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紫色土集水区氮素收支状况与平衡分析 总被引:8,自引:0,他引:8
通过 1999- 2 0 0 0年间定位观测和模拟实验 ,研究了紫色土丘陵集水区生态系统氮素养分的收入与支出参数及系统氮素平衡。结果表明 ,本区农田氮素略有盈余 ,平均为 4 2kg hm2 ,其中氮肥施用量较大 ,平均达到 35 8kg hm2 ;而林地在系统氮素循环和平衡中发挥了重要作用 ,是系统氮素从亏缺转变为盈余驱动因素之一 ;系统中有机厩肥和化肥是主要的氮素来源 ,但损失严重 ,利用率不高 ,应注意由此引起的对大气和水体的农业非点源污染问题。 相似文献
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The distribution of soil organic matter (SOM) and nitrogen on Gongga Mountain was studied in this paper. The results showed that the content of SOM and nitrogen (N) of A horizon had an ascending trend with the increase of the elevation. The vegetation types distributed higher than the mixed broad-leaved and coniferous forest have the irregular trends. In the transitional zone vegetation such as mixed trees and treeline, the content of SOM and N is higher than other vegetation types. The distribution of SOM and N of A horizon is dependent on the synthetic effect of climate and vegetation types. The vertical distribution of SOM and N in soil profiles has the similar trends for all kinds of vegetation types, i.e., the content of A horizon is higher than that of the B and C horizons, which is the same to the distribution of dead animal and plant in soil. The soil C:N is between 7 and 25, which is relatively low comparing to the appropriate C:N of 25-30. The ratio of soil carbon to nitrogen (C:N) increases with the increase of the elevation, but its vertical distribution in soil horizons varies with different vegetation types. The N exists in SOM mainly in the form of organic nitrogen, and the soil C:N correlates significantly with SOM. 相似文献
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贡嘎山东坡土壤有机质及氮素分布特征 总被引:19,自引:0,他引:19
对贡嘎山东坡自然垂直带土壤有机质和氮素的分布特征的研究表明,贡嘎山东坡表层土壤有机质和全氮含量随海拔升高有上升趋势,但在针阔混交林以上出现波动,在群落过渡带处出现显著峰值,气候和植被类型的综合作用决定了有机质和氮素的空间分布。土壤有机质和氮素在土壤剖面中的垂直分布趋势一致,凋落物层和土壤A层高于B、C层,这与动植物残体在土壤中的垂直分布格局类似。群落过渡带在腐殖质A层出现氮素累积峰。土壤碳氮比介于7~25之间,相对较低,利于土壤腐殖质化和有机氮矿化。碳氮比随海拔升高而升高,在土壤剖面中的分布随植被类型不同而有所差异。土壤中的氮素主要以有机氮的形式存在于土壤有机质中,土壤碳氮比与有机质含量显著相关。 相似文献
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紫色土的钾素形态转化 总被引:1,自引:0,他引:1
采用室内盆钵培养方法 ,研究侏罗纪蓬莱镇组 (J3P)、沙溪庙组 (J2 S)、遂宁组 (J3S)和白垩纪城墙岩群 (K1 C)紫色岩层发育土壤的钾素形态转化。结果表明 ,一年后 ,紫色土交换性钾增加 2 0mg.kg- 1 以上 ,非交换性钾增加 10 .5 8mg .kg- 1 ,结构钾减少了 31.5 6mg .kg- 1 。交换性钾、非交换性钾增加顺序分别为 :J3P >J3S >J2 S >K1 C及K1 C >J3P >J2 S >J3S ;结构钾降低的顺序为 :J3P >J3S >K1 C >J2 S。紫色土交换性钾、非交换性钾及结构钾互为消长有利于土壤源源不断地供给作物有效态钾素 ,一定程度弥补因作物带走的钾。 相似文献
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