Effects of Bentonite,Hydrogel and Biochar Amendments on Soil Hydraulic Properties from Saturation to Oven Dryness

作     者：Osama M0HAWESH Wolfgang DURNER 

作者机构：Department of Plant ProductionFaculty of AgricultureMutah UniversityKarak 61710 (Jordan) Division of Environmental Science and TechnologyGraduate School of AgricultureKyoto UniversityKyoto 6110011 (Japan) Institute of GeoecologyTechnical University of BraunschweigLanger Kamp 19cBraunschweig 38106 (Germany) 

出 版 物：《Pedosphere》 (土壤圈（英文版）)

年 卷 期：2019年第29卷第5期

页      面：598-607页

核心收录：

学科分类：07[理学] 

基　　金：kindly supported by the German Academic Exchange Service (DAAD) grant the sponsor of the Institute of Geoecology, Technical University of Braunschweig, Germany 

主　　题：evaporation extended multistep outflow soil amendment soil matric potential soil moisture soil water retentivity water availability WP4 dewpoint potentiometer 

摘      要：Effects of hydrogel, bentonite, and biochar as soil amendments on soil hydraulic properties and improving water availability from saturation to oven dryness were investigated. Soils were mixed with hydrogel (0.10%, 0.25%, and 0.50%), bentonite (0.5%, 1.0%, and 2.5%), and biochar (1.0%, 2.5%, and 5.0%) as soil amendments (weight:weight). Three methods (extended multistep outflow (XMSO), evaporation (EVA), and WP4 dewpoint potentiometer) were used to measure soil hydraulic properties from saturation to oven dryness. The cumulative XMSO results were more uniform across all the applied pressure steps for the amended soils. The EVA exhibited a shorter linear decrease during the first evaporation stage and a lower evaporation rate during the second evaporation stage. The WP4 results also exhibited that soil amendments increased the soil water content of the amended soils at low matric potentials. The results of soil water retention curves revealed that the unamended soil retained less water at any matric potential compared to the amended soils. Soil hydraulic conductivity decreased with increasing amount of soil amendments. The saturated hydraulic conductivity was higher for the unamended soil than the soils amended w计h 2.5% bentonite, 0.50% hydrogel, and 5.0% biochar by 11, 3, and 18 times, respectively. These results suggested that soil amendments improved soil water retentivity, which confirmed the appropriateness of these soil amendments for potential use in sandy soil improvements. However, field experiments and economical perception studies should be considered for further investigation.