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Assessment Sugar Factories Wastes’ Performance on Wind Erosion Control | ||
Pollution | ||
مقاله 15، دوره 4، شماره 3، مهر 2018، صفحه 539-546 اصل مقاله (430.61 K) | ||
نوع مقاله: Original Research Paper | ||
شناسه دیجیتال (DOI): 10.22059/poll.2018.250344.380 | ||
نویسندگان | ||
masume Sabzi* 1؛ H.R. Asgari1؛ S.F. Afzali2 | ||
1Department of Desert Region Management, Gorgan University of Agricultural Sciences and Natural Resources, Iran | ||
2Department of Natural Resourse and Enviorment Engineering, University of Shiraz, Iran. | ||
چکیده | ||
Wind erosion is considered a major global environmental problem. Dust storms from the migration of sand dunes can seriously damage civil, industrial, and agricultural areas and a method to stabilize these sand dunes is mulching. The present study investigates the feasibility of using organic wastes of Press mud and Dunder with clay for the production of environmentally-friendly mulches. Sandy soil from the Dejgah Region, Fars Province, has been used as bed treatment. The treatments have been prepared, using different ratios of the above mentioned materials and 250 ml of water has been added to the each mulch combination to be sprinkled on a plot of sand, 50 × 30 × 1 cm in size. The research has measured Mechanical parameters such as Compressive Resistance (CR), Abrasion Resistance (AR), and Impact Resistance (IR), created by mulches, along with Wind Erodibility (WE) of the treatments and has analyzed the resultant measured data by means of SPSS software. An increase in the fraction of organic wastes has significantly increased CR, IR, and AR values, thus reducing WE. Higher amounts of organic matter and clay increase the CR and the application of 100g Dunder plus 100g Clay has been considered the best composition of organic mulch for stabilization of sand dunes. | ||
کلیدواژهها | ||
Sand dune؛ Organic؛ Press Mud؛ Dunder؛ Iran | ||
مراجع | ||
Alizade, A. (2009). Soil Physics. (Mashhad: Imam Reza Univ Press).
Barros, R. B. P., Viegas, P. R. A. and Silva, T. L. (2010). Alterations in soil chemical attributes cultivated with sugarcane and wine addiction. Trop. Agri. Res., 3: 341-346. Baumhardt, R. L., Unger, P. W. and Dao, T. H. (2004). Soil and crop management - Seedbed Surface Geometry Effects on Soil Crusting and Seedling Emergence. Agron., 96: 1112–1117. Barthes, B. G., Kouoa, E., Larre-Larrouy, M. C., Razafimbelo, T. M., DeLuca, E. F., Azontonde A., Neves, C. S., Freitas, P. L. and Feller, C. L. (2008). Texture and sesquioxide effects on water stable aggregates and organic matter in some tropical soils., 143: 14-25.
Bebe, F. V., Rolim, M. M., Pedrosa, E. M. R., Silva, G. B. and Oliveira, V. S. (2009). Evaluation of soils under different periods of application with wine., Bra. J. of Eng. Agri. and Environ. Pol., 6: 781-787.
Bielders, C. L., Michels, K. and Rajot, J. L. (2000). One-farm evaluation of ridging and residue management practices to reduse wind erosion in Niger. Soil. Sci. Soc. Am. J. 64., 1776-1785.
Bossuyt, H., Denef, K., Six, J., Frey, S. D., Merckx, R. and Paustian, K. (2001). Influence of microbial populations and residue quality on aggregate stability. App. Soil. Eco., 16: 195-208.
Bradford, J. L. (1986). Methods of soil analysis. (in A. Klute) (ed.) Part 1 (pp. 463–478). Physical and mineralogical methods. (American Society of Agronomy/Soil Science Society of America: Madison, Wisconsin) (pp. 377-381). Diouf, B., Skidmore, E. L., Layton, J. B. and Hagen, L. J. (1990). Stabilizing Fine sand by adding clay: laboratory wind tunnel study. Soil. Tech., 3:21–31.
Ekhtesasi, M. R. and Azimzadeh, H. R. (2012). Associate Professor Investigation of Soil Density Indices Using Two Methods of Alteration and Dryness in Water and Wind Erosion Studies (Case study: Salt Fields of Sar-Poushedeh Yazd Plain)., Soil. Sci., 2 (2): 32- 45.
Ekhtesasi, M. R. and Hazirei, F. (2016). Investigating the effect of cement mulch on the sand dune stabilization. J. of Rang. and Wat. Manage., 68 (4): 739- 750.
Gomes, L., Arrue, J. L., Lopez, M. V., Strek, G., Richard, D., Garcia, R., Sabre, J. M., Gaudichet, A. and Frangi, J. P. (2003). Wind Erosion in a Semiarid Area of Spain: the WELSONS project. Catena., 52: 235-256.
Hagen, L. J. (2010). Erosion by wind: Modeling. In: Lal, R. (ed.). Encyclopedia of Soil Science.2nded, London: Taylor and Francis publishers.
Hazirei, F., Zare Ernani, M. (2015). Investigation of Effect of Clay-Lime Mulch for Sand Dunes Fixation. J. of Water. and Soil. 27(2): 373-380.
Jamshidsafa, M. (2014). Investigatin of filter cake as adopted enviromental mulch using for sand dune stabilization in Ahvaz. University of Agriculture and Natural Resources of Ramin, 432-443.
Janalizadeh Choobbasti, A., Vafaei, A. and Soleimani Kutanaei, S. (2015). Mechanical properties of sandy soil improved with cement and nanosilica. De Gruyter., 5: 111-116.
Khalili Moghadam, B., Jamili, T., Nadian, H. and Shahbazi, E. (2015). The influence of sugarcane mulch on sand dune stabilization in Khuzestan, the southwest of Ir. j. of Agri. Res. 34 (2): 71-80.
Koopaeenia, M. A. and Afzali, S. F. (2015). Examining some desert conditions on some nonalive waste industrial mulches for controlling wind erosion, j. of Eco. Environ. and Con. 21 (1): 15- 23.
Li, X. (2000). Soil and water conservation in arid and semiarid areas; the Chinese experience, Ann. of arid. zon. 39(4):1-18
Jiang, Z. P., Li, Y. R., Wei, G. P. (2012). Effect of long-term vinasse application on physico-chemical properties of sugarcane fieldsoils. Sug. Tech. 4: 412–417.
Levy, G.J., Goldstein, G. and Mamedov, A.I. (2005). Saturated Hydraulic Conductivity of Semiarid Soils: Combined Effects of Salinity, Sodicity, and Rate of Wetting. Soi. Sci. Soc. 69: 653-662.
Majdi, H., Karimian Eghbal, M., Karimzade, H.R. and Jalalian, A. (2006). Effect of clay mulches on amount of Aeolian dust. Ir.J. of Sci. and Tech. of Agri. and Nat. Res.10: 137–148.
Mamedov, A.I, Huang, C. and Levy, G.J. (2006). Antecedent moisture content and aging duration effects on seal formation and erosion in smectitic soils. SoiL. Sci. Soc. 66: 631-639.
Meng, Y.C., Tang, Q.Z. Liu, G., Chen, F. and Wang, Y. (2009). Impact of several organic materials of sugar industry on soil microbe population in sugarcane field,” SW-Chi. J. of Agri. Sci. 2: 389–392.
Moutier, M., Shainberg, I. and Levy. G.J. (2000). Hydraulic gradient above a critical threshold level. It should therefore be and wetting rate effects on the hydraulic conductivity of two calcium vertisols. Soil. Sci. Soc. Am. J. 64:1211–1219.
Ossom, E.M., Effects of filter cake fertilization on weed infestation, disease incidence and tuber yield of cassava (Manihot esculenta) in Swaziland, Int. J. of Agri. and Bio.1: 45–50.
Padidar, M., Jalalian, A., Abdouss, M., Najafi, P., Honarjoo, N. and Fallahzade, J. 2014. Effect of nanoclay on soil erosion control. NaniCon. Brno. Czesh Republic, EU. Pansu, M, Gautheyrou, I. (2006). Handbook of Soil Analysis, Mineralogical, Organic and Inorganic Methodes: Springer. 993 psge. Rangasamy, P. and Olsson, A. 1991. Sodicity and soil structure. Aus. J. of Soil. Res. 29: 935-952.
Six, J., Bossuyt, H., Degryze, S. and K. Denef. (2004). A history of research on the link between (micro) aggregates, soil biota and soil organic matter dynamics. Soil. Till. Res., 79: 7-31.
Tejada, M., Garcia, C., Gonzalez, J.L. and Hernandez, M.T. (2006). Organic amendment based on fresh and composted beet vinasse: influence on physical, chemical and biological properties and wheat yield, Soil. Sci. Soc. 70: 900-908.
Tejada, M. and Gonzalez, J. L. (2008). Influence of two organic amendments on the soil physical 10 properties, soil losses, sediments and runoff water quality. Geoderma, 145: 325-334.
Torri, D., Sfalanga, M. and Del Sette, M. (1987). Splash detachment: runoff depth and soil cohesion. Catena., 14: 149–155.
Utami, S.R., Kurniawan, S., Situmorang, B. and Rositasari, N.D. (2012). Increasing P-availability and P-uptake using sugarcane filter cake and rice husk ash to improve chinesse cabbage (Brassica Sp) growth in Andisol, East Java. J. of Agri. Sci. 10: 153–160
Vaezi, A.S. (2012). Application of oil mulch in wind erosion and stabilization of sand. (Second National Conference on Wind Erosion, Yazd University), 7 pp.
Vermeire, L. T, Wester D.B, Mitchell, R.B. and Fuhlendorf, S.D. (2005). Fire and grazing effects on wind erosion. Soil Water Content and Soil Temperature. J. of Environ. Qual, 34:1559-1565
Wuddivira, M.N., Stone, R.J. and Ekwue, E.L. (2013). Influence of cohesive and disruptive forces on strength and erodibility of tropical soils. Soil. Till. Res., 133: 40–45.
Yang, K. and Zejun, T. (2012). Effectiveness of fly ash and polyacrylamide as a sand-fixing agent for wind erosion control. Wat. Air. Soil. Poll. 223: 4065- 4074.
Zolin, C.A., Paulino, J., Bertonha, A., Freitas, P.S.L. and Folegatti, M.V. (2011). Exploratory study of the use of wine over time. I. Soil characteristics. Revista Brasileirde., Agri. and Environ. Eng., 1: 22-28. Zhao, H.L., Yi, X.Y., Zhou, R.L., Zhao, X.Y., Zhang, T.H., and Drake, S. (2006). Wind erosion and sand accumulation effects on soil properties in Horqin Sandy Farmland, Inner Mongolia. Catena, 65: 71-76. | ||
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