1) soil density
土壤密度
1.
The result shows:(1) The soil density and stone content increased with increasing soil depth;while total porosity,capillary porosity,non-capillary porosity,saturated water content,(capillary) soil water content,and field capacity of soil decreased with increasi.
结果表明:(1)随土深增加,土壤密度和石砾含量逐渐增大,而土壤总孔隙度、毛管孔隙度、非毛管孔隙度、土壤饱和持水量、毛管持水量和田间持水量却逐渐减小,但非毛管孔隙度在100cm以下土层时因石砾含量加大却随土深增加而增大;(2)各项土壤水文物理性质基本上均是阴坡优于半阴半阳坡和阳坡,半阴半阳坡与阳坡差别不大;(3)随着坡位下降,土壤厚度、土壤密度、石砾含量、非毛管孔隙度逐渐增大,总孔隙度和毛管孔隙度逐渐减小,各种持水量指标基本上也是程度不同地减小,但上坡的持水量指标大于阴坡坡顶;(4)4种植被类型0~30 cm土层的土壤密度为天然灌丛<天然草地<乔木林地<退耕地;石砾含量为退耕地最低,其它3种植被类型差别不大;总孔隙度、毛管孔隙度、饱和持水量、毛管持水量和田间持水量均是天然灌丛>天然草地>乔木林地>退耕地;非毛管孔隙度则是退耕地>乔木林地>天然灌丛>天然草地。
2.
In order to find out the effects of super absorbent polymers(SAP) on physical and chemic characteristics of soil and apply it reasonably on drought resistance and water saving,soil moisture constants,soil density,pH values,soil expansion ratios and soil hardness of SAP-mixed soil were measured at experimental station,Agricultural University of Hebei.
结果表明:保水剂能显著提高土壤中的土壤水分常数和土壤孔隙度,但混剂土的土壤密度减小;保水剂能明显提高土壤的膨胀性能65%~170%;保水剂加入土壤后对土壤的pH值影响较小;在土壤大量失水后,保水剂能明显降低土壤坚实度,对照土壤的硬度是混剂土硬度的5。
2) soil bulk density
土壤密度
1.
With the increment of soil bulk density and water discharge rate, the movement of horizontal wetting front increased and the vertical movement decreased.
土壤质地、滴头流量、土壤密度以及供水方式等因素对于点源入渗有着一定的影响。
3) Soil carbon density
土壤碳密度
1.
In the whole watershed,mean soil carbon density of mountain area was 25.
论文利用改进的土壤类型法———基于网格的土壤类型法,以干旱区典型的三工河流域为例,精确估算流域土壤碳储量,分析土壤碳密度的空间分布特征,为干旱区土壤碳循环研究提供数据支撑。
2.
For the whole soil section,soil carbon density in all forest types varied from 12.
(2)4种林分土壤碳密度存在显著差异,其各土层变化范围为1。
3.
For the whole soil section,soil carbon density in all forest types varies from 13.
(2)4种林分土壤碳密度差异显著,其各土层变化范围为1。
5) dry density of soil
土壤干密度
6) Soil nitrogen density
土壤氮密度
1.
The main results were as follows:Soil nitrogen density was influenced by many factors.
本研究选取人口稠密的川中丘陵乡村区域为研究对象,以高分辨率卫星遥感图片与GPS、GIS技术相结合,首先对影响区域土壤氮密度的因素进行分析,结合相关影响因素,采用生态立地法、土地覆盖法、土壤类型法、普通克里格法、多元回归法和回归克里格法估算区域土壤氮密度;最后,采用蒙特卡罗模拟方法对结果进行不确定性的定量评价,获得了较为准确的土壤氮密度空间分布估算结果,找出了适合于村域景观土壤氮密度最佳的空间表达方式。
补充资料:非密度制约因素(见密度制约因素)
非密度制约因素(见密度制约因素)
l焦非密度制约因素见生态因素、密度制约后
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条