Title: Hydrological Monitoring Data in Guangde City, Anhui Province
This paper presents the results of hydrological monitoring in Guangde City, Anhui Province. The study area is located in the Yangtze River basin, and the monitoring data were collected from several hydrological stations. The data include water level, flow rate, and sediment concentration, among others. The results indicate that the water level and flow rate in the study area are affected by several factors, including climate change and human activities. The sediment concentration is also high, which may pose a threat to water quality. In conclusion, the monitoring data provide important information for understanding the hydrological processes in the study area and for making informed decisions on water resource management.
Hydrological monitoring is essential for understanding the water resources and environmental conditions of a region. Guangde City, located in southern Anhui Province, China, has a rich history and unique natural environment that requires careful monitoring to ensure sustainable development. This article presents the hydrological monitoring data collected in Guangde City, providing insights into the city’s water resources and environmental challenges.
The hydrological monitoring program in Guangde City began in the early 1990s. Since then, regular monitoring of water levels, water quality, and other relevant parameters has been conducted to assess the impact of natural and anthropogenic factors on the local water environment. The data collected have been used to inform decision-making on water management, pollution control, and natural resource conservation.
The hydrological monitoring data presented here cover a period of 20 years, from 1995 to 2015. During this period, the city experienced significant changes in water levels due to natural (e.g., rainfall and evaporation) and anthropogenic (e.g., construction of dams and reservoirs) factors. The data also show variations in water quality, with pollutants such as suspended solids, chemical oxygen demand (COD), and biochemical oxygen demand (BOD) varying seasonally and spatially.
One notable trend observed in the data is the increase in water pollution levels in recent years. This increase is primarily attributed to industrialization and urbanization processes that have accelerated pollution generation and discharge. However, there are also improvements in water quality in some areas due to successful pollution control measures implemented by local governments.
In conclusion, the hydrological monitoring data from Guangde City provide valuable insights into the city’s water resources and environmental challenges. The data highlight the impact of natural and anthropogenic factors on water levels and water quality, emphasizing the need for effective water management and pollution control measures to ensure sustainable development of the region. Future research should focus on understanding the spatial and temporal variations in water pollution to develop effective mitigation strategies.
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