作　　者： ; ; ;

机构地区： 中国科学院地理科学与资源研究所

出　　处： 《自然资源学报》 2015年第9期1461-1471,共11页

摘　　要： 面对日益频发的城市内涝问题,科学认识绿色空间控制雨水径流的作用具有重要意义。论文以北京市六环内区域为研究区,评估了2000—2010年绿色空间滞蓄雨水径流的功能及其变化。结果表明:2000—2010年北京城市绿色空间减少198.49 km2,主要表现为农田和荒草地面积减小,五到六环内绿色空间缩减最为严重,且最大斑块指数(LPI)和聚集度指数(AI)均减小,景观破碎化趋势明显。绿色空间夏季滞蓄雨水径流量由2000年的1.32×108m3增加到2010年的1.46×108m3,但雨水滞蓄率相应地由23.43%下降到16.89%,这与绿色空间面积减小和景观格局变化有关。此外,五到六环内绿色空间滞蓄雨水径流能力最高,滞蓄率高达22%~32%,且逐年呈降低趋势;二到三环内绿色空间滞蓄雨水能力最低,需要重点加强暴雨内涝防治。这主要与不同环路内绿色空间的面积和斑块连通性有关。因此,建议优化调整北京市六环内绿色空间的组成结构和景观格局,充分发挥其滞蓄雨水径流功能,以降低城市内涝风险。 Under the scenario of climate change and rapid urbanization, the effects of urban green spaces on rainwater runoff have attracted special attention. The present studies highlighted the value of urban green spaces in reducing rainwater runoff but failed to consider the effects of landscape patterns(i.e., size, shape, or spatial arrangement of vegetation patches)on runoff reduction. The study mainly focuses on the landscape pattern changes in urban green spaces(including landscape types and metrics) as well as their effects on rainwater runoff detention. This paper investigates the spatial-temporal changes of urban green spaces within the6 th Ring Road of Beijing, and estimates their effects on rainwater runoff detention based on an empirical model. The result indicates that, the urban green space area decreased by 198.49 km2 from 1040.67 km2 in 2000 to 842.18 km2 in 2010, which is mainly attributed to a sharp decrease of farmland and wasteland areas between the 5th and 6th Ring Roads. The largest patch index(LPI) and aggregation index(AI) of urban green spaces consistently decreased from 2000 to 2010, which implied the landscape patches become more isolated and fragmented. The volume of rainwater runoff controlled by urban green spaces slightly increased from 1.32 × 108m3 in 2000 to 1.46 × 108m3 in 2010 with the increase of summer rainfall, whereas the rainwater detention rate decreased from 23.43% to 16.89%. These changes are closely related to the decreases in green space area and landscape pattern metrics. In addition, the highest rainwater detention rate occurred in the urban green space between the 5th and 6th Ring Roads, however it decreased by 10% from 2000 to 2010. The urban green spaces between the 2nd and 3rd Ring Roads showed the lowest rainwater detention rate, and the flood risk should be paid highly attention. Therefore, an immense regional difference of rainwater runoff reduction is observed among five ring roads, which is closely related to the green space area and patch connectivity in different

关 键 词： 城市内涝 绿色空间 雨水径流 景观格局 北京市

领　　域： [水利工程] [水利工程]