摘要
低盐再生水是一种回用潜力巨大的替代性水源,为探究其灌溉亚热带红壤的适宜性,该研究以校园生活污水为再生水水源,设置再生水单一灌溉(WW)、再生水与蒸馏水交替灌溉(AWW)两种灌水模式,并以蒸馏水单一灌溉(CK)为对照。通过室外模拟土柱试验,研究了低盐再生水不同灌溉模式下红壤的盐碱度、微观结构及水力特性,并探讨了三者之间的相互作用关系。结果表明:1)低盐再生水灌溉降低了红壤的持水能力和导水能力;2)与CK处理相比,低盐再生水灌溉导致红壤田间持水率和凋萎系数降低,有效水在WW处理下增加6.33%,在AWW处理下减小27.85%;3)大孔隙含量均增加,而有效孔隙、微小孔隙含量在WW处理下增加,分别为16.1%、11.0%,在AWW处理下减小,分别为10.5%、4.9%;4)与CK处理相比,低盐再生水灌溉使红壤电导率(Electrical Conductivity,EC)和Na+含量显著提高,而交换性阳离子总量(Cation Exchange Capacity,CEC)显著降低(P<0.05)。再生水两种灌溉模式中,AWW处理下土壤交换性钠百分比(Exchangeable Sodium Percentage,ESP)和钠吸附比(Sodium Adsorption Ratio,SAR)分别显著高于WW处理142.4%、120.3%(P<0.05),从而引起更强烈的土壤黏粒分散;5)田间持水率、凋萎系数、有效水及有效孔隙和微小孔隙比例均与交换性Na+、ESP、SAR呈显著负相关,与CEC呈显著正相关。综上,低盐再生水灌溉亚热带红壤宜选择单一灌溉模式,且应定期监测土壤SAR和ESP等指标。研究结果可为再生水水质标准和灌溉制度制定提供参考。
Domestic wastewater is characterized by a single and stable source,good biodegradability,and low salinity,but high Chemical Oxygen Demand(COD)in densely populated areas,such as campuses and communities.Therefore,there is a great potential to reuse,due to the low cost of treatment.A sustainable water recycling system can be expected to effectively alleviate the seasonal drought and water shortage with high quality in South China.However,accumulative irrigation with low-salinity reclaimed wastewater can cause a change in soil structure and hydraulic properties,and then result in irreversible damage to the soil.This study aims to explore the effects of low-salinity reclaimed wastewater irrigation on the hydraulic properties and microstructures in subtropical red soil.The campus's domestic wastewater was also treated for irrigation.Two irrigation modes were applied,including continuous reclaimed wastewater irrigation(WW),and alternating reclaimed wastewater and distilled water irrigation(AWW).In addition,the distilled water continuous irrigation was set as the control treatment(CK).An outdoor simulated soil column test was carried out to determine the soil salinity and sodicity,while the microstructure and hydraulic properties were under the irrigation modes.The interaction mechanism was proposed between the soil salinization,structure,and hydraulic properties.The results showed that:1)Low-salinity reclaimed wastewater irrigation led to the decrease of water holding capacity and hydraulic conductivity of the red soil.Specifically,the water holding capacity under the WW treatment was higher than that under the AWW treatment,whereas,the unsaturated hydraulic conductivities were on the contrary.There was a small difference in water diffusivities under the two low-salinity reclaimed wastewater irrigation modes.2)The low-salinity reclaimed wastewater decreased the field water holding capacity and wilting coefficient of the red soil,compared with the CK treatment.The available water increased by about 6.33%under the WW treatment,but decreased by 27.85%under the AWW treatment.3)The low-salinity reclaimed wastewater increased the proportion of macropores.The proportion of effective pores and micropores increased under the WW treatment,which were 16.1%and 11.0%respectively.The proportion of effective pores and micropores decreased under the AWW treatment,which were 10.5%and 4.9%,respectively.4)Low-salinity reclaimed wastewater irrigation significantly increased the Electrical Conductivity(EC)value and Na+concentration of the red soil(P<0.05),but significantly decreased the Cation Exchangeable Capacity(CEC)(P<0.05),compared with the CK treatment.The soil Exchangeable Sodium Percentage(ESP)and Sodium Adsorption Ratio(SAR)under the AWW treatment were significantly higher by 142.4%and 120.3%,respectively(P<0.05)than that of the WW treatment,resulting in stronger clay dispersion.The soil particle morphology was also confirmed by scanning an electron microscope.5)Principal component and Pearson correlation analysis were used to analyze the interaction between the soil structure,hydraulic properties,as well as soil salinity and sodicity.The field water holding capacity,wilting coefficient,available water,the proportion of effective pores,and micropores were significantly negatively correlated with the exchangeable Na+,ESP,and SAR,but significantly positively correlated with the CEC.The water with good quality(rainwater)can be involved in the process of low-salinity reclaimed wastewater irrigation,due to the high rainfall variability in subtropical regions,thus intensifying the destruction of reclaimed wastewater on the red soil.Therefore,much attention should be paid to monitoring the soil SAR,ESP,reclaimed water quality,and irrigation mode.The findings can provide a strong reference to formulate the reclaimed wastewater irrigation schedules in subtropical red soil areas.
作者
卢佳宇
王辉
欧阳赞
Lu Jiayu;Wang Hui;Ouyang Zan(College of Water Resource&Civil Engineering,Hunan Agricultural University,Changsha 410128,China)
出处
《农业工程学报》
EI
CAS
CSCD
北大核心
2022年第18期103-112,共10页
Transactions of the Chinese Society of Agricultural Engineering
基金
国家自然科学基金项目(41471185)
湖南省战略性新兴产业科技攻关与重大科技成果转化项目(2020NK2003)
湖南省水利科技项目重大项目(XSKJ2021000-02)。
关键词
灌溉
再生水
盐碱度
土壤水分特征曲线
水分常数
红壤
irrigation
reclaimed water
salinity and sodicity
soil water characteristic curve
moisture constant
red soil