英文摘要 |
To effectively manage and utilize groundwater resources and ensure groundwater safety, various domestic departments have separately conducted groundwater surveys and monitoring for hydrogeological, water level, and water quality requirements. This has historically led to each department operating independently, lacking integrated thinking in overall management. To improve groundwater data integration and assist the Ministry of Environment in groundwater pollution management through system tools, the preliminary project reviewed cross-departmental groundwater systems and their data characteristics, compiling 27 groundwater-related analysis items from 8 agencies to achieve sustainable groundwater management goals.
In addition to maintaining the 'Groundwater Quality Data Management Platform' and ensuring information security management and service quality, this project continues to strengthen groundwater data integration and improve groundwater management. The system functionality development and expansion includes: establishing smart monitoring well management functions, developing monitoring well data verification items and processes, implementing mobile GIS and buffer analysis, analyzing anthropogenic pollution locations for ammonia nitrogen issues, establishing restricted groundwater use area management sections, building contaminants of concern database and search functions, health risk assessment result analysis, water quality evaluation functions, and optimizing existing GIS functions. These functional expansions enhance the value of the groundwater quality data management platform.
Regarding cross-agency groundwater data integration, this project collected 8 additional cross-agency datasets, established a cross-domain alliance cooperation section, integrated SGM system and geological center data, and developed geological integration query functions. It also implemented three-dimensional groundwater data display and proposed data interface recommendations for the National Academy of Environmental Research, expanding the system's data comprehensiveness and application scope through additional data collection and analysis.
For information security and administrative coordination, the project held three groundwater quality data management platform briefing sessions and assisted with the Net Zero City Exhibition in March. This included developing regional groundwater quality information webpages and popular science interactive webpages, with presentations during the exhibition. The project also proposed plans for different user group content and completed relevant pages for public access. Regarding information security management, 15 vulnerability scans and website inspections were submitted according to the Ministry of Environment's security regulations and soil foundation website inspection requirements. The operation manual was updated with expanded functionality content to increase project visibility while maintaining information security.
In conclusion, this project continues to expand the 'Groundwater Quality Data Management Platform' functions, implementing smart monitoring well management and contaminants of concern features, improving existing GIS functions, and developing integration methods for groundwater data and hydrogeological parameters. It also analyzes usage patterns for different user groups to support groundwater pollution management and business promotion.
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