Development of Corn (Zea mays L.) Stalk Geotextile Net for Soil Erosion Mitigation
Authors: Cristina S. Decano, Vitaliana U. Malamug, Melissa E. Agulto, Helen F. Gavino
Abstract:
This study aimed to introduce new natural fiber to be used in the production of geotextile net for mitigation of soil erosion. Fiber extraction from the stalks was the main challenge faced during the processing of stalks to ropes. Thus, an investigation on the extraction procedures of corn (Zea mays L.) stalk under biological and chemical retting was undertaken. Results indicated significant differences among percent fiber yield as affected by the retting methods used with values of 15.07%, 12.97%, 11.60%, and 9.01%, for dew, water, chemical (1 day after harvest and15 days after harvest), respectively, with the corresponding average extracting duration of 70, 82, 89, and 94 minutes. Physical characterization of the developed corn stalk geotextile net resulted to average mass per unit area of 806.25 g/m2 and 241% water absorbing capacity. The effect of corn stalk geotextile net in mitigating soil erosion was evaluated in a laboratory experiment for 30o and 60o inclinations with three treatments: bare soil (A1), corn stalk geotextile net (A2) and combined cornstalk geotextile net and vegetation cover (A3). Results revealed that treatment A2 and A3 significantly decreased sediment yield and an increase in terms of soil loss reduction efficiency. The cost of corn stalk geotextile net is Php 62.41 per square meter.
Keywords: Corn stalk, natural geotextile, retting, soil erosion.
Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1126836
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[1] D. Pimentel and M. Burgess, “Soil Erosion Threatens Food Production.” 2013.
[2] E. Sombrito. “Restoration of Soil Fertility and Sustenance in Agricultural Productivity”. Philippine Nuclear Research Institute. 2004.
[3] R.P. Morgan, and R. J. Rickson, “Slope Stabilization and Erosion Control: A Bioengineering Approach”. E and FN Spoon, London, United Kingdom. 2003.
[4] M.M. Cereno, FG. Tan, and F.A. Uy, “Combined Hydroseeding and Coconet Reinforcement for Soil Erosion Control, Soil Erosion Studies,” Dr. Danilo Godone (Ed.), ISBN: 978-953-307-710-9, InTech. 2011.
[5] M. Calkins, “Materials for Sustainable Sites: A Complete Guide to the Evaluation, Selection, and Use of Sustainable Construction Materials,” John Wiley and Sons. 2008.
[6] Department of Agriculture Regional Field Unit 01. Annual Report. 2013
[7] G.A. Rosario, “Cement-bonded Particleboard from Cotton Stalk,” Unpublished Masteral Thesis. College of Engineering, Central Luzon State University, Science City of Munoz, Nueva Ecija. 1997.
[8] A.C. Junio, et al, “Performance Investigation of Banana Net as Slope Protection Against Soil Erosion” Unpublished Undergraduate Thesis. Department of Civil Engineering, College of Engineering, Technological University of the Philippines, Manila, Philippines. 2009.
[9] R. Bhattacharyya, K. Davies, M.A. Fullen, & C.A. Booth, C. A, “Utilizing Palm-leaf Geotextile Mat to conserve Loamy Sand Soil in United Kingdom”. 2008.
[10] R. Bhattacharyya, K. Davies, M.A. Fullen, & C.A. Booth, C. A. Utilization of Palm-mat Geotextiles to Conserve Agricultural Soils. 2009
[11] Commission Fund for Commodities (CFC), “A Report on the Comparative Advantages of Sisal, Coir and Jute Geotextile.” 2010.
[12] O. Ogbobe, K.S. Essien and A. Debayo. “A Study of Biodegradable Geotextiles Used for Erosion Control.” Federal University of Technology, Owerri, Imo-State Nigeria. 1997.
[13] C.S. Llanto, et al. 2014, “Oil Palm (Elaeis guineensis Jacq.) Geotextile Net for Mitigating Hillslope Erosion and Runoff.” Unpublished PhD Dissertation, Central Luzon State University, Science City of Muñoz, Nueva Ecija. March 2013.