.

Warianty tytułu

PL

Glebowe uwarunkowania w uprawie roślin

• Języki publikacji: EN

Abstrakty

EN

Soil considerations in cultivation of plants. There are analyzed the results of investigations on the effect of tractor outfit traffic over the field on the plant growth conditions. Changes in soil compaction, density and porosity influenced by compacting by wheels are presented in relations to optimal values. The effect of excessive soil compaction on development of root system and absorption of nutrients are presented.

PL

Glebowe uwarunkowania w uprawie roślin. Praca analizuje wyniki badań nad kształtowaniem optymalnych warunków dla wzrostu i rozwoju roślin. Jednym z głównych czynników wpływających na niekorzystne zmiany stanu gleby jest nadmierne jej zagęszczenie przejazdami agregatów ciągnikowych. Przedstawiono zmiany zachodzące w glebie pod wpływem ugniatania, krytyczne (dla roślin) wartości takich parametrów, jak: zwięzłość, gęstość porowatość gleby, naprężenia w strefie rozwoju korzeni. Omówiono niektóre działania natury technicznej, eksploatacyjnej i organizacyjne zmierzające do ograniczenia niekorzystnych skutków związanych z przejazdami agregatów ciągnikowych.

Słowa kluczowe

EN

soil compaction; plant cultivation; plant growth condition; soil property; soil density; soil porosity

• Wydawca: -
• Czasopismo: Annals of Warsaw University of Life Sciences - SGGW. Agriculture
• Rocznik: 2013
• Numer: 61 Agric.Forest Eng.
• Opis fizyczny: p.5-15,ref.

Twórcy

autor

Bulinski J.

• Department of Agricultural and Forest Machinery, Warsaw University of Life Sciences - SGGW, Nowoursynowska 166, 02-787 Warsaw, Poland

autor

Sergiel L.

• Department of Agricultural and Forest Machinery, Warsaw University of Life Sciences - SGGW, Nowoursynowska 166, 02-787 Warsaw, Poland

Bibliografia

• ABU-HAMDEH N.H. 2003: Soil compaction and root distribution for okra as affected by tillageand vehicle parameters. Soil and Tillage Research74. p. 25–35.
• AHMADA N., HASSAN F.U., BELFORD R.K. 2009: Effect of soil compaction in the sub-humidcropping environment in Pakistan on uptakeof NPK and grain yield in wheat (Triticumaestivum). I. Compaction. Field Crops Research110, p. 4–60.
• ALAKUKKU L. 2000: Response of Annual Crops to Subsoil Compaction in a Field Experiment on Clay Soil Lasting 17 Years. Advances in GeoEcology 32. Catena Verlag, Reiskirchen, Germany, p. 205–208.
• ALAOUI A., LIPIEC J., GERKE H.H. 2011: A review of the changes in the soil pore systemdue to soil deformation: A hydrodynamic perspective.Soil and Tillage Research 115–116,p. 1–15.
• ANSORGE D., GODWIN R.J. 2007: The effect of tyres and a rubber track at high axle loads on soil compaction: Part 1: Single Axle Studies.Biosystems Engineering 98 (1), p. 115–126.
• ARVIDSSON J., KELLER T. 2007: Soil stress as affected by wheel load and tyre inflation pressure.Soil and Tillage Research 96, p. 284–291.
• ATWELL B.J. 1993: Response of roots to mechanical impedance. Environmental and ExperimentalBotany 33, p. 27–40.
• BAKKEN A.K., BRANDSÆTER L.O., ELTUN R., HANSEN S., MANGERUD K., POMMERESCHE R., RILEY H. 2009: Effect of tractorweight, depth of ploughing and wheel placement during ploughing in an organic cereal rotation on contrasting soils. Soil & TillageResearch 103, p. 433–441.
• BECERRA A.T., BOTTA G.F., BRAVO X.L., TOURN M.F., MELCON B., VAZQUEZ J.,RIVERO D., LINARES P., NARDON G. 2010:Soil compaction distribution under tractor trafficin almond (Prunus amigdalus L.) orchard inAlmerý´a Espan˜a. Soil and Tillage Research107, p. 49–56.
• BELL M. 1994: Rain to grain – red soils. Should I worry about soil compaction. Edit. QueenslandDepartment of Primary Industries, p. 153.
• BERLI M., KULLI B., ATTINGER W., KELLER M., LEUENBERGER J., FLÜHLER H., SPRINGMAN S.M., SCHULIN R. 2003:Compaction of Agricultural and forest soils bytracked heavy construction machinery. Soil andTillage Research 75, p. 37–52.
• BEYLICH A., OBERHOLZER H.R., SCHRADER S., HÖPER H., WILKE B.M. 2010: Evaluation of soil compaction effects on soil biota and soil biological processes in soils. Soil and Tillage Research 109, p. 133–143.
• BOTTA G., POZZOLO O., BOMBEN M., ROSATTO H., RIVERO D., RESSIA M., TOURN M., SOZA E., VA´ZQUEZ J. 2007: Traffic alternatives in harvest of soybean (Glycine max L.): Effect on yields and soil under direct sowing system. Soil and Tillage Research96, p. 145–154.
• BOTTA G.F., JORAJURIA D., BALBUENA R., ROSATTO H. 2004: Mechanical and croppingbehavior of direct drilled soil under differenttraffic intensities: effect on soybean (Glycinemax L.) yields. Soil and Tillage Research 78,p. 53–58.
• BOTTA G.F., JORAJURIA D., DRAGHI L.M. 2002: Influence of the axle load, tyre size andconfiguration on the compaction of a freshlytilled clayey soil. Journal of Terramechanics39, p. 47–54.
• BUCHTER B., HAUSLER S., SCHULIN R., WEISSKOPF P., TOBIAS S. 2004: Definitionund Erfassung von BodenschadverdichtungenPositionspapier der BGS-Plattform Bodenschutz.BGS Dokument 13, p. 56.
• BULIŃSKI J. 1998: Zagęszczenie gleby w różnych technologiach i związane z tym oporyorki. Rozprawy naukowe i monografie. Wyd.SGGW Warszawa, s. 140.
• BULIŃSKI J. 2000: Wpływ prędkości ruchu i rodzaju agregatu ciągnikowego na zagęszczanie gleby kołami. Inżynieria Rolnicza 6 (17), s. 111–117.
• BULIŃSKI J. 2001: Evaluation of intensity of compacting action of agricultural tractor and machinery wheels on soil. Annals of WarsawAgricultural University. Agriculture, (AgriculturalEngineering) No 41, p. 33–38.
• BULIŃSKI J. 2006: Możliwości ograniczenia ugniatania gleby kołami pojazdów rolniczych. Postępy Nauk Rolniczych nr 4, s. 31–42.
• BULIŃSKI J., NIEMCZYK H. 2007: Effect of moisture content in soil on its compaction caused by multiple running of agriculturalvehicles. Annals of Warsaw Agricultural University – SGGW, Agriculture (AgriculturalEngineering) No 50. p. 3–8.
• BYGDÉNA G., ELIASSONB L., WÄSTERLUND I. 2003: Rut depth, soil compaction and rolling resistance when using bogie tracks. Journal of Terramechanics. Vol. 40, p. 179–190.
• CANARCHE A.I., COLIBAS M., COLIBASI., HOROBEANU V., PATRU H., SIMOTA H., TRANDAFIRESCU I. 1984: Effect of induced compaction by wheel traffic on soil physical properties and yield of maize in Romania. Soil and Tillage Research 4, p. 199–213.
• CANILLAS E.C., SALOKHE V.M. 2001: Regression analysis of some factors influencingsoil compaction. Soil and Tillage Research 61,p. 167–178.
• CANILLAS E.C., SALOKHE V.M. 2002: Modeling compaction in agricultural soils. Journal ofTerramechanics 39, p. 71–84.
• CARMAN K. 2002: Compaction characteristics of towed wheels on clay loam in soil bin. Soiland Tillage Research 65, p. 37–43.
• CARMAN K. 2008: Prediction of soil compaction under pneumatic tires a using fuzzy logic approach. Journal of Terramechanics 45,p. 103–108.
• CHAN K.Y., OATES A., SWAN A.D., HAYES R.C., DEAR B.S., PEOPLES M.B. 2006: Agronomic consequences of tractor wheel compaction on a clay soil. Soil and Tillage Research 89, p. 13–21.
• COPAS M.E., BUSSAN A.J., DRILIAS M.J., WOLKOWSKI R.P., 2009: Potato Yield and Quality Response to Subsoil Tillage and Compaction. Agronomy Journal Vol. 101, Issue 1, p. 82–90.
• CZYŻ E.A., TOMASZEWSKA J. 1993: Changes of aeration conditions and the yield of sugar beet on sandy soil of different density. Polish Journal of Soil Science 26, 1, p. 1–9.
• CZYŻ E.A. 2004: Effects of traffic on soil aeration, bulk density and growth of spring barley. Soil and Tillage Research 79, p. 153–166.
• DANFORS B. 1974: Packning i alven. Swedish Institute of Agricultural Engineering, Uppsala, Sweden. Rep. S 24, 91 p. 16.
• DAWIDOWSKI J.B., MORRISON J.E., ŚNIEG M. 2001: Measurement of soil layer strengthwith plate sinkage and uniaxial confined methods.Transactions of ASAE 44, p. 1059–1064.
• DEFOSSEZ P., RICHARD G. 2002: Models of soil compaction due to traffic and their evaluation.Soil and Tillage Research 67, p. 41–64.
• DEFOSSEZ P., RICHARD G., BOIZARD H., O’SULLIVAN M.F. 2003: Modeling change in soil compaction due to agricultural traffic as function of soil water content. Geoderma 116, p. 89–105.
• DISERENS E. 2009: Calculating the contact area of trailer tyres in the field. Soil and Tillage Research 103, p. 302–309.
• ELWALEED A.K., YAHYA A., ZOHADIE M., AHMAD D., KHEIRALLA A.F. 2006: Effect of inflation pressure on motion resistance ratio of a high-lug agricultural tyre. Journal of Terramechanics 43, p. 69–84.
• FARIAS N.E. 1994: Physical of Soils. Editorial Trillas, Mexico, p. 287.
• GREČENKO A. 2003: Tire load rating to reduce soil compaction. Journal of Terramechanics 40. p. 97–115.
• GREČENKO A., PRIKNER P. 2009: Progress in tire rating based on soil compaction potential. Journal of Terramechanics 46, p. 211–216.
• GUTMAŃSKI I. 1991: Produkcja buraka cukrowego. PWRiL, Poznań.
• HÅKANSSON I. 1994: Subsoil compaction caused by heavy vehicles – a long term threat to soil productivity. Soil and Tillage Research, Vol. 29, p. 105–110.
• HÅKANSSON I., LIPIEC J. 2000: A review of the usefulness of relative bulk density values in studies of soil structure and compaction. Soiland Tillage Research, 53, p. 71–85.
• HÅKANSSON I., REEDER R.C. 1994: Subsoil compaction by vehicles with high axle load – extent, persistence and crop response. Soiland Tillage Research. 29, p. 277–304.
• HORN R., van den AKKER J.J.H., ARVIDSON J. (Eds.) 2000: Subsoil Compaction – Distribution, Processes and Consequences. Advancesin GeoEcology 32. Catena Verlag, Reiskirchen,p. 462.
• JURGA J. 2008: Wpływ wielokrotnego przejazdu ciągnika na zmiany naprężeń pod kołami oraz przyrosty gęstości objętościowej gliny lekkiej. Inżynieria Rolnicza 10 (108), s. 81–87.
• KAŹMIEROWSKI C. 2011: Gleboznawstwo. Fizyczne właściwości gleb. Ćwiczenie 3: Podstawowe fizyczne właściwości gleb. Zakład Gle boznawstwa i Teledetekcji Gleb UAM Poznań, s. 11.
• KELLER T., LAMANDÉ M. 2010: Challenges in the development of analytical soil compaction models. Soil and Tillage Research 111, p. 54–64.
• KURJENLUOMA J., ALAKUKKU L., AHOKAS J. 2009: Rolling resistance and rut formation by implement tyres on tilled clay soil. Journal f Terramechanics 46. p. 267–275.
• LIPIEC J., MEDVEDEV V.V., BIRKAS M., DUMITRU E., LYNDINA T.E., ROUSSEVA S.,FULAJTÁR E. 2003: Effect of soil compactionon root growth and crop yield in Central andEastern Europe. International Agrophysics 17,p. 61–69.
• LIPIEC J., HÅKANSSON I. 2000: Influences of degree of compactness and matric water tension on some important plant growth factors. Soil and Tillage Research 53, p. 87–94.
• LIPIEC J., REJMAN J. 2007: Gleba pod kołami. Zagęszczenie i erozja gleby zmienia środowisko. Badania w toku. Agrofizyka ACADEMIA, Nr 3 (11) 2007, p. 38–39.
• LIPIEC J., STĘPNIEWSKI W. 1995: Effect of soil compaction and tillage systems on uptake and losses of nutrients. Soil and Tillage Research Vol. 35, nr 1–2, p. 37–52.
• NASR H.M., SELLES F. 1995: Seeding emergence as influenced by aggregate size, bulk density and penetration resistance of the seedbed. Soil and Tillage Research 34, p. 61–76.
• NOGTIKOV A.A. 2004: Vlijanie parametrow MTA na upłotnienie pocvy. Traktory I Sel’choz masziny 6, p. 41–42.
• NOSALEWICZ A. 2005: Ocena wpływu przejazdów ciężkich maszyn rolniczych na zagęszczenie gleby przy użyciu modelu SOCOMO. Acta Agrophysica 6. (3), s. 753–759.
• PABIN J., LIPIEC J., WLODEK S., BISKUPSKI A., KAUS A. 1998: Critical soil bulk density and strength for pea seedling root growth asrelated to other soil factors. Soil and TillageResearch 46, p. 203–208.
• PABIN J., WŁODEK S., BISKUPSKI A. 2008: Niektóre uwarunkowania środowiskowe i produkcyjne przy stosowaniu uproszczonych sposobów uprawy roli. Inżynieria Rolnicza 1(99),p. 333–338.
• PAGLIAI M., MARSILI A., SERVADIO P., VIGNOZZI N., PELLEGRINI S. 2003: Changes in some physical properties of a clay soil in central Italy following the passage of rubber tracked and wheeled tractors of medium power.Soil and Tillage Research 73, p. 119–129.
• PAGLIAI M., VIGNOZZI N., PELLEGRINI S. 2004: Soil structure and the effect of managementractices. Soil and Tillage Research 79, p. 131–143.
• POWAŁKA M, BULIŃSKI J. 2005: Wpływ technicznych parametrów opon ciągnikowychi sztywności podłoża na wielkość powierzchnipodparcia koła. Inżynieria Rolnicza 4 (64),s. 155–163.
• POWAŁKA M. 2005: Wpływ nacisków kół ciągników rolniczych na zagęszczenie gleby. Rozprawa doktorska. Wydział Inżynierii Produkcji SGGW. Warszawa, s. 84.
• PYTKA J. 2005: Effects of repeated rolling of agricultural tractors on soil stress and deformation state in sand and loess. Soil and Tillage Research 82, p. 77–88.
• RADFORD B.J., YULE D.F., McGARRY D., PLAYFORD C. 2001: Crop responses to appliedsoil compaction repair treatments. Soiland Tillage Research 65, p. 263–251.
• RAPER R.L., SCHWAB E.B., BALKCOM K.S., BURMESTER C.H., REEVES D.W. 2005: Effect of annual, biennial, and triennial inrowsubsoiling on soil compaction and cottonyield in southeastern U.S. silt loam soils.Applied Engineering in Agriculture 21 (3),p. 337–343.
• REEVES T.J., HAINES P.J., COVENTRY R.R. 1984: Growth of wheat and subterranean cloveron soil artifically compacted at variousdepth. Plant and Soil 89, p. 135–138.
• RICHARD G., COUSIN I., SILLON J., BRUAND F.A., GUÉRIF J. 2001: Effect of compaction onthe porosity of a silty soil: influence on unsaturatedhydraulic properties. European Journal ofSoil Science, Vol. 52, Issue 1, p. 49–58.
• RUSANOV V.A. 1994: USSR standards for agricultural mobile machinery: permissible influences on soils and methods to estimate contact pressure and stress at a depth of 0.5 m. Soil and Tillage Research 29, p. 249–252.
• SÁNCHEZ-GIRÓN V., ANDREU E., HERNANZ J.L. 1998: Response of five types of soil to simulated compaction in the form of confined uniaxial compression tests. Soil and Tillage Research 48 (2), p. 37–50.
• SCHJØNNING P., LAMANDE´ M., TØGERSEN F.A., PEDERSEN J., HANSEN P.O.M. 2006: Reduction of soil compaction. Magnitude and distribution of stress in the contact area between wheel and soil. Report No Markbrug 127, 102pp. The Danish institute of Agricultural Sciences, Tjele; Denmark (in Danish with English Summary).
• SOMMER C., PETELKAU H. 1990: Bodenverdichtung – Definition, Messmethoden, Analyse, Losungsansatze und offene Fragen. Landtechnik.Jg. 45, nr 11, p. 404-407.
• STARCZEWSKI J., RADECKI A., SKRZYCZYŃSKA J. 1995. Podstawy Uprawy Roślin.WSRP. Siedlce, p. 312.
• SWEENEY D.W., KIRKHAM M.B., SISSON J.B. 2006: Crop and Soil Response to Wheel--Track Compaction of a Claypan Soil. AgronomyJournal. 98, p. 637–643.
• ŚNIEG M., BŁAŻEJCZAK D., DAWIDOWSKI J.B., TOMASZEWICZ T. 2008: Badanie podatnościna zagęszczanie podornej warstwyczarnej ziemi gliniastej. Inżynieria Rolnicza 5(103), p. 315–322.
• TEEPE R., BRUMME R., BEESE F., LUDIG B. 2004: Nitrous oxide emission and methane consumption following compaction of forest soils. Soil Science Society of America Journal68. p. 605–611.
• TULLBERG J.N., YULE D.F., McGARRY D. 2007: Controlled traffic farming – from research to adoption in Australia. Soil and Tillage Research 97 (2), p. 272–281.
• 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 and Tillage Research 73, p. 1–8.
• Van OUVERKERK C., SOANE B.D. 1994: Conclusions and recommendations for further research on soil compaction in crop production. Soil Compaction in Crop Production. Developmentsin Agricultural Engineering, 11. Elsevier,Amsterdam p. 627–642.
• WALCZYK M. 1995. Wybrane techniczne i technologiczne aspekty ugniatania gleb rolniczych agregatami ciągnikowymi. Zeszyty Naukowe AR Kraków. Rozprawy (202), p. 108.
• WAY T.R., KISHIMOTO T., BURT E.C., BAILEY A.C. 1998: Tractor tire aspect ratio effects on soil stresses and rut depths. Transactions of ASAE 40, p. 871–881.
• WONG J.Y. 2001: Theory of ground vehicles, 3rd ed. New York, Wiley; p. 528.