geohydrologic

简明释义

英[/ˌdʒi.oʊ.haɪˈdrɒl.ədʒɪk/]美[/ˌdʒi.oʊ.haɪˈdrɒl.ədʒɪk/]

adj. 地下水文的

英英释义

单词用法

同义词

反义词

例句

1.This paper analyzes on the geohydrologic conditions of Guzhuang Coal Mine and the present situation of the water dezasters, and advances some corresponding measures for preventing the water dezasters.

分析了固庄煤矿水文地质条件和水害现状，提出了相应的防治措施。

2.This paper analyzes on the geohydrologic conditions of Guzhuang Coal Mine and the present situation of the water dezasters, and advances some corresponding measures for preventing the water dezasters.

分析了固庄煤矿水文地质条件和水害现状，提出了相应的防治措施。

3.The study of the region's geohydrologic 地球水文的 characteristics revealed significant groundwater resources.

该地区的地球水文的特征研究揭示了丰富的地下水资源。

4.Understanding the geohydrologic 地球水文的 framework is essential for sustainable water management.

理解地球水文的框架对可持续水资源管理至关重要。

5.The geohydrologic 地球水文的 analysis helped identify potential contamination sources in the aquifer.

该地球水文的分析帮助识别了含水层中潜在的污染源。

6.Researchers conducted a geohydrologic 地球水文的 survey to assess the impact of climate change on local water supplies.

研究人员进行了地球水文的调查，以评估气候变化对当地水供应的影响。

7.The geohydrologic 地球水文的 model predicts how water will flow through the soil layers.

该地球水文的模型预测水将如何流经土壤层。

作文

The study of water in relation to the geological environment is crucial for understanding various ecological and hydrological processes. This field, known as geohydrologic (地质水文学), focuses on the distribution, movement, and quality of groundwater in the context of geology. Groundwater is a vital resource for human consumption, agriculture, and industry, making its careful management essential for sustainable development. In many regions, groundwater serves as the primary source of drinking water, particularly in arid and semi-arid areas where surface water is scarce. Therefore, the geohydrologic (地质水文学) framework provides insights into how water interacts with the earth's materials, influencing both availability and quality. Understanding geohydrologic (地质水文学) processes involves examining aquifers, which are geological formations that can store and transmit water. These aquifers vary widely in their characteristics, including porosity, permeability, and water retention capacity. For instance, sandy soils typically allow for greater water movement compared to clay soils, which tend to retain water. This variation significantly affects how groundwater is replenished and how it flows through the subsurface. Scientists use models to simulate these processes, helping predict how changes in land use, climate, or water extraction can impact groundwater resources. Moreover, geohydrologic (地质水文学) studies are increasingly important in the context of climate change. As temperatures rise and precipitation patterns shift, the recharge rates of aquifers may be altered, leading to potential shortages in groundwater supplies. Additionally, the contamination of groundwater sources due to industrial activities, agricultural runoff, and urban development poses significant challenges. Understanding the geohydrologic (地质水文学) aspects of these issues enables better planning and management strategies to protect this precious resource. Another critical aspect of geohydrologic (地质水文学) research is the interaction between surface water and groundwater. Rivers, lakes, and wetlands are interconnected with the groundwater system, influencing each other's levels and quality. For example, during periods of heavy rainfall, surface water can recharge nearby aquifers, while in dry seasons, groundwater may feed into rivers, maintaining flow levels. Recognizing these relationships is vital for effective water resource management, especially in regions facing drought or over-extraction of groundwater. In conclusion, the field of geohydrologic (地质水文学) study is indispensable for ensuring the sustainability of our water resources. By understanding the complex interactions between water and geological structures, we can develop more effective policies and practices to manage groundwater sustainably. As populations grow and climate challenges intensify, prioritizing geohydrologic (地质水文学) research will be essential for safeguarding our water supply for future generations.