[1] Li J-J (李晶晶), Bai G-S (白岗栓). Crown interception of apple trees in loess hilly and gully region, Northwest China. Chinese Journal of Applied Ecology (应用生态学报), 2013, 24(2): 379-387 (in Chinese) [2] Sojka RE, Bjorneberg DL, Entry JA, et al. Polyacry-lamide in agriculture and environmental land management. Advances in Agronomy, 2007, 92: 75-162 [3] Mamedov AI, Beckmann S, Huang C, et al. Aggregate stability as affected by polyacrylamide molecular weight, soil texture, and water quality. Soil Science Society of America Journal, 2007, 71: 1909-1918 [4] Han F-P (韩凤朋), Zheng J-Y (郑纪勇), Li Z-B (李占斌), et al. Effect of PAM on soil physical properties and water distribution. Transactions of the Chinese Society of Agricultural Engineering (农业工程学报), 2010, 26(4): 70-74 (in Chinese) [5] Cao L-H (曹丽花), Zhao S-W (赵世伟), Liang X-F (梁向锋), et al. Improvement effects of PAM on soil water-stable aggregates and its mechanisms in different soils in the Loess Plateau. Transactions of the Chinese Society of Agricultural Engineering (农业工程学报), 2008, 24(1): 45-49 (in Chinese) [6] Hu X, Liu LY, Li SJ, et al. Development of soil crusts under simulated rainfall and crust formation on a loess soil as influenced by polyacrylamide. Pedosphere, 2012, 22: 415-424 [7] Yu J, Lei T, Shainberg I, et al. Infiltration and erosion in soils treated with dry PAM and gypsum. Soil Science Society of America Journal, 2003, 67: 630-636 [8] Abrol V, Shainbergb I, Ladoc M, et al. Efficacy of dry granular anionic polyacrylamide (PAM) on infiltration, runoff and erosion. European Journal of Soil Science, 2013, 64: 699-705 [9] Mamedov AI, Shainberg I, Wagner LE, et al. Infiltration and erosion in soils treated with dry PAM, of two molecular weights, and phosphogypsum. Australian Journal of Soil Research, 2009, 47: 788-795 [10] Young MH, Moran EA, Yu ZB, et al. Reducing satura-ted hydraulic conductivity of sandy soils with polyacry-lamide. Soil Science Society of America Journal. 2009, 73: 13-20 [11] Bhardwaj AK, McLaughlin RA, Shainberg I, et al. Hydraulic characteristics of depositional seals as affected by exchangeable cations, clay mineralogy, and polyacry-lamide. Soil Science Society of America Journal, 2009, 73: 910-918 [12] Gokcen Y. Effects of polyvinylalcohol (PVA) and polyacrylamide (PAM) as soil conditioners on erosion by runoff and by splash under laboratory conditions. Ekoloji, 2010, 19: 35-41 [13] Shoemaker AL, Zech WC, Clement TP. Laboratory-scale evaluation of anionic polyacrylamide as an erosion and sediment control measure on steep-sloped construction sites. Transactions of the American Society of Agricultural and Biological Engineers, 2012, 55: 809-820 [14] Sepaskhah AR, Mahdi-Hosseinabadi Z. Effect of polyacrylamide on the erodibility factor of a loam soil. Biosystems Engineering, 2008, 99: 598-603 [15] Lentz RD, Sojka RE. Long-term polyacrylamide formulation effects on soil erosion, water infiltration, and yields of furrow-irrigated crops. Agronomy Journal, 2009, 101: 305-314 [16] Chen Q-C (陈渠昌), Lei T-W (雷廷武), Li R-P (李瑞平). The impacts of PAM on runoff/infiltration and water erosion from slope lands. Journal of Hydraulic Engineering (水利学报), 2006, 37(11): 1290-1296 (in Chinese) [17] Yang LX, Li SC, Sun HL, et al. Polyacrylamide molecular formulation effects on erosion control of disturbed soil on steep rocky slopes. Canadian Journal of Soil Science, 2011, 91: 917-924 [18] He JJ, Cai QG, Tang ZJ. Wind tunnel experimental study on the effect of PAM on soil wind erosion control. Environmental Monitoring and Assessment, 2008, 145: 185-193 [19] Wang AP, Li FH, Yang SM. Effect of polyacrylamide application on runoff, erosion, and soil nutrient loss under simulated rainfall. Pedosphere, 2011, 21: 628-638 [20] Szögi AA, Leib BG, Redulla CA, et al. Erosion control practices integrated with polyacrylamide for nutrient reduction in rill irrigation runoff. Agricultural Water Mana-gement, 2007, 91: 43-50 [21] Kumar A, Saha A. Effect of polyacrylamide and gypsum on surface runoff, sediment yield and nutrient losses from steep slopes. Agricultural Water Management, 2011, 98: 999-1004 [22] Pérez-Sangrador MP, León-Cófreces MC, Acítores-Benavente M, et al. Solids and nutrient removal from flushed swine manure using polyacrylamides. Journal of Environmental Management, 2012, 93: 67-70 [23] Krauth DM, Bouldin JL, Green VS, et al. Evaluation of a polyacrylamide soil additive to reduce agricultural-associated contamination. Bulletin of Environmental Contamination and Toxicology, 2008, 81: 116-123 [24] Soupir ML, Mostaghimi S, Masters A, et al. Effectiveness of polyacrylamide (PAM) in improving runoff water quality from construction sites. Journal of the America Water Resources Association, 2004, 40: 53-66 [25] Jihoon K, Melanie MM, Richard AM. Check dam and polyacrylamide performance under simulated stormwater runoff. Journal of Environmental Management, 2013, 129: 593-598 [26] Du S-N (杜社妮), Bai G-S (白岗栓), Zhao S-W (赵世伟), et al. Effects of Wote super absorbent and PAM with different application methods on soil moisture and maize growth. Transactions of the Chinese Society of Agricultural Engineering (农业工程学报), 2008, 24(11): 30-35 (in Chinese) [27] Du S-N (杜社妮), Bai G-S (白岗栓), Zhao S-W (赵世伟), et al. Effects of Wote super absorbent and PAM absorbent on soil moisture and growth of potato. Transactions of the Chinese Society of Agricultural Engineering (农业工程学报), 2007, 23(8): 72-79 (in Chinese) [28] Lentz RD. Inhibiting water infiltration with polyacryla-mide and surfactants: Applications for irrigated agriculture. Journal of Soil and Water Conservation, 2003, 58: 290-300 [29] The Agrochemistry Committee, Institute of Soil Science, Chinese Academy of Sciences (中国科学院南京土壤研究所农业化学委员会). Common Analysis Methods of Soil Agrochemistry. Beijing: Science Press, 1984 (in Chinese) [30] Li H-S (李合生). Experimental Principle and Techno-logy of Plant Physiology and Biochemistry. Beijing: Higher Education Press, 2000 (in Chinese) [31] Bai G-S (白岗栓), Zou C-Y (邹超煜), Li J-J (李晶晶), et al. Effects of PAM and super absorbent polymers on soil moisture and apple growth in sloping orchard. China Fruits (中国果树), 2015(3): 10-15 (in Chinese) [32] Chen Q-C (陈渠昌), Lei T-W (雷廷武), Tang Z-J (唐泽军). Study on mechanism by use of PAM to keep from wind erosion of lossing soil and its capability to withstand wind flow with sand. Journal of Soil and Water Conservation (水土保持学报), 2008, 22(4): 1-6 (in Chinese) [33] Wu S-F (吴淑芳), Wu P-T (吴普特), Feng H (冯浩), et al. Preventing sloping soil erosion with macromolecule polymers through simulated experiment. Transa-ctions of the Chinese Society of Agricultural Engineering (农业工程学报), 2004, 20(2): 19-22 (in Chinese) [34] Levin J, Ben-Hur M, Gal M, et al. Rain energy and soil amendments effect on infiltration and erosion of three different soil types. Australian Journal of Soil Research, 1997, 29: 455-465 [35] AI-Harbi AR, AI-Omran AM, Shalaby AA, et al. Efficacy of a hydrophilic polymer declines with time in greenhouse experiments. HortScience, 1999, 34: 223-224 [36] Hu X (胡 霞), Cai Q-G (蔡强国), Liu L-Y (刘连友), et al. Development of soil crust through simulated rainfall in laboratory. Acta Pedologica Sinica (土壤学报), 2005, 42(3): 504-507 (in Chinese) [37] Wang X-D (王旭东), Yang X-Q (杨雪芹). Effect of polyacrylamide on phosphorus adsorption, desorption and translocation. Acta Scientiae Circumstantiae (环境科学学报), 2006, 26(2): 300-305 (in Chinese) |