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اثر سامانههای خاکورزی بر خصوصیات تراکمی یک خاک لوم رسی سیلتی | ||
| تحقیقات کاربردی خاک | ||
| دوره 11، شماره 3، آذر 1402، صفحه 121-135 اصل مقاله (892.09 K) | ||
| نوع مقاله: مقاله پژوهشی | ||
| شناسه دیجیتال (DOI): 10.30466/asr.2023.121401 | ||
| نویسندگان | ||
| مهسا کاظمی1؛ شجاع قربانی دشتکی* 1؛ مسعود تدین نژاد2؛ مجتبی نادری3؛ حسین شیرانی4 | ||
| 1دانشگاه شهرکرد | ||
| 2مرکز تحقیقات و آموزش کشاورزی و منابع طبیعی استان اصفهان | ||
| 3دانشیار، گروه مکانیک و بیوسیستم، دانشکده کشاورزی، دانشگاه شهرکرد | ||
| 4استاد- دانشگاه ولی عصر رفسنجان | ||
| چکیده | ||
| تراکم خاک یکی از عوامل موثر در کاهش کیفیت فیزیکی خاک است که میتواند تحت تأثیر نوع عملیات خاکورزی، رابطه بین آب، خاک و گیاه و عملکرد محصول را به شدت تحت تأثیر قرار دهد. این پژوهش با هدف بررسی تأثیر نوع سامانه خاکورزی بر مشخصههای تراکمی یک خاک با بافت لوم رسی سیلتی انجام گردید. نمونه برداری پس از سه سال خاکورزی پس از برداشت محصول جو صورت پذیرفت. نتایج در قالب طرح آماری بلوکهای کامل تصادفی با سه تیمار خاکورزی مرسوم، کمخاکورزی و بیخاکورزی در 6 تکرار تحلیل شد. مشخصههای تراکمی خاک شامل تنش پیشتراکمی، نمایه تراکم و نمایه تورم با آزمون تراکم تک محوری محصور تعیین شد. نتایج نشان داد که نوع سامانه خاکورزی اثر معنیدار بر تنش پیشتراکمی خاک در سطح احتمال 5% دارد به طوریکه کمترین مقدار تنش پیشتراکمی با مقدارkPa 95/19 مربوط به تیمارهای خاکورزی مرسوم و بیشترین مقدار آن با مقدارkPa 62/31 مربوط به تیمار بیخاکورزی میباشد. نمایه تراکم در تیمار خاکورزی مرسوم نسبت به سایر تیمارها افزایش یافت. بررسی نتایج آزمون بارگذاری سیکلی نشان داد که تیمار بیخاکورزی احتمالا به ترددهای متوالی ماشین، حساسیت کمتری داشته ولی این حساسیت در تیمارهای کمخاکورزی و مرسوم بیشتر باشد. نتایج نشان میدهد که میتوان تیمار بیخاکورزی را به عنوان یک سامانه خاکورزی با استعداد کمتر در ایجاد فشردگی خاک بیان نمود که البته اجرای مکرر آن نیاز به زیرشکنی در هر چند سال جهت از بین بردن لایههای متراکم عمیق خواهد داشت. | ||
| کلیدواژهها | ||
| خاکورزی؛ تنش پیشتراکمی؛ نمایه تراکم؛ بارگذاری سیکلی | ||
| مراجع | ||
|
Afzalinia S., Behaeen M.A., Karami A., Dezfuli A., and Ghasari A. 2011. Effect of conservation tillage on the soil properties and cotton yield. In: Proceedings of 11th International Congress on Mechanization and Energy in Agriculture, Sept., 21-23, Istanbul, Turkey, pp. 36.
Alakukku L. 1996. Persistence of soil compaction due to high axle load traffic. Short-term effects on the properties of clay and organic soils. Soil and Tillage Research, 37(4): 211-222.
Alexandrou A., and Earl R. 1995. In situ determination of the pre-compaction stress of a soil. Journal of Agricultural Engineering Research, 61(1): 67−71.
Anon 2003b. Soil Cone Penetrometer. ASAE standard S313.3. DEC94. ASAE STANDARDS. The 45th Ed. ASAE. St. Joseph. MI 49085-9659. USA.
Black G.R., and Hartge K.H. 1986. Bulk density. In: Methods of Soil Analysis. Part1. 2nd editio. ASA and SSSA. Madison. WI.
Blanco-Canqui H., Lal R., Owens L.B., Post W.M., and Izaurraide R.C. 2005. Strength properties and organic carbon of soils in the north Appalachian region. Soil Science Society American Journal, 69(3): 663-673.
Bouyoucos G.J. 1962. Hydrometer method improved for making particle size analysis of soils. Journal of Agronomy, 54(5): 464-465.
Boussinesq J. 1885. Application des Potentiels aľetudedeľe quilibre et du Mouvement des Solides E/lastiques. Gauthier-Villars. Paris.
Canillas E.C., and Salokhe V.M. 2002. Modeling compaction in agricultural soils. Journal of Terramechanics, 39(2): 71-84.
Cassel D.K., Raczkowski C.W., and Denton H.P. 1995. Tillage effects on corn production and soil physical properties. Soil Science Society American Journal, 59(5): 1436-1443.
Chaplain, V. Défossez, P. Richard, G. Tessier D., and Roger-Estrade J. 2011. Contrasted effects of no-till on bulk density of soil and mechanical resistance. Soil and Tillage Research, 111(2): 105–114.
Dawidowski J.B., and Koolen A.J. 1994. Computerized determination of the pre-consolidation stress in compaction testing of field core samples. Soil and Tillage Research, 31(2-3): 277-282.
Ekwue E.I., Birch R.A. and Chadee N.R. 2014. A comparison of four instruments for measuring the effects of organic matter on the strength of compacted agricultural soils. Biosystems Engineering. 127: 176–188.
Etana A., and Comia R. 1995. Effects of uniaxial stress on the physical properties of four soils. In: Compaction effects of mechanical stress of some Swedish arable soils (Ph. D. Thesis), Reports and Dissertations 24, Department of Soil Sciences, Swedish University of Agricultural Sciences, Uppsala, Sweden.
Ghuman B.S., and lal R. 1992. Effects of soil wetness at the time of land clearing on physical properties and crop response on an ultisoil in southern Nigeria. Soil and Tillage Research. 22(1-2), 1-11.
Erbach D.C., Benjamin J.G., Cruse R.M., Elamin A., Mukhtar S., and Choi H. 1992. Soil and corn response to tillage with Paraplow. Transaction of the American Society of Agricultural and Biological Engineers, 35(5): 1347-1354.
Fuentes J.P., Flury M., and Bezdicek D. 2004. Hydraulic properties in a silt loam soil under natural prairie, conventional till, and no-till. Soil Science Society American Journal, 68(5): 1679-1688.
Gompertz B. 1825. On the nature of the function expressive of the law of human mortality, and on a new mode of determining the value of life contingencies. Philosophical Transactions of Royal Society of London, 115: 513–585.
Gregory A.S., Whalley W.R., Watts C.W., Bird N.R.A., Hallett P.D., and Whitmore A.P. 2006. Calculation of the compression index and precompression stress from soil compression test data. Soil and Tillage Research, 89(1): 45-57.
Halfmann D. 2005. Management system effects on water infiltration and soil physical properties (M. Sc. Thesis), Faculty of Texas Tech University.
Håkansson I. 1988. A method for characterizing the state of compactness of the plough soil. Soil and Tillage Research, 16(1-2): 105-120.
Hamza M.A., and Anderson W.K. 2005. Soil compaction in cropping systems: A review of the nature, causes and possible solutions. Soil and Tillage. Research, 82(2): 121−145.
Horn R. 1988. Compressibility of arable lands. In: J., Drescher, R., Horn, and M., de Boodt (Eds.) Impact of water and external forces on soil structure. Catena, Supplement 11. pp. 53-71. Catena. Cremligen-Destedt.
Horn R., Taubner H., Wuttke M., and Baumgartl T. 1994. Soil physical properties related to soil structure. Soil and Tillage Research, 30(2-4): 187-216.
Imhoff S., Da Silva A.P., and Fallow D. 2004. Susceptibility to compaction, load support capacity, and soil compressibility of Hapludox. Soil Science Society American Journal, 68(1): 17–24.
Keller T., and Arvidsson J. 2007. Compressive properties of some Swedish and Danish structured agricultural soils measured in uniaxial compression tests. European Journal of Soil Science, 58(6): 1373–1381.
Keller T., Arvidsson J., Dawidowski J.B., and Koolen A.J. 2004. Soil precompression stress II. A comparison of different tests and stress displacement behaviour of the soil during wheeling. Soil and Tillage Research, 77(1): 97-108.
Keller T., Arvidsson J., Schjonning P., Lamande M., Stettler M., and Weisskopf. P. 2012. In situ subsoil Stress-Strain behavior in relation to soil Precompression stress. Soil Science Society American Journal, 177: 490-497.
Keller T., Lamande M., Schjonning P., and Dexter A.R. 2011. Analysis of soil compression curves from uniaxial confined compression tests. Geoderma, 163(1-2): 13–23.
Koolen A.J., 1974. A method for soil compatibility determination. Journal of Agricultural Engineering Research. 19: 271−278.
Kulli B., Gysi M., and Flühler H. 2003. Visualizing soil compaction based on flow pattern analysis. Soil and Tillage Research, 70(1): 29-40.
Lipiec J., Szustak S., and Tarkiewicz S. 1992. Soil compaction: responses of soil physical properties and crop growth. Zeszyty Problemowe Poste˛pów Nauk Rolniczych, 398: 113–117.
Logsdion S.D., Karspar T.C., and Cambardella C.A. 1999. Depth incremental soil properties under no-till or chisel management. Soil Science Society American Journal, 63(1): 197-200.
Mileusnic Z.I., Petrovic D.V., and Devic M.S. 2010. Comparison of tillage systems according to fuel consumption. Energy, 35(1): 221-228.
Minaei S. 1984. Multipass effects of wheel and track type vehicles on soil compaction (M. SC. Thesis), Virginia Polytechnic Institute and State University.
Mosaddeghi M.R., Hemmat A., Hajabbasi M.A., and Vafaeian M. 2006. Plate sinkage versus confined compression tests for in situ soil compressibly studies. Biosystems Engineering, 93: 325-334.
Naderi-Boldaji M., Alimardani R., Hemmat A., Sharifi A., Keyhani A., Tekeste M.Z., and Keller T. 2014. 3D finite element simulation of a single-tip horizontal penetrometer– soil interaction. Part II: soil bin verification of the model in a clay loam soil. Soil and Tillage Research, 144: 211–219.
O’Sullivan M.F. 1992. Uniaxial compaction effects on soil physical properties in relation to soil type and cultivation. Soil and Tillage Research, 24(3): 257–269.
Paz A., and Gue Rif J. 2000. Influence of initial packing density, water content and load applied during compaction on tensile strength of dry soil structural units. Advances in Geoecology, 32(1): 55–63.
Peth S., and Horn R. 2006. The mechanical behavior of structured and homogenized soil under repeated loading. Journal of Plant Nutrition Soil Science, 169(3): 401–410.
Peth S., Rostek J., Zink A., Mordhorst A., and Horn R. 2010. Soil testing of dynamic deformation processes of arable soils. Soil and Tillage Research, 106(2): 317–328.
Pytka J. 2001. Load effected upon soil stress and deformation state in structured and disturbed sandy loam for two tillage treatments. Soil and tillage Research, 59(1-2):13-25.
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(1): 77-88.
Römkens M.J.M., and Miller R.D. 1971. Predicting root size and frequency fromone-dimensional consolidation data: a mathematical model. Plant and Soil, 35: 237−248.
Roseberg R., and McCoy E. 1992. Tillage-and traffic-induced changes in macroporosity and macropore continuity: air permeability assessment. Soil Science Society of America Journal, 56(4): 1261-1267.
Rücknagel J., Hofmann B., Paul R., Christen O., and Hülsbergen K.J. 2007. Estimating precompression stress of structured soils on the basis of aggregate density and dry bulk density. Soil and Tillage Research, 63: 1309–1313.
Reynaldo C.A., Stenberg M., Nelson P., Redberg T., and Håkansson H. 1994. Soil and crop responses to different tillage systems. Soil and Tillage Research, 29: 335-355.
Schjønning P., and Lamandé M. 2018. Models for prediction of soil pre-compression stress from readily available soil properties. Geoderma, 320:115-125.
Silva R.B., Lancas K.P., and Miranda E.E.V. 2005. Prediction and spatial variability of soil dynamic properties in sugar cane field of Sao Paulo State-Brazil, European Conference on Precision Agriculture, Uppsala, Sweden. 5th Ed. pp. 441–448.
Skaalsveen K., Ingrama J., and Clarke L.E. 2019. The effect of no-till farming on the soil functions of water purification and retention in north-western Europe: A literature review. Soil and Tillage Research, 189: 98–109.
Soane B.D. 1990. The role of organic matter in soil compactibility: a review of some practical aspects. Soil and Tillage Research, 16(1-2): 179–201.
Sohne W. 1958. Fundamentals of pressure distribution and soil compaction under tractor tires. Agricultural Engineering 39(1): 276-281.
Tang A.M., Cui Y.J., Eslami J., and Defossez P. 2009. Analyzing the form of the confined uniaxial compression curve of various soils. Geoderma, 149(3-4): 282-290.
Wiermann C., Werner D., Horn R., Rostek J., and Werner B. 2000. Stress/strain processes in a structured unsaturated silty loam Luvisol under different tillage treatments in Germany. Soil and Tillage Research, 53(2): 117-128.
Veenhof D.W., and MaBride R.A. 1996. Overconsolidation in agricultural soils: I. Compression and consolidation behavior of remolded and structured soils. Soil Science Society of America Journal, 60(1): 362-373.
Wuddivira, M.N., Stone R.J. and Ekwue E.I. 2013. Influence of cohesive and disruptive forces on strength and erodibility of tropical soils. Soil and Tillage Research, 133: 40-48.
Zhang H., and Hartge K.H. 1995. Mechanical properties of soils as influenced by the incorporation of organic matter. IN: K. H. Hartge, and B. A. Stewart, (Eds). Soil structure, its development and function. CRC Press, Boca Raton, USA. pp. 93-108. | ||
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