INFLUENCE OF MULCHING SYSTEMS ON SOIL TEMPERATURE, PRODUCTION AND WATER USE EFFICIENCY UNDER TRICKLE IRRIGATION SYSTEM

Khedr, A. F.

doi:10.21608/mjae.2018.95792

INFLUENCE OF MULCHING SYSTEMS ON SOIL TEMPERATURE, PRODUCTION AND WATER USE EFFICIENCY UNDER TRICKLE IRRIGATION SYSTEM

Document Type : Original Article

Author

A. F. Khedr

Lecturer of Agric. Eng., Agric. Eng. Dep., Fac. of Agric., Suez Canal Univ., Egypt.

10.21608/mjae.2018.95792

Abstract

The aim of this research is to study the influence of different mulching materials on soil surface temperature, water use efficiency and production. Two field experiments were conducted at the Research Farm of Faculty of Agriculture, Suez Canal University, Ismailia, Egypt, during the summer of 2016 and the winter 2017 growing season in a sandy soil under trickle irrigation system. Six treatments transparent polyethylene sheets, rice straw, maize straw and control were investigation in the field. The results showed that there were more increases in soil temperature under plastic mulch than under others treatments. The recorded soil surface temperature was lowest under rice straw mulch during both summer and winter seasons. The field investigation revealed that, the highest grain yield and water use efficiency of maize was obtained during summer which were 9563 kg ha^-1 and 1.54 kg m^-3, respectively under rice straw mulch. During winter, faba bean gave the highest values of seed yield and water use efficiency 7521 kg ha^-1 and 2.20 kg m^-3, respectively were achieved under transparent plastic mulch followed by rice straw mulch. Mulching method can help to improve yield of crops. It was recommended that, using 8 Mg ha^-1 rice straw mulch in both summer and winter conditions was the best for soil temperature. It is also more attractive option by its very cheap and ease in availability and is environmental friendly.

Keywords

Main Subjects

Agricultural Irrigation and Drainage Engineering

References

Abd El-Kader, N.; A. Derbala and M. E. M. Ahmed (2010). Influence of mulching and some micro-nutrients usage on soil temperature, soil moisture, growth and cowpea yield. Research Journal of Agriculture and Biological Sciences, 6(4): 505 - 513.

Allen, R. G.; L. S. Pereira; R. Dirk and M. Smith (2011). Crop Evapotranspiration Guidelines for Computing Crop Water Requirements. FAO Irrigation and Drainage Paper No. 56, 1998. Food and Agriculture Organization. Rome, Italy, pp. 83.

Chalker-Scott, L. (2007).Impact of mulches on landscape plants and the environment- A Review. J. Environ. Hort. 25(4): 239 - 249.

Cohort Program (1990). CoStat Statistical Software. CoStat Manual Revision 4.2. pp:271.

Eid, A. R.; B. A. Bakry and M. H. Taha (2013). Effect of pulse drip irrigation and mulching systems on yield, quality traits and irrigation water use efficiency of soybean under sandy soil conditions. Agricultural Sciences. 4(5): 249 - 261.

Gregory, P. J. (2006). Plant Roots: Growth, Activity and Interaction with Soils. Blackwell Publishing Ltd, Oxford, UP. pp 132.

Khedr, A. F. (2015). Development of an engineering model for microirrigation system in maize fields. Unpublished Ph.D. Thesis of Agric. Eng., Agric. Eng. Dept., Fac. Agric., Suez Canal Univ., Egypt, 148 pp.

Klepper, B. (1987). Root growth and temperature. Root Develop. Funct. 103, 200 - 205.

Klute, A. (1986). Methods of soil analysis. Part 1. Physical and mineralogical methods (2^nd edition). American Society of Agronomy Inc., Madison, Wisconsin, USA.

Li, S. X.; Wanga, Z. H.; Li, S. Q.; Gaoa, Y. J. Tiana, X. H. (2013). Effect of plastic sheet mulch, wheat straw mulch and maize growth on water loss by evaporation in dryland areas of China. Agricultural Water Management. 116: 39 - 49.

Li, Z. G.; Zhang, R. H.; Wang, X. J.; Wang, J. P.; Zhang, C. P. and Tian, C. Y. (2011). Carbon dioxide fluxes and concentrations in a cotton field in northwesterm China: Effects of plastic mulching and drip irrigation. Pedosphere. 21(2): 178 - 185.

Liu, X. and Huang, B. (2005). Root physiological factors involved in cool-season grass response to high soil temperature. Environ. Exp. Bot. 53, 233 - 245.

Lynch, J.; Maschner, P. and Rangel, Z. (2012). Effect of Internal and external factors on root growth and development. Chapter 13.331-446 pp. in Marschner, P. (Editor) (2012). Marschner^,s Mineral Nutrition of Higher Plants. 3^rd ed. Academic Press in an imprint of El-Sevier, New Yourk.

Mahbub, A. and Zimmerman, R. (2006). Kansas State University Research and Extension. 20 March 2006. on Line at http//www.oznet.ksu.edu/swao/Irrigation/Kabocha%20Study%20report%20Latest.pdf.

Merriam, J. L. and J. Keller (1978). Farm Irrigation System Evaluation: A Guide for Management 3^rd ed. Logan, Utah: Agricultural and Irrigation Engineering Department, Utah State University, pp. 271.

Moitra, R.; D. Ghosh and S. Sarkar (1996). Water use pattern and productivity of rainfed yellow sarson (Brassica ropa L.var glauca) in relation to tillage and mulching. Soil Till. Res. 38, 153 - 160.

Orzolek, M. D.; J. Murphy and J. Ciardi (2007). The effect of colored polyethylene mulch on yield of squash, tomato and cauliflower. Penn State Center for Plasticulture. 31 January 2006. http://plasticulture.cas.psu.edu/cmulch-93.htm.

Sarkar, S. (2005). Evapotranspiration and yield response of wheat to irrigation frequencies and fertilizer levels. J. Indian Soc. Soil Sci. 53, 54 - 59.

Sarkar, S. and S. K. Rana (1999). Role of tillage on productivity and water use pattern of rice-wheat cropping system. J. Indian Soc. Soil Sci. 47, 532 - 534.

Sarkar, S.; M. Paramanick and S. B. Goswami (2007). Soil temperature, water use and yield of yellow sarson (Brassica napus L. Var. glauca) in relation to tillage intensity and mulch management under rainfed lowland ecosystem in eastern India. Soil Till. Res. 93, 94 - 101.

Sadeghi, S. H. R.; L. Gholami1; E. Sharifi and A. Khaledi (2014). Scale effect on runoff and soil loss control using rice straw mulch under laboratory conditions. Solid Earth Discuss., 6:2915 - 2938.

Sharma, P. K.; T. S. Verma and L. Bhushan (1997). Effect of depth of root-zone on growth, yield and nutrient uptake of rice. Oryza 34, 234 - 237.

Tan, K. H. (2005). Soil Sampling, Preparation and Analysis. Taylor & Francis Group. London.

Tiwari, K. N.; P. K. Mal; R. W. Singh and A. Chattopadhyay (1998). Response of okra (Abelmoschus esculentus L. Moench.). Agr. Water Management, 38: 91 - 102.

Yang, Q.; H. Zuo; X .Xiao; S. Wang; B. Chen and J. Chen (2012). Modeling the effects of plastic mulch on water, heat and CO₂ fluxes over cropland in an arid region. Journal of Hydrology, 452-453(2012) 102 - 118.

Zhang, S.; L. Lovdahl; H. Grip; Y. Tong; X. Yang and Q. Wange (2009). Effects of mulching and catch cropping on soil temperature, soil moisture and wheat yield on the loess plateau of China. Soil Till. Res. 102, 78 - 86.