Higher soil heat flux correspond to lower soil water content.
较大土壤热通量对应于较低的土壤水含量。
Different soil water content had affected 4 species trees growing.
不同土壤水分含量对4个树种的生长特性有不同的影响。
Soil water content forecast is base work for cropland irrigation timely.
土壤水分预报是农田适时适量灌水的基础。
DNA content was unaffected when soil water content was above wilting point.
DNA含量则不受土壤含水量高于萎蔫点的水分胁迫影响。
Rainfall made soil increase more water if the initial soil water content lower.
土壤初始含水量越低,降雨使土壤水分含量增量越大。
These indices showed a significant negative correlation with soil water content.
这些指标均与土壤含水量呈负相关。
Different soil water content had affected on 4 species water consumption character.
不同土壤水分含量对4个树种的耗水特性有不同的影响。
Along with temperature decreasing at night, soil water content would increases slightly.
随着土壤温度的降低,土壤水分含量在晚上会出现略有增加的情况。
The concentration had a "s" shape correlation with soil water content at the different time.
膜孔肥液入渗土壤浓度与土壤含水量的关系在不同时间均近似于“S”型曲线。
Results showed that soil water content could evidently reduce soil loss by wind on side slope .
结果表明,土壤含水率可以不同程度地减少边坡的平均风蚀量。
Soil water content had a substantial impact on P uptake and P use efficiency in all 4 cultivars.
土壤水分对4个品种的磷吸收效率和利用效率均有显著影响。
Compared with conventional tillage method, the mulch tillage practice increased soil water content.
与常规耕作方式相比,随着秸秆覆盖量增加,土壤水分增加。
The vertical distribution and monthly variation of soil water content in Jiamusi City were analyzed.
分析了佳木斯市城市土壤水的垂直分布,土壤水的月蓄水量变化特征。
Under conventional till, crop response to spring soil water content was considerably greater than under zero till.
在常规耕作条件下,春季作物对土壤水份含量的响应要比免耕地大得多。
Through shear test, effects of slope soil water content on soil shear strength of different vegetation were studied.
本文通过直剪试验,研究边坡土壤含水率对不同植被类型土壤抗剪强度的影响。
The nuggets of bulk density and wilting point are very tow, and the nugget of soil water content is decreased with depth.
容重和萎蔫含水量的块金值都很小,尤其是萎蔫含水量在各层的块金值都相等,含水量的块金值随剖面深度而降低。
The average soil water content of different artificial forests was about 8%, which showed the arid characteristic of soil.
不同人工林土壤平均含水率为8%左右,表现出土壤干旱的特点。
The relations between soil water content and the root system formation of rice seedlings were studied with pot experiments.
采用盆栽试验,研究土壤水分与水稻秧苗根系形态建成的关系。
It is suggested that iron chlorosis of peanut grown on calcareous soil could be prevented by controlling soil water content.
所以控制土壤含水量能有效地防止石灰性土壤上花生缺铁黄化症状的发生。
According to the principles of time domain reflectometry, a new kind of sensor of soil water content measurement is explored.
根据时域反射技术原理,研制了测量土壤含水率的一种新型传感器。
The observations included the micrometeorology, radiation, eddy covariance observation systems and soil water content profiles.
观测系统主要包括:常规气象、辐射、涡度相关法观测系统以及土壤水分观测剖面。
It was figured out that the soil water content and plant biomass were the key factors to affect the soil organic carbon content.
可以认为土壤含水量和植物生物量是影响土壤有机碳含量的重要因素。
The surface soil water content was close with different mineralization degree levels water, which approached saturated water content.
不同矿化度的水入渗后,土壤表层含水率基本相近,接近饱和含水率。
The results showed that soil capacitance increases obviously with increase in soil water content and is little effected by other factors.
结果表明,土壤的电容量随土壤水分的增加而明显地增加,受其它因素的影响较少。
It is necessary to quantify the relationship between pixel color RGB value and soil water content for the application of dye infiltration.
建立像素颜色RGB值与土壤含水率之间的数学关系,是染色入渗法的应用基础。
The impacts of climate on potential evapotranspiration and soil water content under 2080's climatic condition were simulated with the model.
还利用建立的模型,模拟了2080年的气候条件变化对潜在蒸散量和土壤水分含量的影响。
The dynamic relationship between the biomass of switchgrass and the soil water content in arid and semiarid area was investigated in this paper.
通过在黄土高原半干旱地区种植柳枝稷,构建生物量与土壤水分的动力学关系模型。
It is important element of production management to control soil water content reasonably and harmonize growth between root and stem at this stage.
合理地控制土壤水分含量,协调地上部分和地下部分的生长是此期生产管理的重要环节。
It is important element of production management to control soil water content reasonably and harmonize growth between root and stem at this stage.
合理地控制土壤水分含量,协调地上部分和地下部分的生长是此期生产管理的重要环节。
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