1)  brackish water irrigation
微咸水(咸水)灌溉
2)  brackish water
微咸水
1.
Potential analysis of brackish water utilization in Hebei;
河北省微咸水利用潜力分析
2.
Application of brackish water drip irrigation technology to cotton fields in saline area of north Shandong Province;
鲁北盐渍土区棉花微咸水滴灌技术研究
3.
Establishment of brackish water irrigation system with multi-target policy;
多目标决策法制定微咸水灌溉制度
3)  saline water
微咸水
1.
Field study on impacts of soil water-salt distribution and winter wheat yield by different saline water combination irrigations;
不同微咸水组合灌溉对土壤水盐分布和冬小麦产量影响的田间试验研究
2.
Effects of saline water on cucumber yields and irrigation water use efficiency under drip irrigation;
微咸水滴灌对黄瓜产量及灌溉水利用效率的影响
3.
Distribution characteristics of different salt ions in soil under drip irrigation with saline water;
微咸水滴灌条件下不同盐分离子在土壤中的分布特征
4)  slight saline water
微咸水
1.
As one important source of solving shortage of the water resources problem for irrigation, the slight saline water is widely concerned.
为了寻求合理微咸水农田灌溉方法,进行了不同咸淡轮灌模拟试验,分析了累积入渗量、湿润锋、土壤含水量、土壤含盐量、盐分浓度和钠吸附比的变化特征,结果表明咸淡咸轮灌方式下土壤入渗能力较大,且脱盐区内脱盐率比淡咸咸的高,而淡咸咸轮灌方式下同一土层土壤含水量高。
2.
Duo to shortage of fresh water, the utilization of slight saline water is a major method for solving the problem of water shortage for farmland irrigation.
由于淡水资源短缺,微咸水开发利用成为缓减农业水资源短缺的重要措施。
3.
Development and Utilization of slight saline water for irrigating agriculture is one of major measurements to solve the problem of water shortage for farmland irrigation and saving fresh water resource .
微咸水灌溉是缓解农业供需矛盾、节约淡水资源的重要途径之一。
5)  slightly saline water
微咸水
1.
Based on the review of national and international research results of slightly saline water irrigation, theoretical analysis, laboratory and field experiments were conducted to study soil salt-water transfer under saline water irrigation, and the optimization technique on parameters of saline water surge i.
日益短缺的淡水资源严重影响着工农业生产,开发、利用微咸水进行农田灌溉具有重要意义。
2.
Based on the review of national and international research results of soil solute transport and saline water use, both theoretical analysis and laboratory experiments were conducted to study infiltration of water and solute transport in layered soils, automatic measurement of soil water and solute transport parameters , and safe use of slightly saline water.
本文在结合国内外土壤溶质运移理论与微咸水利用试验研究成果的基础上,采取了理论分析与室内试验结合的方法,对层状土水分入渗和溶质运移特征、自动测定土壤水分、溶质运移参数的方法和微咸水安全利用进行了研究,取得了如下结论: 1。
6)  brackish water
微咸水<能>
参考词条
补充资料:咸水灌溉
      利用矿化度大于2g/L的咸水灌溉农田使作物得以生长发育的技术措施。在淡水资源短缺的干旱、半干旱地区,为了抗旱增产,许多国家,如突尼斯、意大利、美国、苏联等国,都有咸水灌溉的实践;中东,特别是北非一些国家在具有良好排水和淋洗条件的砂壤土上,用3~8g/L的咸水进行灌溉;有的国家还用稀释的海水灌溉。中国陕西、甘肃、河南、河北、宁夏等省、自治区,也有利用咸水灌溉的经验。
  
  咸水灌溉的主要作用,是增加土壤含水量,稀释土壤溶液浓度,使作物能够生长发育。干旱季节土壤含水量减少,尤其在盐渍化的土地上,随着土壤含水量减少,土壤溶液浓度易于增高,作物吸收困难,根系因失水而死亡。灌咸水后,不仅增加了土壤水分,而且由于咸水的浓度相对较低,降低了土壤溶液浓度,形成了适于作物吸收水分和养分的条件,因而有明显的增产效益。
  
  合理利用咸水灌溉的技术措施主要有:①要有排水条件,以免因灌咸水而引起土壤积盐。可利用雨季降雨或有淡水灌溉时,通过淋洗将盐分排出,使土壤周年不积盐;或在干旱年积盐,平水年及湿润年脱盐。②严格掌握水质标准。一般pH值为7~8,阴离子以硫酸根为主,阳离子中的钠不超过60%,矿化度一般不超过5g/L。③尽量减少灌水次数,宜在作物拔节以后,浇一二次关键水,且灌水定额不宜过大。④有淡水的地方,要咸淡轮灌或咸淡混灌,利用淡水洗盐。⑤加强农业措施,如平整土地,防止灌后局部高地返盐;增施有机肥,培肥地力,抑制返盐;灌后及时中耕锄土,减少土壤蒸发返盐;选种耐盐作物等。⑥若引起长时间连续积盐,应适当休闲,种植牧草,利用伏雨淋洗,或秋冬引淡水冲洗,脱盐后再改种一般作物。
  
  利用浅层地下咸水灌溉,还能降低地下水位,腾出地下调蓄库容,更有利于蓄纳雨水与非灌溉期的地表水,防治渍涝与盐碱灾害,促进地下水淡化。
  

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