In response to the problems of fuzzy factor boundaries and insufficient human interference in ecological sensitivity evaluation of mineral resource-based counties, taking a typical iron ore gathering area in Laiwu district in Ji'nan city as the research object, by using fuzzy comprehensive evaluation method (FCE), integrating multi-dimensional evaluation factors of "natural human mining", a five level ecological sensitivity evaluation system has been constructed. Combining with GIS spatial analysis technology, refined ecological sensitivity evaluation and zoning governance research have been carried out. It is showed that spatial differentiation characteristics of ecological sensitivity in Laiwu district are significant, with extreme and highly sensitive areas accounting for 21.96% of the total area. It is mainly concentrated in the northern ecologically fragile zone and the central mining core area, and presents three high superposition characteristics of "multiple geological disasters, high ecological value, and strong mining disturbance"; The proportion of moderately sensitive areas is 29.61%, which is a transitional zone of the ecosystem. Low and insensitive areas account for 48.43% of the total area, and mainly distribute in the western and northern plains and urban core areas. The coupling mechanism between mining activities and ecological patterns has been revealled, and the superiority of FCE model in ecological evaluation of resource-based regions has been verified. Based on this, a zoning governance strategy with "precise risk prevention and control ecological restoration and GEP value-added resilience institutional innovation" as the core has been proposed. It will provide theoretical support and practical paradigms for the maintenance of ecological security and sustainable development in similar regions.