干旱地区农业研究
榦旱地區農業研究
간한지구농업연구
AGRICULTURAL RESEARCH IN THE ARID AREAS
2014年
4期
151-158
,共8页
梁东%李新国%阿斯耶姆·图尔迪%赖宁
樑東%李新國%阿斯耶姆·圖爾迪%賴寧
량동%리신국%아사야모·도이적%뢰저
土壤盐分%土壤剖面%湖滨带%博斯腾湖
土壤鹽分%土壤剖麵%湖濱帶%博斯騰湖
토양염분%토양부면%호빈대%박사등호
soil salinity%soil profiles%lakeside%Bosten Lake
以博斯腾湖西岸湖滨带为研究区,采集三个时期不同土壤剖面样品,结合样品实验分析,探究土壤盐分特征。研究结果表明:(1)0~10 cm土层中平均盐分含量为3.919 g·kg-1,土壤盐分表聚现象强烈;(2)垂直方向上盐分离子中Mg2+变异系数为1.034,变化程度较大,HCO3-变异系数为0.080,变化程度较小;(3)通过相关分析,硫酸盐与氯化物在表土中积聚强烈,其中SO42-与Na++K+之间相关系数为0.96,Cl-与Mg2+相关系数为0.79;Cl-和Na++K+相关系数为0.72;(4)通过对比柽柳剖面下土壤盐分含量,夏秋两个季节土壤剖面土壤盐分呈现明显的表聚现象,0~10 cm土层中盐分含量占总体的27.37%和21.88%,春季盐分在剖面上呈现强烈的底聚现象,90~100 cm土层盐分含量占总体的21.53%;(5)对比不同植被下土壤盐分特征,裸地、草地、林地、耕地四种地表类型土壤中(Na++K+)∶Mg2+∶Ca2+含量之比依次为85∶2.5∶1,16∶2.5∶1,9∶0.9∶1,10∶1.3∶1,裸地中Ca2+含量为0.104 g·kg-1,明显高于其它植被类型中Ca2+含量;Na++K+含量差异不大,平均含量为1.181 g·kg-1;草地中Mg2+平均含量为0.081 g·kg-1,是裸地中Mg2+含量的4.4倍。
以博斯騰湖西岸湖濱帶為研究區,採集三箇時期不同土壤剖麵樣品,結閤樣品實驗分析,探究土壤鹽分特徵。研究結果錶明:(1)0~10 cm土層中平均鹽分含量為3.919 g·kg-1,土壤鹽分錶聚現象彊烈;(2)垂直方嚮上鹽分離子中Mg2+變異繫數為1.034,變化程度較大,HCO3-變異繫數為0.080,變化程度較小;(3)通過相關分析,硫痠鹽與氯化物在錶土中積聚彊烈,其中SO42-與Na++K+之間相關繫數為0.96,Cl-與Mg2+相關繫數為0.79;Cl-和Na++K+相關繫數為0.72;(4)通過對比檉柳剖麵下土壤鹽分含量,夏鞦兩箇季節土壤剖麵土壤鹽分呈現明顯的錶聚現象,0~10 cm土層中鹽分含量佔總體的27.37%和21.88%,春季鹽分在剖麵上呈現彊烈的底聚現象,90~100 cm土層鹽分含量佔總體的21.53%;(5)對比不同植被下土壤鹽分特徵,裸地、草地、林地、耕地四種地錶類型土壤中(Na++K+)∶Mg2+∶Ca2+含量之比依次為85∶2.5∶1,16∶2.5∶1,9∶0.9∶1,10∶1.3∶1,裸地中Ca2+含量為0.104 g·kg-1,明顯高于其它植被類型中Ca2+含量;Na++K+含量差異不大,平均含量為1.181 g·kg-1;草地中Mg2+平均含量為0.081 g·kg-1,是裸地中Mg2+含量的4.4倍。
이박사등호서안호빈대위연구구,채집삼개시기불동토양부면양품,결합양품실험분석,탐구토양염분특정。연구결과표명:(1)0~10 cm토층중평균염분함량위3.919 g·kg-1,토양염분표취현상강렬;(2)수직방향상염분리자중Mg2+변이계수위1.034,변화정도교대,HCO3-변이계수위0.080,변화정도교소;(3)통과상관분석,류산염여록화물재표토중적취강렬,기중SO42-여Na++K+지간상관계수위0.96,Cl-여Mg2+상관계수위0.79;Cl-화Na++K+상관계수위0.72;(4)통과대비정류부면하토양염분함량,하추량개계절토양부면토양염분정현명현적표취현상,0~10 cm토층중염분함량점총체적27.37%화21.88%,춘계염분재부면상정현강렬적저취현상,90~100 cm토층염분함량점총체적21.53%;(5)대비불동식피하토양염분특정,라지、초지、임지、경지사충지표류형토양중(Na++K+)∶Mg2+∶Ca2+함량지비의차위85∶2.5∶1,16∶2.5∶1,9∶0.9∶1,10∶1.3∶1,라지중Ca2+함량위0.104 g·kg-1,명현고우기타식피류형중Ca2+함량;Na++K+함량차이불대,평균함량위1.181 g·kg-1;초지중Mg2+평균함량위0.081 g·kg-1,시라지중Mg2+함량적4.4배。
Taking western lakeside of Bosten Lake as study area ,soil samples from different soil profiles in three seasons was collected ,combined with the samples experiment and analysis to search the soil salinity characteristics .The research results showed that :(1) At the soil depth of 0 to 10cm ,the average soil salinity content was 3 .919 g·kg -1 , the phenomenon of salt accumulated in the soil surface was strong ;(2 ) In the vertical direction among the salt ions ,the variation coefficient of Mg2+ was 1 .034 with a bigger change ,HCO3 - a little change and its variation coefficient was 0 .080;(3 ) Through the correlation analysis ,it showed that sulfate and chloride were accumulated strongly in the top-soil ,the correlation coefficient between SO42- and Na+ +K+ was 0 .96 ,while the coefficient between Cl - and Mg2+was 0 .79 ,Cl- and Na+ +K+ was 0 .72;(4 ) By contrast soil salt content in tamarisk profiles ,the soil salinity showed obvious aggregation in the surface layer during two seasons in summer and autumn ,the salt content in 0 to 10 cm soil depth accounted 27 .37% and 21 .88% of the total .But in spring ,the soil salinity showed strong aggregation at the bot-tom of profile ,the salt content in 90 to 100 cm layer was 21 .53% of the total ;(5 ) Comparing soil salinity characteristics under different land cover ,in the four land surface types as bare land ,grassland ,forestry land and cultivated land ,the (Na+ +K+ )∶Mg2+∶Ca2+ content weight radio were in turn as 85∶2 .5∶1 ,16∶2 .5∶1 ,9∶0 .9∶1 and 10∶1 .3∶1 .In bare land ,the content of Ca2+ was 0 .104 g·kg-1 ,obviously higher than other land types .The content of Na+ +K+ was no any difference , the average content was 1 .181 g · kg-1 . In the grassland , the average content of Mg2+ was 0 .081 g·kg-1 ,it was 4 .4 times of the content of Mg2+ in bare land .
