Effect of Pisha sandstone on water infiltration of different soils on the Chinese Loess Plateau

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• 作者：Wenmei Ma ; Xingchang Zhang
• 关键词：Pisha sandstone ; soil structure ; saturated hydraulic conductivity ; water infiltration
• 刊名：Journal of Arid Land
• 出版年：2016
• 出版时间：June 2016
• 年：2016
• 卷：8
• 期：3
• 页码：331-340
• 全文大小：476 KB
• 参考文献：Anderson J D, Ingram L J, Stahl P D. 2008. Influence of reclamation management practices on microbial biomass carbon and soil organic carbon accumulation in semiarid mined lands of Wyoming. Applied Soil Ecology, 40(2): 387–397.CrossRef
  Ankeny M D, Kaspar T C, Horton R. 1989. Characterization of tillage and traffic effects on unconfined infiltration measurements. Soil Science Society of America Journal, 54(3): 837–840.CrossRef
  Antigha N R B, Essien I E. 2007. The Relationship between infiltration rate and hydraulic conductivity of some soils of Akpabuyo local government area of cross river state–Nigeria. Global Journal of Pure and Applied Science, (6)2: 80–84.
  Askin T, Özdemir N. 2003. Soil bulk density as related to soil particle size distribution and organic matter content. Poljoprivreda (Osijek), 9(2): 52–55.
  Bharati L, Lee K H, Isenhart T M, et al. 2002. Soil-water infiltration under crops, pasture, and established riparian buffer in Midwestern USA. Agroforestry Systems, 56(3): 249–257.CrossRef
  Bi C F, Wang F G, Li G F, et al. 2003. Experiment on sediment retention by plant “flexible dam” in gully in soft rock region. Journal of Sediment Research, (2): 14–25. (in Chinese).
  Blake G R, Hartge K H. 1986. Bulk density. In: Klute A. Methods of Soil Analysis: Part 1: Physical and Mineralogical Methods. Monograph Number 9 (2nd ed.). Madison: American Society of Agronomy, 363–375.
  Bouyoucos G J. 1927. The hydrometer as a new method for the mechanical analysis of soils. Soil Science, 23(5): 343–352.CrossRef
  Bouza P J, Simón M, Aguilar J, et al. 2007. Fibrous-clay mineral formation and soil evolution in Aridisols of northeastern Patagonia, Argentina. Geoderma, 139(1–2): 38–50.CrossRef
  Cameira M R, Fernando R M, Pereira L S. 2003. Soil macropore dynamics affected by tillage and irrigation for a silty loam alluvial soil in southern Portugal. Soil and Tillage Research, 70(2): 131–140.CrossRef
  Chaudhari P R, Ahire D V, Ahire V D, et al. 2013. Soil bulk density as related to soil texture, organic matter content and available total nutrients of Coimbatore Soil. International Journal of Scientific and Research Publications, 3(2): 1–8.
  Ellerbrock R H, Gerke H H. 2004. Characterizing organic matter of soil aggregate coatings and biopores by Fourier transform infrared spectroscopy. European Journal of Soil Science, 55(2): 219–228.CrossRef
  Fiedler F R, Frasier G W, Ramirez J A, et al. 2002. Hydrologic response of grasslands: effects of grazing, interactive infiltration, and scale. Journal of Hydrologic Engineering, 7(4): 293–301.CrossRef
  Fu B J, Chen L D, Ma K M, et al. 2000. The relationships between land use and soil conditions in the hilly area of the Loess plateau in northern Shaanxi, China. Catena, 39(1): 69–78.CrossRef
  Gantzer C J, Anderson S H. 2002. Computed tomographic measurement of macroporosity in chisel-disk and no-tillage seedbeds. Soil and Tillage Research, 64(1–2): 101–111.CrossRef
  Guebert M D, Gardner T H. 2001. Macropore flow on a reclaimed surface mine: infiltration and hillslope hydrology. Geomorphology, 39(3–4): 151–169.CrossRef
  Gülser C, Candemir F. 2008. Prediction of saturated hydraulic conductivity using some moisture constants and soil physical properties. In: Proceedings of the BALWOIS. Macedonia, 1–5.
  Han J C, Liu Y S, Zhang Y. 2015. Sand stabilization effect of feldspathic sandstone during the fallow period in Mu Us Sandy Land. Journal of Geographical Sciences, 25(4): 428–436.CrossRef
  Herrick J E, Schuman G E, Rango A. 2006. Monitoring ecological processes for restoration projects. Journal for Nature Conservation, 14(3–4): 161–171.CrossRef
  Hudson B D. 1994. Soil organic matter and available water capacity. Journal of Soil and Water Conservation, 49(2): 189–194.
  Jarvis N, Etana A, Stagnitti F. 2008. Water repellency, near-saturated infiltration and preferential solute transport in a macroporous clay soil. Geoderma, 143(3–4): 223–230.CrossRef
  Jin Z P, Miao Z Y, Wang Z W. 2003. Soil Water Conservation and Husbandry Development Research in Pisha Sandstone Area. Zhengzhou: The Yellow River Water Conservancy Press. (in Chinese)
  Kay B D, Angers D A. 2002. Soil structure. In: Warrick A W. Soil Physics Companion. Boca Raton, FL: CRC Press, 249–295.
  Klute A. 1986. Methods of Soil Analysis. Part 1: Physical and Mineralogical Methods, SSSA Book Series 5 (2nd ed.). Madison, WI: SSSA.
  Kutílek M. 2004. Soil hydraulic properties as related to soil structure. Soil and Tillage Research, 79(2): 175–184.CrossRef
  Lado M, Paz A, Ben-Hur M. 2003. Organic matter and aggregate-size interactions in saturated hydraulic conductivity. Soil Science Society of America Journal, 68(1): 234–242.CrossRef
  Li G F, Bi C F. 2005. Develop flexible dams for sediment load reduction of the yellow river. In: Proceedings of the 2nd International Yellow River Forum on Keeping Healthy Life of the River, 126–132. (in Chinese).
  Libardi P L, Reichardt K, Jose C, et al. 1982. An approximate method of estimating soil water diffusivity for different soil bulk densities. Water Resources Research, 18(1): 177–181.CrossRef
  Ludwig J A, Wilcox B P, Breshears D D, et al. 2005. Vegetation patches and runoff-erosion as interacting ecohydrological processes in semiarid landscapes. Ecology, 86(2): 288–297.CrossRef
  Mace J E, Amrhein C. 1999. Leaching and reclamation of a soil irrigated with moderate SAR waters. Soil Science Society of America Journal, 65(1): 199–204.CrossRef
  Marshall T J, Holmes J W, Rose C W. 1996. Soil Physics (3rd ed.). Cambridge: Cambridge University Press, 92–96.
  Matula S. 2003. The influence of tillage treatments on water infiltration into soil profile. Plant, Soil and Environment, 49(7): 298–306.
  Melvis E G. 2001. Landuse and Water Resources in Temperate and Tropical Climates. Cambridge: Cambridge University, 144–146.
  Michaelides K, Lister D, Wainwright J, et al. 2009. Vegetation controls on small-scale runoff and erosion dynamics in a degrading dryland environment. Hydrological Processes, 23(11): 1617–1630.CrossRef
  Munshower F F. 1994. Practical Handbook of Disturbed Land Revegetation. Boca Raton, FL: Lewis Publishers.
  Murray C D, Buttle J M. 2005. Infiltration and soil water mixing on forested and harvested slopes during spring snowmelt, Turkey Lakes Watershed, Central Ontario. Journal of Hydrology, 306(1–4): 1–20.CrossRef
  Ni H B, Zhang L P, Zhang D R, et al. 2008. Weathering of Pisha-sandstones in the wind-water erosion crisscross region on the Loess Plateau. Journal of Mountain Science, 5(4): 340–349.CrossRef
  Patel M S, Singh N T. 1981. Changes in bulk density and water intake rate of a coarse textured soil in relation to different levels of compaction. Journal of the Indian Society of Soil Science, 29(1): 110–112.
  Philip J R. 1957. The theory of infiltration: 4. sorptivity and algebraic infiltration equations. Soil Science, 84(3): 257–264.CrossRef
  Qian N, Wang K Q, Yan L D, et al. 1980. Effects of coarse sediment source region in the middle Yellow River on scour and siltation in the lower Yellow River. In: First International Academic Conference Proceedings on the River and Sediment. Beijing: Guanghua School Press, 33–62. (in Chinese)
  Ran D C, Liu L W, Zhao L Y. 2000. Change in Soil and Water Conservation, Sediment and Water in the Region from He-Kou-Zhen to Long-Men in the Middle Yellow River. Zhengzhou: The Yellow River Water Conservancy Press, 12–24. (in Chinese).
  Rawls W J, Nemes A, Pachepsky Y A. 2005. Effect of soil organic matter on soil hydraulic properties. In: Pachepsky Y A, Rawls W J. Development of Pedotransfer Functions in Soil Hydrology. Amsterdam: Elsevier, 95–114.
  Reynolds B, Reddy K J. 2012. Infiltration rates in reclaimed surface coal mines. Water, Air, & Soil Pollution, 223(9): 5941–5958.CrossRef
  Senigagliesi C, Ferrari M. 1993. Soil and crop responses to alternative tillage practices. In: Buxton D R, Shibles R, Forsberg R A, et al. International Crop Science I. Madison, WI: Crop Science Society of America Inc., 27–35.
  Shi Y C, Ye H, Hou H B, et al. 2004. The internal cause of the erosion in “Pisha” sandstone area, southern Inner Mongolia. Acta Geoscientica Sinica, 25(6): 659–664. (in Chinese)
  Shougrakpam S, Sarkar R, Dutta S. 2010. An experimental investigation to characterise soil macroporosity under different land use and land covers of northeast India. Journal of Earth System Science, 119(5): 655–674.CrossRef
  Shrestha G, Stahl P D, Ingram L. 2005. Influence of reclamation management practices on soil bulk density and infiltration rates on surface coal mine lands in Wyoming. Presented at 2005 National Meeting of the American Society of Mining and Reclamation, Breckenridge, CO.
  Smith R E, Woolhiser D A. 1971. Overland flow on an infiltrating surface. Water Resources Research, 7(4): 899–913.CrossRef
  Stahl P D, Perryman B L, Sharmasarkar S, et al. 2002. Stockpiling vs. exposure to traffic: best management of topsoil on in-situ uranium wellfields. Restoration Ecology, 10: 129–137.CrossRef
  Sun J Z. 2005. Loessology. Hong Kong: Hong Kong Archaeological Society, 30–61. (in Chinese)
  Taboada M A, Micucci F G, Cosentino D J, et al. 1998. Comparison of compaction induced by conventional and zero tillage in two soils of the Rolling Pampa of Argentina. Soil and Tillage Research, 49(1–2): 57–63.CrossRef
  Thien S J. 1979. A flow diagram for teaching texture by feel analysis. Journal of Agronomic Education, 8: 54–55.
  Tisdall J M, Adem H H. 1986. Effect of water content of soil at tillage on size-distribution of aggregates and infiltration. Australian Journal of Experimental Agriculture, 26(2): 193–195.CrossRef
  Walkley A, Black I A. 1934. An examination of the degtjareff method for determining soil organic matter, and a proposed modification of the chromic acid titration method. Soil Science, 37(1): 29–38.CrossRef
  Wang X. 2000. Study of sediment source of small watershed in Pisha rock area. Soil and Water Conservation in China, (4): 17–18. (in Chinese)
  Wang T J, Wedin D, Zlotnik V A. 2009. Field evidence of a negative correlation between saturated hydraulic conductivity and soil carbon in a sandy soil. Water Resources Research, 45, W07503, doi: 10.1029/2008WR006865.
  Yang F S, Cao M M, Li H E, et al. 2013. Simulation of sediment retention effects of the single seabuckthorn flexible dam in the Pisha sandstone area. Ecological Engineering, 52: 228–237.CrossRef
  Ye H, Shi J S, Chen Y P, et al. 2004. A new method based on GPS and GIS for quantitative assessment of gravity erosion in Pi-sandstone area. Acta Geoscientica Sinica, 25(4): 479–482. (in Chinese)
  Ye H, Shi J S, Li X Q, et al. 2006. The effect of soft rock lithology upon its Anti-erodibility. Acta Geoscientica Sinica, 27(2): 145–150. (in Chinese)
  
• 作者单位：Wenmei Ma (1)
  Xingchang Zhang (2)
  
  1. College of Resources and Environment, Northwest A&F University, Yangling, 712100, China
  2. Institute of Soil and Water Conservation, Northwest A&F University, Yangling, 712100, China
  
• 刊物主题：Physical Geography; Plant Ecology; Sustainable Development;
• 出版者：Springer Berlin Heidelberg

文摘

The infiltration of water into soil is one of the most important soil physical properties that affect soil erosion and the eco-environment, especially in the Pisha sandstone area on the Chinese Loess Plateau. We studied the one-dimensional vertical infiltration of water in three experimental soils, created by mixing Pisha sandstone with sandy soil, irrigation-silted soil, and loessial soil, at mass ratios of 1:1, 1:2, 1:3, 1:4, and 1:5. Our objective was to compare water infiltration in the experimental soils and to evaluate the effect of Pisha sandstone on water infiltration. We assessed the effect by measuring soil bulk density (BD), porosity, cumulative infiltration, infiltration rate and saturated hydraulic conductivity (Ks). The results showed that Pisha sandstone decreased the infiltration rate and saturated hydraulic conductivity in the three experimental soils. Cumulative infiltration over time was well described by the Philip equation. Sandy soil mixed with the Pisha sandstone at a ratio of 1:3 had the best water-holding capacity. The results provided experimental evidence for the movement of soil water and a technical support for the reconstruction and reclamation of mining soils in the Pisha sandstone area.