摘要
为了探究广西北部湾沿海城市土地规划与城市规划冲突的根源、寻找治理冲突的可行路径,促进广西土地资源的可持续利用。通过构建"两规"冲突程度的评价指标体系,运用模糊综合评价法对广西北部湾沿海城市"两规"冲突程度进行了综合评价。在"两规"冲突利益相关者权重中,国土局为0.45,规划局为0.37,城市规划师为0.136,征地拆迁户仅占0.044;"两规"冲突程度较大,模糊综合评价结果矢量b的最大值为0.486;在规划局和国土局两方利益冲突影响因素中,评价值最高的技术标准为82.6分,法律滞后性为85.05分。构建"多规"合一的国土空间规划体系、加强国土空间规划立法、创新管理手段,是治理广西北部湾沿海城市"两规"冲突的途径。
The purpose of the study is to explore the root causes of conflicts between land planning and urban planning in the coastal cities of Guangxi Beibu Gulf,to find a feasible path for governance conflicts,and to promote the sustainable use of land resources in Guangxi.Through the construction of the evaluation index system of the"two regulations"conflict degree,the fuzzy comprehensive evaluation method is used to comprehensively evaluate the"two regulations"conflict degree of coastal cities in Guangxi Beibu Gulf.The results show that among the weights of stakeholders in the"two regulations"conflict,the land and resources bureau is 0.45,the planning bureau is 0.37,the urban planner is 0.136,and the land acquisition and relocation households only account for 0.044;the"two regulations"conflict degree is large,fuzzy comprehensive evaluation The maximum value of the result vector b is 0.486;among the factors affecting the conflict of interest between the Planning Bureau and the Land and Resources Bureau,the technical standard with the highest evaluation value is 82.6 points and the legal lag is 85.05 points.Research conclusions:Only the construction of a"multi-regulation"land-based spatial planning system,optimization of the approval process,and innovative management tools are the only ways to manage the"two regulations"conflict in the coastal cities of Guangxi Beibu Gulf.
作者
刘少坤
王有小
林树高
LIU Shaokun;WANG Youxiao;LIN Shugao(School of Natural Resources and Surveying,Nanning Normal University,Nanning 530001,China)
出处
《北部湾大学学报》
2020年第2期52-57,共6页
Journal of BeiBu Gulf University
基金
广西哲学社会科学规划项目:广西北部湾沿海城市两规冲突与协调研究(15DGL008)。
关键词
“两规”
冲突
模糊综合分析法
评价
协调
land use planning and urban planning
conflict
fuzzy comprehensive analysis
evaluation
coordinate