A field study was
conducted to evaluate the effect of organic mulches and tillage practices on growth,
yield of cluster bean and soil physical properties. Experiment was comprised of
two factors: A (Tillage), B (Mulches). Factor A was assigned to main plot and
consisted of two treatments (Minimum tillage and Conventional tillage). Factor
B was assigned to sub plot and consisted of four treatments (no mulch, wheat
straw mulch, grass clipping mulch and saw dust mulch). The mulching materials
were partially incorporated in the field after germination of crop. The experiment
was laid out in Randomized Complete Block Design (RCBD) with split plot
arrangement having three replications. Control treatment was kept for
comparison. All other agronomic practices were kept standardized and consistent
for all the treatments. Data regarding growth and yield components were
collected and analyzed statistically by fisher analysis of variance and
treatment significance was measured by significant difference test at 5%
probability level. The factors, tillage and mulches significantly affected
growth, yield, yield parameters and soil physical properties. Maximum plant
population (31.7 m2), plant height (159 cm), branches per plant (18.9),
cluster per plant (15.88), grains per pod (7.3), 1000-grain weight (34.6 g),
grain yield (1.9 t•ha-1), biological yield (9.91 t•ha-1)
and harvest index (19.15) was recorded in conventional tillage comparative to
minimum tillage. Mulches also affected grain yield, and maximum grain yield was
recorded in wheat straw mulch (1.88 t•ha-1) followed by
grass clipping mulch (1.81 t•ha-1) and saw dust mulch (1.76
t•ha-1) while minimum grain yield was recorded in control
without mulch application (1.67 t•ha-1). Tillage and
mulches interactively affect pH, soil organic matter contents, electrical
conductivity and
References
[1]
Nyakudya, I.W., Murewa, V.J., Mutenje, M.J., Moyo, M., Chikuvire, T.J. and Foti, R. (2006) Hidden over Burden of Female Headed Household in Guar Bean Production. Journal of International Women’s Studies, 8, 163-170.
[2]
Athy, E.R., Keiffer, C.H. and Steven, M.H. (2006) Effects of Mulch on Seeding and Soil on a Closed Landfill. Restoration Ecology, 14, 233-241. http://dx.doi.org/10.1111/j.1526-100X.2006.00125.x
[3]
Agbede, T.M. and Ojenjy, S.O. (2009) Tillage and Poultry Manure Effects on Soil Fertility and Sorghum Yield in South Western Nigeria. Soil & Tillage Research, 104, 74-81. http://dx.doi.org/10.1016/j.still.2008.12.014
[4]
Pervez, M.A., Iqbal, M., Shahzad, K. and Hassan, A. (2009) Effect of Mulch on Soil Physical Properties and N,P,K Concentration in Maize (Zea mays L.) Shoots under Two Tillage Systems. International Journal of Agricultural and Biological Engineering, 11, 119-124.
[5]
Vetsch, J.A. and Randall, G.W. (2002) Corn Production as Affected by Tillage Systems and Starter Fertilizer. Agronomy Journal, 96, 502-509. http://dx.doi.org/10.2134/agronj2004.0502
[6]
Monneveux, P., Quillerou, E., Sanchez, C. and Cesati, J.L. (2006) Effect of Zero Tillage and Residues Conservation on Continuous Maize Cropping in a Sub-Tropical Environment. Plant and Soil, 279, 95-105. http://dx.doi.org/10.1007/s11104-005-0436-3
[7]
Olaoye, J.O. (2002) Influence of Tillage on Crop Residue Cover, Soil Properties and Yield Components of Cowpea in Derived Savannah Ectones of Nigeria. Soil & Tillage Research, 64, 179-187. http://dx.doi.org/10.1016/S0167-1987(01)00261-6
[8]
Phillips, R.E. (1983) Soil Moisture. In: Phillips, R.E. and Phillips, S.H., Eds., No-Tillage Agriculture, Principles and Practices, Van Nostrand Peinhold Company, New York, 66-86.
[9]
Unger, P.W., Baumhard, R.L. and Arriaga, F.J. (2012) Mulch Tillage for Conserving Water. In: Lal, R. and Stewart, B.A., Eds., Soil Water and Agronomic Productivity (Advances in Soil Science), CRC Press, Taylor & Francis Group, New York, 427-454.
[10]
Nill, D. and Nill, E. (1993) The Efficient Use of Mulch Layers to Reduce Runoff and Soil Loss. In: Mulongoy, K. and Merckx, R., Eds., Soil Organic Matter Dynamics and Sustainability of Tropical Agriculture, John Wiley & Sons, Chichester, New York, Brisbane, Toronto, Singapore, 331-339.
[11]
Albuquerque, J.A., Sangoi, L. and Ender, M. (2001) Modification in the Soil Physical Properties and Maize Parameters Including by Cropping and Grazing under Two Tillage Systems. Revista Braseilera de Ciencia do Solo, 25, 717-723. http://dx.doi.org/10.1590/S0100-06832001000300021
[12]
Khan, A., Jan, M.T., Marwat, K.B. and Arif, M. (2009) Organic and Inorganic Nitrogen Treatments Effects on Plant and Yield Attributes of Maize in a Different Tillage Systems. Pakistan Journal of Botany, 41, 99-108.
[13]
Khan, F.U.H., Tahir, A.R. and Yule, I.J. (2001) Intrinsic Implication of Different Tillage Practices on Soil Penetration Resistance and Crop Growth. International Journal of Agriculture and Biology, 1, 23-26.
[14]
McWilliams, D. (2003) Drought Strategies for Corn and Grain Sorghum. Department of Extension and Plant Science, New Mexico State University, La Cruse, 1-6.
[15]
Turley, D.B., Philips, M.C., Johnson, P., Jones, A.E. and Chambers, B.J. (2003) Long-Term Straw Management Effects on Yields of Sequential Wheat (Triticum aestivum L.) Crops in Clay and Silty Clay Loam Soils in England. Soil & Tillage Research, 71, 59-69. http://dx.doi.org/10.1016/S0167-1987(03)00018-7
[16]
Ossom, E.M. and Matsenjwa, V.N. (2007) Influence of Mulch on Agronomic Characteristics, Soil Properties, Disease and Insect Pest Infestation of Dry Bean (Phaseolus vulgaris L.) in Switzerland. World Journal of Agricultural Sciences, 3, 696-703.
[17]
Reddy, G.R., Malewar, G.U. and Karle, B.G. (2002) Effect of Crop Residue in Corporation and Tillage Operations on Soil Properties of Vertisol under Rainfed Agriculture. Indian Journal of Dryland Agricultural Research and Development, 17, 55-58.
[18]
Khurshid, K., Iqbal, M., Arif, M.S. and Nawaz, A. (2006) Effect of Tillage and Mulch on Soil Physical Properties and Growth of Maize. International Journal of Agriculture and Biology, 5, 593-596.
[19]
Diaz-Zortia, M., Grove, J.H., Murdock, L., Herbeck, J. and Perfect, E. (2002) Soil Structural Disturbance Effects on Crop Yields and Soil Properties in a No Till Production System. Agronomy Journal, 96, 1651-1659. http://dx.doi.org/10.2134/agronj2004.1651
[20]
Osunbitan, J.A., Oyedele, D.J. and Adekalu, K.O. (2004) Tillage Effects on Bulky Density, Hydraulic Conductivity and Strength of a Loamy Sand Soil in Southwestern Nigeria. Soil & Tillage Research, 82, 57-64. http://dx.doi.org/10.1016/j.still.2004.05.007
[21]
Lukman, N.M. and Lal, R. (2008) Mulching Effects on Selected Soil Physical Properties. Soil & Tillage Research, 98, 106-111. http://dx.doi.org/10.1016/j.still.2007.10.011
[22]
Chaudhry, M.R., Malik, A.A. and Sidhu, M. (2004) Mulching Impact on Moisture Conservation-Soil Properties and Plant Growth. Pakistan Journal of Water Resources, 8, 1-8.
