研究区是浅层地下水主要补给区。
The studying area is the recharge area of shallow groundwater.
研究区土壤中钾素含量变化不明显。
此研究结果有助于研究区的剩余油挖潜。
The results contribute to remaining oil development in the study area.
最后,提出了研究区土壤施肥的一些建议。
The countermeasures of fertilization in study area are also given at last.
偏度对研究区沉积环境差异的敏感性是有限的。
The sensibility of skewness to variation of sedimentary environment is finite.
结合GIS与RS对研究区进行土壤侵蚀状况评估。
The soil erosion in study area is evaluated using GIS and RS.
第二部分,主要介绍了研究区的自然概况和污染状况。
The second chapter mainly introduces the physical and pollution situation in the study area.
研究区沉积相模式与经典的曲流河沉积模式极为相似。
The sedimentary model in study area is similar with classical meandering stream.
水库蓄水和水位变化对研究区构造应力场没有明显的影响。
Both water storage and level variation have not influenced the tectonic stress field in the study area obviously.
本文首先对研究区的基本地质格架进行了简要的分析和总结。
研究区的不整合面是重要的油气运移通道和良好的储集空间。
The unconformity within the area is an important migration pathway and good reservoir of oil and gas.
近岸水下分流河道和远岸水下分流河道在研究区的分布较广。
Near - shore and far - shore under water distributary channel micro facies are relatively widely distributed in the study area.
论证了研究区断层具有油气运移通道和油气封堵界面的双重性。
The dual function of migration and sealing of fault were demonstrated in the research area.
根据研究区的重磁资料计算了该区莫霍、居里界面深度与分布。
Using gravitational and magnetic data of the area we calculated Moho and Courier interfaces.
研究区土地利用空间分布与海拔高程、坡度等地形因子有密切关系。
The spatial distributions of land use have close relation with the topography factors such as elevation and slope.
用单元预测法对研究区主采煤层小构造的复杂程度进行了定量预测。
The unit forecast method is applied to forecast quantitatively the complicated degree of small structure in main coal seam.
模型的建立,必须符合研究区的实际情况,否则,将导致模型的失真。
A model must accord with the actual condition of research area, or it will lose in reality.
研究区土壤中的污染物含量随着与弃渣场排污沟距离的增大呈递减的趋势。
The content of soil pollutants in the studying area is tapering off with lasting dreg field blowdown ditching.
通过筛选环境脆弱性因子,建立评价指标体系,进行了研究区环境脆弱性评价。
Selecting environment vulnerable factors and establishing evaluation index system, the environment vulnerability of study area was evaluated.
根据碳同位素组成和稀有气体同位素组成分析,认为研究区不存在纯的幔源气。
As the gases from different origins were interacted and mixed for along time, their composition, isotope constitution were complicated.
研究区砂岩储层的孔隙分布较为集中,储集层非均质性主要由喉道非均质性引起。
The pore distribution of the sandstone reservoir is comparatively centralized. The reservoir inhomogeneity is mainly caused by the throat inhomogeneity.
在对研究区的遥感数据进行增强处理后,选取有利波段组合,圈定了有利铀成矿的远景区。
After remote sensing image data are enhanced, the author chooses to find avail wave band combination and the prospective areas of uranium orebody.
通过对研究区生储盖组合、圈闭发育及油气成藏要素的综合分析,对研究区进行了综合评价。
According to multidisciplinary analysis of the generating rock, reservoir, cap formation, the development of trap and key element of reservoir, region of interest was comprehensively evaluated.
它不仅对研究区地质环境研究及铀矿找矿具有一定意义,而且对其他地区的应用也有参考价值。
It is not only useful for geological environment research and uranium prospecting in the study area, but also reference to applications in another area.
综合岩心、薄片、扫描电镜、地球化学等多种分析测试手段,对研究区火山岩岩石类型进行了划分。
The volcanic rock types in the study area have been classified by means of core, thin slice, scanning electron microscopy and geochemical analysis.
在综合考虑宏观沉积背景及微观沉积特征的基础上,根据沉积相的演化规律,建立了研究区沉积模式。
On the basis of macro depositional setting, micro sedimentary features and evolution regularity of sedimentary facies, sedimentary patterns of the research area have been established.
最后采用指示模拟的方法建立了研究区的沉积微相模型,并以此模型为基础建立了研究区的储层参数模型。
The facies model and reservoir model of the study area were built up by using lots of indicators.
然而,指出了该研究区北侧可能以海西期花岗岩为基底的中生代火山岩盆地是寻找大型铀矿床的主要目标。
However, the Mesozoic volcanic basins covering over the Hercynian Period granites would be main goal for looking for large uranium deposits in north part in that area.
这些模型的开发较好的完成了研究区矿床定位预测和资源潜力评估,为生产部门提出了评价成果和工作建议。
The models fulfill an ore deposit location assessment and gold ore resources assessment successfully, and bring forward an assessment outcome and work Suggestions for production departments.
这些模型的开发较好的完成了研究区矿床定位预测和资源潜力评估,为生产部门提出了评价成果和工作建议。
The models fulfill an ore deposit location assessment and gold ore resources assessment successfully, and bring forward an assessment outcome and work Suggestions for production departments.
应用推荐