Experimental evaluation of irrigation methods for soil desalinization
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- 作者:Yanyan Dai (1)
Masateru Senge (2)
Kengo Ito (2)
Takeo Onishi (2)
Kohei Yoshiyama (3)
1. The United Graduate School of Agricultural Sciences ; Gifu University ; 1-1 Yanagido ; Gifu ; 501-1193 ; Japan
2. Faculty of Applied Biological Sciences ; Gifu University ; 1-1 Yanagido ; Gifu ; 501-1193 ; Japan
3. River Basin Research Center ; Gifu University ; 1-1 Yanagido ; Gifu ; 501-1193 ; Japan - 关键词:Soil desalinization ; Leaching ; Electrical conductivity ; Salt removal rate ; Infiltration capacity ; Irrigation intensity
- 刊名:Paddy and Water Environment
- 出版年:2015
- 出版时间:April 2015
- 年:2015
- 卷:13
- 期:2
- 页码:159-165
- 全文大小:374 KB
- 参考文献:1. Chen, C, Roseberg, RJ, Selker, JS (2002) Using microsprinkler to reduce leaching in a shrink/swell clay soil. Agric Water Manag 54: pp. 166-167 CrossRef
2. Flowers, TJ, Yeo, AR (1995) Breeding for salinity resistance in crop plants: where next?. Aust J Plant Physiol 22: pp. 875-884 CrossRef
3. Games, PA, Howell, JF (1976) Pairwise multiple comparison procedures with unequal n鈥檚 and/or variances: a Monte Carlo study. J Educ Stat 1: pp. 113-125 CrossRef
4. H盲fele, S, Wopereis, MCS, Boivin, P, N鈥橠iaye, AM (1999) Effect of puddling on soil desalinization and rice seedling survival in the Senegal River Delta. Soil Tillage Res 51: pp. 35-46 CrossRef
5. Haraguti, N (2012) Removal of excess salts in farmlands brought with the sea water caused by high tide on tsunami. Water Land Environ Eng 80: pp. 53
6. Keren, R Salinity. In: Sumner, ME eds. (2000) Handbook of soil science. CRC Press, Boca Raton, pp. G3-G25
7. Kitamura, Y, Yano, T, Honna, T, Yamamoto, S, Inosako, K (2006) Causes of farmland salinization and remedial measures in the Aral Sea Basin-research on water management to prevent secondary salinization in rice-based cropping system in arid land. Agric Water Manag 85: pp. 1-14 CrossRef
8. Kosmas, C, Moustakas, N, Kallianous, C, Yassoglou, N (1991) Cracking patterns, bypass flow and nitrate leaching in Greek irrigated soils. Geoderma 49: pp. 139-152 CrossRef
9. Mitchell, AR, Genuchten, MTh (1993) Flood irrigation of a cracked soil. Soil Sci Soc Am J 57: pp. 490-497 CrossRef
10. Okuda, T, Onishi, J (2012) Current status and problems of farmland damage from salinization in Uzbekistan. Water Land Environ Eng 80: pp. 5
11. Qadir, M, Qureshi, RH, Ahmad, N (1998) Horizontal flushing: a promising ameliorative technology for hard saline鈥搒odic and sodic soils. Soil Tillage Res 45: pp. 119-131 CrossRef
12. Rengasamy, P (2006) World salinization with emphasis on Australia. J Exp Bot 57: pp. 1017-1023 CrossRef
13. Rengasamy, P, Olsson, KA (1991) Sodicity and soil structure. Aust J Soil Res 29: pp. 935-952 CrossRef
14. Richards LA (1954) Diagnosis and improvement of saline and alkali soils. In: Agriculture handbook no. 60. United States Department of Agriculture, Washington, DC
15. Sokal, RR, Rohlf, FJ (2012) Biometry. W. H. Freeman, New York
16. Stockle CO (2001) Environmental impact of irrigation: a review. State of Washington Water Research Center, Washington, DC. http://www.swwrc.wsu.edu/newsletter/fall2001
17. Sumner, ME (1993) Sodic soils: new perspectives. Aust J Soil Res 31: pp. 683-750 CrossRef
18. Tejada, M, Gonzalez, JL (2005) Beet vinasse applied to wheat under dryland conditions affects soil properties and yield. Eur J Agron 23: pp. 336-347 CrossRef
19. Topp, GC, Davis, JL (1981) Detecting infiltration of water through soil cracks by time-domain reflectometry. Geoderma 26: pp. 13-23 CrossRef
20. Szabolcs I (1994) Prospects of soil salinity for the 21st century. In: Transactions, 15th World congress of soil science, Acapulco, Mexico, vol 1, pp 123鈥?42
21. Yu, H, Xi, B, Ma, W, Li, D, He, X (2011) Fluorescence spectroscopic properties of dissolved fulvic acids from salined flavo-aquic soils around Wuliangsuhai in Hetao Irrigation District, China. Soil Sci Soc Am J 75: pp. 1359-1367
22. Zar, JH (2010) Biostatistical analysis. Prentice-Hall, Upper Saddle River - 刊物类别:Biomedical and Life Sciences
- 刊物主题:Life Sciences
Agriculture
Hydrogeology
Geoecology and Natural Processes
Monitoring, Environmental Analysis and Environmental Ecotoxicology
Soil Science and Conservation
Waste Water Technology, Water Pollution Control, Water Management and Aquatic Pollution - 出版者:Springer Berlin / Heidelberg
- ISSN:1611-2504
文摘
Soil salinization has provided a serious threat for global agriculture throughout human history. It is becoming ever more prevalent as human land use intensifies in recent years, and the reclamation is one of major challenges in agroecology. Flood irrigation is a typical method for leaching saline soil. Yet the practice needs a large amount of water, and it is difficult to remove salt uniformly throughout soil layers. In this study, an experiment was conducted to evaluate leaching efficiencies of four different methods, namely: flood irrigation, spray irrigation, paper-covered flood irrigation, and puddling irrigation. Flood irrigation was applied at three plots with different infiltration capacities. Spray irrigation, paper-covered flood irrigation, and puddling irrigation were applied at other three plots with medium infiltration capacities. Results showed that salt removal rates of flood irrigation tended to be higher near the surface of soil with smaller infiltration capacity, and that spray irrigation, paper-covered flood irrigation, and puddling irrigation were more efficient in removing salt than flood irrigation. Paper-covered irrigation was the only leaching method that reduced horizontal heterogeneities in salt content, while flood irrigation and puddling irrigation significantly increased the horizontal heterogeneities. The present study indicated that leaching efficiencies were highly affected by irrigation intensity and also by irrigation water volume only when irrigation intensity was considerably low, and that paper-covered irrigation is an efficient method in removing salt homogeneously from soil profile. Further studies need to be conducted to optimize irrigation intensity and water volume for given soil and water environmental conditions.