Muddy water irrigation, an effective water-saving irrigation method, has been widely used in the Yellow River Basin in China. To investigate the effect of sand content on water infiltration and dense layer formation under one-dimensional vertical infiltration of muddy water, muddy water infiltration experiments were performed in the laboratory, and five sand contents of muddy water (S=0%, 3%, 6%, 9%, and 12%) were used. Models were established to describe the relationship between the cumulative infiltration amount [I(t)] and the infiltration duration (t); the relationship among the migration distance of the wetting front (Z), S, and t; the thickness of the sedimentary layer [H(t)]; and the relationship between S and t. The results revealed that I(t) and Z decreased significantly with the increase of sand contents, while H(t) increased significantly with the increase of sand contents. I(t) and Z were in the range of 7 cm and 20 cm for each treatment, respectively. The variation in I(t) with t fitted Kostiakov and Philip models, and the coefficients of determination were all greater than 0.99. With the increase in S, the infiltration coefficient gradually decreased, the infiltration index gradually increased, and the sorptivity gradually decreased. The particle composition of the sedimentary layer was similar to that of the argillaceous sediment, and the content of particles with a size of less than 2 mm in the sedimentary layer was lower than that of the argillaceous sediment. Compared with the original soil, the content of particles with a size of less than 0.05 mm and physical clay particles (diameter less than 0.01 mm) in the soil with an infiltration depth of 0-2 cm increased. The retention layer was from the topsoil to the infiltration depth of approximately 2 cm. This study can provide a scientific basis for further research on soil infiltration mechanisms under muddy water.
Keywords: muddy water, sand content, dense layer, cumulative infiltration, wetting front transport, deposit layer thickness
DOI: 10.25165/j.ijabe.20241701.7919

Citation: Kang S X, Fei L J, Zhong Y, Liu L H. Effects of the sand content of muddy water content on one-dimensional vertical infiltration characteristics and dense layer formation characteristics. Int J Agric & Biol Eng, 2024; 17(1): 172-179.

muddy water, sand content, dense layer, cumulative infiltration, wetting front transport, deposit layer thickness

Chen X, Zhao B, Shuai C Y, Qu S, Xu M. Global spread of water scarcity risk through trade. Resources, Conservation and Recycling, 2022; 187: 106643.

Zheng C H, Wang R S, Zhou X, Li C N, Dou X Y. Photosynthetic and growth characteristics of apple and soybean in an intercropping system under different mulch and irrigation regimes in the Loess Plateau of China. Agricultural Water Management, 2022; 266: 107595.

Yang X, Guo B, Lu Y F, Zhang R, Zhang D F, Zhen X Y, et al. Spatial-temporal evolution patterns of soil erosion in the Yellow River Basin from 1990 to 2015: impacts of natural factors and land use change. Geomatics Natural Hazards & Risk, 2021; 12（1）: 103–122.

Zhong Y, Fei L J, Zhu S J, Kang S X, Liu L H, Hao K, et al. Infiltration characteristics of muddy water film-hole irrigation and formation characteristics of dense layers. Journal of Soil and Water Conservation, 2022; 36（1）: 238–246: 254. （in Chinese）

Barreto B B, da Silva Siqueira R H, Rivera F P, Braga Junior R A, Ferreira M M, Horgan G. Development of an optical technique for characterizing presence of soil surface crusts. Computers and Electronics in Agriculture, 2019; 167: 105050.

Chamizo S, Canton Y, Domingo F, Belnap J. Evaporative losses from soils covered by physical and different types of biological soil crusts. Hydrological Processes, 2013; 27（3）: 324–332.

Wang J H, Fei L J, Nie W B. Research progress and prospect on characteristics of muddy water irrigation infiltration. Agricultural Research in the Arid Areas, 2016; 34（2）: 265–270. （in Chinese）

Yao L, Ma J M, Ren L. Distribution characteristics and influence factors of deposits after the infiltration of muddy water. Water Power, 2004; 30（11）: 20–23. （in Chinese）

Badorreck A, Gerke H H, Huettl R F. Morphology of physical soil crusts and infiltration patterns in an artificial catchment. Soil & Tillage Research, 2013; 129: 1–8.

Jiang R R, Fei L J, Fu Y L, Kang S X, Liu T. Analysis of infiltration characteristics of muddy water film hole irrigation under multiple factors. Journal of Drainage and Irrigation Machinery Engineering, 2020; 38（4）: 415–420. （in Chinese）

Yang S Y, Fan G S. The study of basic characteristics under muddy water infiltration. Journal of Taiyuan University of Technology, 2006; 37（2）: 218–221. （in Chinese）

Bai R, Fei L J, Chen L, Liu L, Zhong Y, Li Q L. Effects of soil bulk density on water and nitrogen transport characteristics under one-dimensional vertical infiltration of muddy water and fertilizer. Journal of Drainage and Irrigation Machinery Engineering, 2021; 39（3）: 306–311. （in Chinese）

Zhong Y, Fei L J, Kang S X, He J, Zhu S J. Effect of soil bulk density on one-dimensional vertical infiltration and dense layer formation characteristics of muddy water. Journal of Arid Land Resources and Environment, 2022; 36（2）: 91–98. （in Chinese）

Zhong Y, Fei L J, Zhu S J, Kang S X, Liu L H, Hao K, et al. Infiltration characteristics of muddy water film-hole irrigation and formation characteristics of dense layers. Journal of Soil and Water Conservation, 2022; 36（1）: 238–246, 254. （in Chinese）

Wei J X, Fei L J, Liang S, Jie F L. Influence of sediment particle size distribution on intermittent infiltration of water under surge irrigation. Journal of Irrigation and Drainage, 2023; 42（10）: 57–62, 84. （in Chinese）

Peng Y L, Fei L J, Jie F L, Shen F Y. Effects of organic fertilizer on soil water transport, evaporation and leaching under muddy water irrigation. Transactions of the CSAE, 2023; 39（14）: 125–135. （in Chinese）

Jiang R R, Fei L J, Kang S X, Numerical study on the characteristics of multi-point interference infiltrationwetted body in muddy water film hole irrigation. Journal of Soil and Water Conservation, 2022; 36（4）: 190–195. （in Chinese）

Kang S X, Fei L J, Zhong Y, Liu L H, Jiang R R. Effects of muddy water particle gradationon on one-dimensional infiltration law and characteristics of tight layer formation. Journal of Soil and Water Conservation, 2021; 35（6）: 222–227. （in Chinese）

Fei L J, Wang J H. Effect of clay and sand grades on single-line interference infiltration characteristics of muddy water film hole irrigation. Transactions of the SAM, 2016; 47（4）: 105–112. （in Chinese）

Liu L H, Fei L J, Chen L, Hao K, Zhang Q J. Effects of initial soil moisture content on soil water and nitrogen transport under muddy water film hole infiltration. Int J Agric & Biol Eng, 2021; 14（4）: 182–189.

Yao X, Li J S, Huang X Q, Sun X L. Distribution of Yellow River’s silt in field under border irrigation. Transactions of the CSAE, 2016; 32（18）: 147–152. （in Chinese）

Peng Y L, Fei L J, Jie F L, Hao K, Liu L H, Shen F Y, et al. Effects of bio-organic fertilizer on soil infiltration, water distribution, and leaching loss under muddy water irrigation conditions. Agronomy, 2023; 13（8）: 2014.

Kostiakov A N. On the dynamics of the coefficient of water percolation in soils and on the necessity for studying it from a dynamics point of view for purposes of amelioration. In: Transactions of the Sixth Commission of International Society of Soil Science, Russian, 1932; pp.17–21.

Philip J R. The theory of infiltration: 1. The infiltration equation and its solution. Soil Science, 1957; 83（5）: 345–358.

Liu L H, Fei L J, Chen L, Hao K. Effects of sediment concentration of muddy water on water and nitrogen transport characteristics under film hole irrigation with fertilizer infiltration. Transactions of the CSAE, 2020; 36（2）: 120–129. （in Chinese）

Song J Y, Wang J L, Wang W H, Peng LW, Li H X, Zhang C H, et al. Comparison between different infiltration models to describe the infiltration of permeable brick pavement system via lab-scale experiment. Water Science and Technology, 2021; 84（9）: 2214–2217.

Jiang R Q, Li T X, Liu D, Fu Q, Hou R J, Li Q L, et al. Soil infiltration characteristics and pore distribution under freezing–thawing conditions. The Cryosphere, 2021; 15（4）: 2133–2146.

Ma G A, Li G L, Mu X D, Hou W L, Ren Y Y, Yang M X. Effect of raindrop splashes on topsoil structure and infiltration characteristics. Catena, 2022; 212: 106040.

Mao H T, Zhang C, He T, Gu Y. Influences of seepage of muddy water on the permeability of coarse-grained soil. Transactions of the CSAE, 2022; 38（9）: 140–150. （in Chinese）