1) soil porosity
土壤孔隙
1.
The results showed that:(1)The soil water infiltration rates in layer A were higher than those in layer B for all kinds of vegetation,which were remarkably related to soil porosity.
结果表明:(1)各森林植被类型林地A层土壤渗透速率和孔隙度均高于B层,土壤渗透速率与土壤孔隙度之间存在显著相关关系。
2) soil macropore
土壤大孔隙
1.
Soil macropore and its studying methodology.;
土壤大孔隙及其研究方法
2.
The soil macropore could contain some preferential flow, which would lead to groundwater pollution.
土壤大孔隙可导致优先流从而引起地下水污染,植物根孔属于土壤大孔隙的一类,它在导致优先流引起的地下水污染方面有特殊的作用。
4) soil porosity
土壤孔隙度
1.
By analysis of sampled soil physical properties,compared that with bare area,the results show that: there is no certain change pattern between soil bulk density and soil porosity;the bulk of soil bulk density gets larger and the soil gets deeper,while the soil bulk density gets smaller at certain depth and the capability of sluice falls.
以徐州市三环路内4个城区的公园绿地土壤为研究对象,通过对其土壤的物理性状取样分析,同时与无植被覆盖的裸地进行对比,结果表明:该城区公园绿地土壤容重与孔隙度随时间无确定的变化规律;该土壤容重开始随土壤深度增加而减小,某一深度以后逐渐增加,而土壤孔隙度随土壤深度增加而增加,某一深度以后逐渐减小,土壤蓄水保水能力降低。
2.
Plastic mulching or intercropping combined with pruning and fertilization not only increased the biomass yield of Japanese honesuckle ( Lonicera japonica Thumb) but also improved its water- and soil-conserving effect, for such management technologies decreased soil bulk density, increased soil porosity and enhanced the water-holding capacity of the soil.
对金银花采取地膜覆盖、间作的种植模式,结合修剪、施肥的管理技术,可有效降低土壤容重,增加土壤孔隙度,提高土壤贮水量,不仅增加了金银花的生物学产量,而且提高金银花的水土保持效益。
3.
The results showed the evident existences of the vertical spatial variability of porosity in soils on mm-scale; the variability of the cultivated soil originated from a prairie soil was higher than that originated from a forest soil, and the variability has a negative relation with the soil porosity but a positive relation with the soil depth with the tillage horizon; however, the variabi.
结果表明,土壤孔隙度在 mm尺度上存在较为明显的变异;不同的土壤变异性存在一定的差异;变异性与土壤孔隙度呈反向关系,与土壤深度呈正向关系;在耕作期,变异性随时间呈现一定的波动趋势。
5) soil pores
土壤孔隙 SP
6) WFPS
土壤充水孔隙度
1.
To study the main microbial processes contributed to N2O emission,enrichment technique was used to isolate autotrophic nitrifiers,heterotrophic nitrifiers/aerobic denitrifiers and anaerobic denitrifiers from vegetable soil,and two re-inoculating soils autoclaved were incubated at 30 ℃ under 30%,50%,100% WFPS(Water-f.
本研究主要是通过微生物分离手段加富培养菜园土中的硝化菌、厌氧反硝化菌和异养硝化/好氧反硝化菌,并在30%、50%和100%3种土壤充水孔隙度(指土壤体积含水量与总孔隙度的百分比,V/V)水分条件下进行无菌菜园土反接种培养实验,研究了不同水分条件下、不同土壤微生物类群的产N2O量。
补充资料:土壤孔隙
见土壤物理。
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