Soil Physical Properties Due to Different Tillage Systems in Dryland Regions of Northwestern Iran

Author

Department of Soil Science, College of Agriculture, Isfahan University of Technology, Isfahan 84154,

Abstract

Lack of sufficient information on conservation tillage systems leads to the dominating use of conventional tillage practice in most parts of Iran. Testing other management practices may help in decision making regarding the types of tillage systems that reduce soil deterioration. A three- years field experiment was conducted to study the effects of conventional (CT), reduced (RT) and no-till (NT) tillage systems on soil physical characteristics. A split block design with three replications in a soil (fine mixed, mesic, Calsixerollic Xerochrepts) in Maragheh Dryland Agricultural Research Station (northwest of Iran) was used. Soil texture, bulk density (BD), moisture content (MC), penetration resistance (PR), organic matter (OM), mean weight diameter (MWD) and aggregate size distribution (ASD) were measured over a period of 3 years. No differences were obtained among the tillage systems for BD at 0-15 cm depth. At 15-30 cm, NT resulted in a lower (~10%) BD compared to the other treatments. Soil moisture content was about 18% higher in NT and 11% in RT compared to CT. Soil penetration resistance was 0.5 MPa higher in NT than CT or RT. No-till resulted in an increase in OM (~1 g kg-1) compared to the other treatments. No differences were obtained among the treatments for aggregate size distribution. The relatively higher amount of moisture and organic matter for the conservational practices in this dry area may appear to be numerically low and negligible, but in a long run may improve the sustainability of beneficial soil conditions.
 
REFERENCES
Angers, D. A. and Mehuys, G. R. (1989) Effects of cropping on carbohydrate content and water-stable aggregation of a clay soil. Can J. Soil Sci. 69, 373- 380.
Azevedo D. M., Landivar J. A., Vieira, R. M. and Moseley, D. W. (1996) The effect of cover crop and crop rotation on cotton: Soil- plantrelationship, in P. Dugger and D. A. Richter, ed., Proc. Beltwide Cotton Conf., Nashville, TN, USA. pp 1405– 1410,
Bauer, A., Black, A. L. (1981) Soil carbon, nitrogen, and bulk density comparison in two cropland tillage systems after 25 years in virgin grassland. Soil Sci. Soc. Am. J. 45, 1160- 1170.
Blake, G. R. (1992) Bulk density, in A. Klute, ed., Methods of soil analysis. Part1. American Society of Agronomy, Madison Wisconsin, USA. pp 363- 375
Bruce, R. R., Langdale, G. W. and Dillard, A. L. (1990) Tillage and crop rotation effect on characteristics of a sandy surface soil. Soil Sci. Soc. Am. J. 54, 1744– 1747.
Brun., L. J. and Enz, J. W., Larsen, J. K. and Fanning, C. (1986) Springtime evaporation from bare and stubble- covered soil. J. Soil Water Conserv. 41, 120– 122.
Cassagrande, A. (1948) Classification and identification of soils. Trans. ASCE 113, 919-925.
Choudhary, M. A., Lal, A. R. and Dick, W. A. (1997) Long- term tillage effects on runoff and erosion under simulated rainfall for a central Ohio soil. Soil Tillage Res. 42, 175- 184.
Dao, T. H. (1998) tillage and trop residue effects on carbon dioxide evolution and carbon storage in a paleustoll. Soil Sci. Soc. Am. J. 62, 250– 256.
Franzluebbers, A. J., Hons, F. M. and Zuberer, D. A. (1995) Tillage- induced seasonal changes on soil physical properties affecting soil CO2 evolution under intense cropping. Soil Tillage Res. 34, 41– 60.
Gee, G. W. and J. W. Bauder. (1992). Particle size analysis, in A. Klute ed., Methods of soil analysis. Part 1. American Society of Agronomy, Madison Wisconsin. pp. 383- 411.
Gerard, C. J., Sexton, P. and Shaw, G. (1982) Physical factors influencing soil strength and root growth. Agron. J. 74, 875- 879.
Hajabbasi, M. A. and Hemmat, A. (2000) Tillage impacts on aggregate stability and crop productivity in a clay- loam soil in central Iran. Soil Till. Res. 53 , 207- 214.
 Hillel, D. (1998) Environmental Soil Physics. Academc Press, New York. pp. 65.
 Horne, D. J., Ross, C. W. and Hughes, K. A. (1992) Ten years of a maize/ oats rotation under three tillage systems on a silt loam in New Zealand: I. A comparison of some soil properties. Soil Tillage Res. 22, 131–143.
Jones, C. A. (1983) Effect of soil texture on critical bulk densities for root growth. Soil Sci. Soc. Am J. 47, 1208-1211.
Karlen, D. L. (1990) Conservation tillage research needs. J. Soil Water Conserv. 45, 365- 369
Kemper, W. D. and Rosenau, R. C. (1992) Aggregate stability and size distribution, in A. Klute, ed., Methods of soil analysis. Part 1. American Society of Agronomy, Madison Wisconsin, USA. pp. 425- 440
Klute, A. (1992) Methods of soil analysis. Part 1, ed., Physical and Mineralogical Methods American Society of Agronomy, Madison Wisconsin. pp. 45-98
Lafond, G. P., Loeppky, H. and Fowler, D. B. (1992) The effects of tillage systems and crop rotations on soil water conservation, seedling establishment and crop yield. Can. J. Plant Sci. 72,103– 115.
Logsdon, S. D. and Cambardella, C. A. (2000) Temporal changes in small depth incremental soil bulk density. Soil Sci. Soc. Am. J. 64, 710– 714
Logsdon, S. D., Allmaras, R. R., Nelson, W. W. and Voorhees, W.B. (1992) Persistence of subsoil compaction from heavy axle loads. Soil Tillage Res. 23, 95– 110.
Medeiros, J. C., Serrano, R. E. Martos, J. L. H. and Giron, V. S. (1996) Effects of various tillage systems on structure development Hajabbasi 97 in a Haploxeralf central Spain. Soil Technology 11, 197- 204
Naderman, G. C., (1991) Effects of crop residue and tillage practices on water infiltration and crop production, in W. L. Hargrove, ed., Cover crops for clean water. Jackson, TN, USA. pp 23– 24
Paustian, K., Collins, H. P. and Paul, E. A. (1997) Management controls on soil carbon, in Paul E. A., K. Paustian, Elliot, E. T. and Vole, C. V. eds., Organic matter in emperate agroecosystems. CRC Press, Boca Raton, FL, USA, pp 15- 49,
SAS Institute. (1995) SAS/STAT guide for personal computers. Version 6. SAS Inst., Cary, NY, USA.
Six, J., E. T. Elliott, and Paustian, K. (1999) Aggregate and Soil Organic Matter Dynamics under Conventional and NoTillage Systems. Soil Sci. Soc. Am. J. 63, 1350– 1358.
Smart, J. R., and Bradford, J. M. (1996) Notillage and reduced tillage cotton production in South Texas, in P. Dugger and D.A. Richter ed. Proc. Beltwide Cotton Conf., Nashville, TN, USA pp 1397– 1401.
 Soane, B. D.,. Dikson, J. W and Campbell, D. J. (1982) Compaction by agricultural vehicle: A review. III. Incidence and control of compaction in crop production. Soil and Till. Res. 2, 3- 36.
Steel, R. G. D., and Torrie, J. H. (1986) Principles and Procedures of Statistics. McGraw-Hill, New York.
Steiner, J. L., Schomberg, H. H. Unger, P. W. and Cresap, J. (1999) Crop Residue Decomposition in No-Tillage Small-Grain Fields. Soil Sci. Soc. Am. J. 63, 1817– 1824
Taylor, H. M., (1974) Root Behavior as Affected by Soil Structure and Strength, in E. W. Carson ed. The plant root and its environment. The University Press of Virginia Charlottesville, VA, USA pp. 271- 291.
Tisdall, J. M., and Oades, J. M. (1982) Organic carbon and water stable aggregates in soils. J. Soil Sci. 33, 141- 161.
Unger, P. W., and Parker, J. J. (1976) Soil and water management and conservation: Evaporation reduction from soil with wheat, sorghum, and cotton residues. Soil Sci. Soc. Am. J. 40, 938– 942.
Unger, P. W., Jones, O. R., McClenagan, J. D. and Stewart, B. A. (1998) Aggregation of Soil Cropped to Dryland Wheat and Grain Sorghum. Soil Sci. Soc. Am. J. 62, 1659– 1666.
Voorhees, W. B., and Lindstrom, M. J. (1984) Long- term effects of tillage method on soil tilth independent of wheel traffic compaction. Soil Sci. Soc. Am. J. 48, 152– 156.
Walkly, A. and Black, I. A. (1934) An examination of digestion method for determining soilorganic matter and a proposed modification of the chromic acid titration. Soil Sci. 37, 29- 38.
Walley F. L., Lafond, G. P., Matus, A. andvan Kessel, C. (1999) Water-Use Efficiency and Carbon Isotopic Composition in Reduced Tillage Systems Soil Sci. Soc. Am. J. 63, 356– 361
Yang, X. M. and Wander, M. M. (1999) Tillage effects on soil organic carbon distribution and storage in a silt loam soil in Illinois. Soil and Tillage Res. 52, 1- 9

Keywords