咸-淡水交替漫灌淋洗改良滨海盐土效果

为探讨咸-淡水交替淋洗改良滨海盐土效果和节水潜力,通过土柱模拟试验,对咸-淡水交替淋洗下土壤溶液电导率变化、淋出液矿化度变化、淋洗用水量等进行了研究。结果表明,咸-淡水交替淋洗模式咸水(矿化度5.35 g L_-1)淋洗阶段,当100 cm深土体底部开始有淋出液时,距土表40 cm深处土壤溶液电导率下降已非常明显,而距土表80 cm、100 cm深处土壤由于盐分的聚积而电导率较高；咸水持续淋洗下40 cm深处土壤电导率始终缓慢下降,而80 cm、100 cm深处土壤电导率变化历经较快、快速、缓慢下降三个过程。咸-淡水交替淋洗模式淡水淋洗阶段,前期不同深度处土壤溶液电导率基本保持稳定；随着淋洗水量的增加,由土表向下不同深度位置土壤溶液电导率先后经过快速下降和缓慢下降两个过程。咸-淡水交替淋洗模式咸水淋洗阶段,淋出液矿化度变化经过快速、较快、缓慢下降三个过程,直至下降到7.32 g L_-1。淡水替换咸水继续淋洗下,前期淋出液矿化度保持稳定,当淡水淋洗水量增加到7 L(27.49 cm水层)时淋出液矿化度开始下降。咸-淡水交替淋洗模式咸水、淡水淋洗阶段结束后100 cm深土体土壤平均含盐量从初始的23.92 g Kg_-1下降到5.92 g Kg_-1和1.46 g Kg_-1,咸、淡水淋洗水量分别为21.45 L和14.85 L,与对照淡水淋洗模式比较咸-淡水交替淋洗模式淡水节约率为25.38%。咸-淡水交替淋洗模式改良滨海盐土效果较好,且节水潜力较高,但相应需要更长的淋洗改良时间。

Effects of Leaching by Alternate Flooding with Salty and Fresh Water on Coastal Saline Soil

To investigate the effect of alternate flooding with salty and fresh water on improvement of coastal saline soil, a soil column simulation experiment was carried out to study the change of solution electrical conductivity, degree of mineralization and water consumption. The results showed that at the stage of flooding with salty water in treatment S-W, the changes of soil solution conductivity and total dissolved solid of effluent were similar to those in treatment CK. At the followed stage of flooding with fresh water in treatment S-W, the soil solution conductivity in different depths remained stable at the beginning, and then decreased rapidly and finally decreased slowly. Compared with the treatment of CK, the water saving rate of treatment S-W was 25.38%. Leaching by alternate flooding with salty and fresh water could improve the coastal saline soil and its potential of water saving is obvious, but the cost of time is more.