PROGRESS IN GEOGRAPHY ›› 2020, Vol. 39 ›› Issue (10): 1770-1782.doi: 10.18306/dlkxjz.2020.10.015
• Reviews • Previous Articles Next Articles
CHENG Chaonan1(), HU Yang2, ZHAO Ming1,*(
)
Received:
2019-11-05
Revised:
2020-02-21
Online:
2020-10-28
Published:
2020-12-28
Contact:
ZHAO Ming
E-mail:chengzi0403@126.com;zm0940@126.com
Supported by:
CHENG Chaonan, HU Yang, ZHAO Ming. Progress and prospect of the spatiotemporal change and ecosystem services evaluation of urban green space pattern[J].PROGRESS IN GEOGRAPHY, 2020, 39(10): 1770-1782.
Tab.1
Evaluation of ecosystem services function of urban green space patterns"
生态系统服务功能指标 | 研究目的 | 研究方法 | 研究内容/研究结果 | |
---|---|---|---|---|
一级类 | 二级类 | |||
调节服务 | 改善气候 | 城市绿色空间格局与城市热岛、城市冷岛 | 遥感影像、景观格局指数评价 | 城市绿色空间格局的遮阳、蒸发和蒸腾过程,可有效缓解城市热岛现象[ |
空气调节 | 城市绿色空间格局与PM2.5、碳储存 | 形态空间模式分析方法、景观格局指数评价 | 从空间视角出发,采用形态空间模式分析方法将城市绿色空间分为7类,通过景观格局的演变分析城市绿色空间格局与PM2.5之间的关系[ | |
水资源调节 | 城市绿色空间格局与水资源调节 | 景观生态安全格局、生态红线 | 以北京雁栖湖流域为例,通过划定水生态空间红线,确保水体生态系统服务功能的持续发挥[ | |
雨水调节 | 城市绿色空间格局与雨水调节 | 雨水径流的经验模型、景观格局指数评价 | 研究北京城市绿色空间的景观格局变化及其对雨水径流减少的影响[ | |
支持服务 | 生物多样性保护 | 城市绿色空间格局与鸟类多样性保护及动物栖息地规划 | SPOT-XS多光谱卫星图 | 以鸟类为例,认为分区制能够解决城市绿色空间中动植物栖息与游憩功能之间相矛盾的状况[ |
文化服务 | 身心健康 | 城市绿色空间格局与健康 | 可达性分析、普通最小二乘回归模型 | 以英国布里斯托尔地区为例,分析城市绿色空间可达性与身体活动和超重人群的关系[ |
娱乐功能 | 城市绿色空间的户外休闲服务评价 | 娱乐机会频谱模型 (Recreational Opportunity Spe-ctrum, ROS)、调查、空间数据分析、主成分分析 | 采用ROS模型评估了美国亚特兰大都市的户外休闲服务[ |
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