机构地区:[1]浙江大学土地科学与不动产研究所,杭州310058 [2]浙江大学农业遥感与信息技术应用研究所,杭州310058 [3]中国地质大学(武汉)公共管理学院,武汉430074 [4]中国矿业大学国土环境与灾害监测国家测绘局重点实验室,徐州221116
出 处:《生态学报》2018年第1期73-85,共13页Acta Ecologica Sinica
基 金:国家重点研发计划重点专项(2016YFD0201200);浙江省教育厅重点项目(Z201121260);国家自然科学(71473249);江苏省社科基金重点项目(15EYA002)
摘 要:城市碳排放占全球碳排放总量的78%,通过模拟生物代谢来剖析城市碳代谢机理从而控制城市碳排放是缓解全球气候变暖危机的关键。为研究杭州城市化过程中土地利用变化对城市碳代谢的综合作用,以4个时间段(1995—2000,2000—2005,2005—2010,2010—2015)为例,建立了一个"碳流"模型来分析城市生态系统中自然和人工分室在城市碳代谢正负"碳流"产生中的作用,之后利用生态网络效用方法分析"碳流"产生的生态关系及其空间分布,同时利用互惠指数M综合评价土地利用变化对城市碳代谢的综合作用。结果显示(1)净"碳流"在研究期间持续呈现负值且在2000—2005年间达到峰值,负"碳流"主要源自耕地与工业用地之间的转换,正"碳流"主要源自工业用地与城市用地之间的转换。(2)1995—2000年互惠指数(M)呈现先增加后减少再增加的变化趋势,M平均值小于1,说明土地利用变化对城市碳代谢的综合作用是消极的。(3)竞争关系集聚在高负碳代谢密度分室,互惠共生关系主要集聚在高正碳代谢密度分室。(4)从1995—2000至2010—2015,以每5年为时间间隔,生态关系分布空间变化如下:掠夺限制生态关系呈现向西北、西南和南部方向蔓延—西北方向移动—东南方向移动的变化趋势,竞争生态关系呈现东南方向移动—南部和西北部方向蔓延—零星分布的变化趋势,互惠共生生态关系呈现向东南方向移动—暂时不存在—零星分布的变化趋势。研究结果为低碳城市发展提供了理论依据。Seventy-eight percent of the total global carbon dioxide emissions come from urban areas, which consume 70% of global energy. Land-use and cover changes contributes one-third of the urban carbon emissions. Thus, understanding the mechanism of urban carbon metabolism through simulating process of biological metabolism could help to control carbon emissions in urban areas; this is the key to mitigating the crisis of global warming. As part of the goal of reducing carbon emissions, the goal of this study was to understand how land use changes during urbanization influenced carbon metabolism. This study used Hangzhou as an example, and developed a spatially explicit model of carbon transfer between components of an urban system, and then used the ecological network utility analysis to explore the structure and function of the network, and determine effects of ecological relationships among components that resulted from carbon flows, their spatial distribution, and their changes over four time periods (1995-2000, 2000-2005, 2005-2010, 2010-2015), and finally used the mutualism index (M) to judge whether land use changes had positive effects on urban carbon metabolism. The results showed that:(1) Based on the empirical coefficient model, the carbon metabolism was determined; the net carbon flow continued to have negative effects during the study period and reached a peak in the period of 2000-2005, which indicated a serious imbalance in the urban carbon metabolism. The negative carbon flow mainly came from the transition between cultivated land and industrial land, and the positive carbon flow was mainly from the transition between industrial land and urban land; (2) During the period 1995-2015, the mutualism index (M), which indicated synergistic effects among components in the urban carbon metabolism, increased at first, then exhibited a downward trend, and finally began to grow again. In addition, the average value of M was less than 1, indicating that the comprehensive effect of land use chang
关 键 词:城市碳代谢 碳流 生态网络效用 生态关系 空间分布
分 类 号:TU984.113[建筑科学—城市规划与设计] X171[环境科学与工程—环境科学]
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