分析青海省柴达木盆地土壤盐分及其组成的盐渍特征,为盐碱地的合理开发利用提供依据。【方法】研究柴达木盆地不同程度盐渍化土壤的221个样点数据,通过传统的Fisher统计分析方法和相关分析相结合的方法分析主要盐分指标的变异系数、相关性,并依据全国第二次土壤普查时制定的“青海省海西州农业土壤盐化程度分级标准”,针对不同盐渍类型、主要组成盐类,将土壤盐化程度分为5级。【结果】土壤盐分及其组成的变异系数变异范围在2.8%~597.7%,Cl-、K+、Na+、全盐、Ca2+和SO42-的变异系数较大,均高于100%,pH值变异系数最低,仅为2.8%,阳离子代换量(CEC)、有机质和HCO3-属于中等程度变异,变异系数在10%~100%之间。全盐量与K+、Ca2+、Na+、Mg2+、CO32-、SO42-和Cl-之间呈极显著正相关(P<0 .01);与有机质、阳离子代换量和HCO3-之间呈显著负相关。随着盐化程度的增加,全盐、K+、Ca2+、Na+、Mg2+、SO42-和Cl-含量越高,但CEC、有机质和HCO3-则越来越低。【结论】柴达木盆地细土平原带盐渍化过程主要表现为Na+和Cl-逐渐占据主导地位的过程,最终形成氯化物盐土。土壤有机质的提升有利于减轻土壤盐渍化,农业生产中可通过增施有机肥改良盐渍化土壤。
Abstract
Qaidam Basin often plays an important ecological role in Qinghai Province. So,in order to provide the basis for the rational
development and utilization of saline-alkali land in Qaidam Basin,this investigation is carried out to study the saline characteristics of soil
salt and its composition. The combination of Fisher statistical analysis methods and correlation analysis is used to analyze the data from 221
soil sampling sites. According to the soil salinity classification standard of Haixi Zhou,Qinghai Province during the 2nd national soil survey,
the soil salinity is classified into Grade 5 for different soil salinization type and major soil salt components. The results show that the
coefficient of variation of soil salt and its components ranged from 2.8% to 597.7%. The coefficient of variation of the Cl
-
,K+
,Na
+
,total
salt,Ca2+
and SO2-
4 were high variation and the values were all over 100%. The coefficient of variation of pH value was lowest,the value was
2.8%. The coefficient of variation of cation exchange capacity,organic matter and HCO-
3was moderate variation,the values ranged from 10%
to 100%.There was a significant positive correlation between total salt and K+
,Ca2+
,Na
+
,Mg2+
,CO2-
3 ,SO2-
4 ,Cl
-
( P < 0. 01) ,respectively.
There was a significant negative correlation between total salt and organic matter,cation exchange capacity,HCO-
3,respectively. Then,the
contents of total salt,K+
,Ca2+
,Na
+
,Mg2+
,SO2-
4 and Cl
-
were enhanced,but the contents of cation exchange capacity,organic matter and
HCO-
3were reduced with the increase in soil salinization. Na
+ and Cl
- were the dominant process during the salinization process in fine soilplain belt of Qaidam Basin,eventually becoming the chloride salt. Increasing soil organic matter is beneficial to the reduction of soil
salinization,so it can be used to improve saline-alkali land by applying the organic manures in the agricultural production.
关键词
柴达木盆地 /
土壤盐渍化 /
分级标准
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Key words
Qaidam Basin /
soil salinization /
salinity classification
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基金
青海省重点研发计划项目“基于物联网的智能型水肥一
体化技术集成与示范”( 2017-NK-109) ; 青海省农林科
学院基本科研业务费重大专项“ 基于物联网的枸杞水
肥耦合技术研究与示范”( 2018-NKY-002) 。
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