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Xin HANG Yachun LI Xiaochun LUO Min XU Xiuzhen HAN 《Journal of Meteorological Research》2020,(2):280-293
Assessing the ecological status of different districts within a city undergoing urbanization is challenging given their complex surface types and fast pace of development.In this study,we utilized satellite data obtained from Landsat5/TM(Thematic Mapper)and Landsat 8/OLI(Operational Land Imager)images in conjunction with meteorological and socioeconomic data to construct a remote sensing ecological index(RSEI)for monitoring the ecological quality of Nanjing,Jiangsu Province.A higher RSEI value corresponded to better ecological quality.Five ratings were associated with RSEI values of city districts:very poor,poor,average,good,and excellent.In Nanjing,the percentage of areas evidencing good RSEI ratings decreased from 55.9%in 2000 to 48.0%in 2018,whereas there was a slight increase in areas with very poor RSEI ratings during this period.Of the 11 city districts,16.8%,21.8%,and 61.4%respectively evidenced the increasing,decreasing,and stable ecological quality relative to their quality in 2000.Of the11 administrative districts in Nanjing,the main urban districts evidenced increased RSEI values in 2018 compared with those in 2000,with the improved areas exceeding the ones that had deteriorated in these districts.However,the ecological quality of new urban and ed because of the urban expansion,with areas that had deteriorated exceeding the improved ones.Of the three protected ecological zones,the quality of Zijin Mountain National Forest Park was considerably better than that of Laoshan and Jiangxinzhou.Overall,the urbanization rate and RSEI evidenced a high negative correlation coefficient value(-0.76).The urbanization process of Nanjing induced a declining trend for the ecological quality,indicating the need of strong protection measures for the maintenance or improvement of its ecological environment. 相似文献
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上海城市集群化发展显著增强局地高温热浪事件 总被引:8,自引:1,他引:7
上海作为中国城市集群化发展的典型代表,经过30余年圈层式、集群化扩张,城市建设用地面积比例高达47.9%,接近50%的生态阈值。城市群快速扩张诱发了一个以徐家汇为中心覆盖周边40 km的区域性热岛,影响高温热浪的时空分布。基于DMSP/OLS遥感夜间灯光数据构建的城市发展指数,客观地反映出1992—2013年上海西郊嘉定、青浦和东郊的浦东集群化发展特征最凸出。利用Chow检验最优分段建模法,研究发现高温热浪期间城市群热岛突变转折与区县城市发展指数超过60%的年份相对应。城市发展指数超过60%后,近郊城市继续扩张将缩小城、郊气象站的温差,诱发更大范围热岛,增强高温热浪。1977—2000年近郊区县城市发展指数低于60%,高温热浪各要素项城郊差值显著上升,而2000年西郊城市发展指数超过60%后,和市中心差值减小,快速城市化明显增强西郊高温热浪强度和持续时间。1978年以来上海西郊与远郊高温日数差值增加了1.6倍,平均气温差值增加了34.4%,平均最高气温差值增加了41.7%。高温热浪期间遥感数据显示,向西郊伸展的城市群地表温度高值区规模扩大了32.8%,是西郊高温热浪增强的驱动因子。 相似文献
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利用Google Earth Engine(GEE)云平台,在原有遥感生态指数(RSEI)基础上,选用增强型植被指数(EVI)代替原绿度指标中的NDVI,构建并计算2001—2020年长白山地区植被生长季RSEI,采用回归分析、波动分析、Hurst指数等方法,分析长白山地区RSEI时空变化特征并探讨其气候影响因素。研究表明:(1)2001—2020年长白山地区RSEI波动缓慢上升,生态环境质量整体呈上升趋势。RSEI多年均值空间分布具有明显的分异性,长白山保护开发区生态环境质量较好,通化市、白山市大部较差。(2)近20年长白山地区RSEI稳定性较差,生态环境质量较脆弱。未来生态环境趋势总体向好,但局部地区仍存在持续恶化态势。(3)长白山地区RSEI主要受降水影响较大,与降水呈显著正相关,与气温相关性不强。 相似文献
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选取与生态环境相关的10个遥感反演指数,应用主成分分析法,构建生态环境状况指数(Remote Sensing Ecological Environment Index,RSEI)和水源涵养功能指数(Water Conservation Index,WCI)并进行等级划分,评估了2000~2019年雅砻江源生态保护红线区生态环境状况、水源涵养能力及其时空格局变化。结果表明:(1)雅砻江源生态保护红线区RSEI东部略好于西部,评价等级优的区域面积占比为15.96%、良占51.28%、一般占27.61%、较差占5.13%。RESI变化趋势呈轻度改善的地区占比为52.96%,其中东北部以轻度改善为主,东部以轻度退化为主,生态环境极显著退化区域分布零散。(2)雅砻江源生态保护红线区水源涵养生态功能保持良好,北部优于南部,WCI评价等级为差、较差和一般的区域主要分布在中部和南部部分地区,较为零散。WCI评价等级优的区域面积占比为43.22%、良占35.71%、一般占17.45%、较差占3.48%、差占0.02%。WCI变化趋势在西北部以轻度改善为主且空间差异较大,在南部以显著改善为主。(3)1990年以来,研究区气温上升速率为0.56℃/10 a,生长季平均气温上升速率为0.1℃/10 a,降水量上升速率为27.7 mm/10 a,生长季平均降水量上升速率为83.5 mm/10 a。(4)2000~2019年雅砻江源生态保护红线区气候暖湿化对于植被恢复性生长、碳储和减少水土流失均十分有利,生态环境状况和水源涵养功能得以持续改善。 相似文献
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基于卫星产品和地面气象观测数据,构建遥感生态指数(Remote Sensing Ecological Environment Index,RSEI)和生物多样性维护功能指数(Biodiversity Maintenance Function Index,BMI),对 2000~2019年大雪山生态红线区的生态环境状况和生物多样性维护功能进行评价,并分析了红线区气候变化特征。结果表明:(1)2000~2019年红线区生态环境状况总体呈变好趋势,RSEI一般及以上等级所占的面积比例达90%。红线区内生态环境状况区域差异明显,北部和中部生态环境较好,东南部生态环境较差。(2)2000~2019年红线区生物多样性功能持续改善,BMI一般及以上等级所占的面积比例达84.912%。红线区内BMI一般及以上等级主要位于北部、中部和西部部分地区,差和较差等级主要分布于东南部地区。(3)1990年以来,大雪山红线区显著增暖,降水充足,日照略增,风速略减。暖湿气候条件有利于红线区生态的恢复,使生态环境状况和生态功能趋于好转。 相似文献
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利用2008年南京市23个自动气象观测站观测的气温资料,分析南京市城市热岛效应的空间分布及其变化特征。结果表明:南京市的热岛中心主要分布在人口和建筑物密集的鼓楼,白下和建邺区,下关、江宁和浦口等城区气温较低;2008年南京市平均城市热岛强度为1.6℃,四季热岛强度呈秋季、春季、冬季、夏季依次减弱;南京市城市热岛效应对城市居民生活影响较大。南京市热岛效应的逐渐增强,将导致夏季空调使用量的增加,增加能耗对创建低碳城市、建设和谐城市生活产生消极影响。 相似文献
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利用2008年南京市23个自动气象观测站气温资料,分析南京市城市热岛效应的空间分布及其变化特征。结果表明:南京市的热岛中心主要分布在人口和建筑物密集的鼓楼、白下区和建邺区,下关、江宁和浦口等城区气温较低;2008年南京市平均城市热岛强度为1.6℃,四季热岛强度呈秋季、春季、冬季和夏季依次减弱;南京市城市热岛效应对城市居民生活影响较大。南京市热岛效应的逐渐增强,将导致夏季空调使用量的增加,增加能耗对创建低碳城市、建设和谐城市生活产生消极影响。 相似文献
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南京市夏季热岛特征及其与土地利用覆盖关系研究 总被引:4,自引:0,他引:4
利用南京市7月的Landsat TM热红外波段数据,根据单窗算法反演得到南京市地表温度,讨论了南京市热岛特征,并分析了产生这种现象的原因。通过遥感和地理信息系统相结合,运用Landsat TM数据,提取出南京市下垫面类型,分析了不同地表覆盖类型的热辐射特征并定量地分析了土地利用及植被对地表温度的影响。结果显示,南京市夏季主要存在3个热岛中心,分别是建成区、大厂区和八卦洲。南京城区地表温度明显比郊区地表温度高,通过地表温度对比分析发现,城区平均地表温度比城市边缘和远郊区地表温度分别高出3.5℃和5.7℃,城市热岛效应明显。不同地表覆盖类型的地表温度也有显著差异,从高到低依次为:城镇建设用地、耕地、草地、林地、水体。城镇建设用地与水体的表面温度最大相差14℃。城市地表温度与植被覆盖度具有明显的负相关关系,城市地表植被覆盖度低是城市热岛出现的主要原因,今后应当更加注重城市绿地建设,提高植被覆盖率。 相似文献
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为了解邛崃山生态保护红线区生态环境及生物多样性维护状况,利用卫星遥感和地形数据,运用主成分分析法,建立遥感生态指数和生物多样性维护功能指数模型,对邛崃山生态保护红线区2000~2019年生态环境状况和生物多样性状况开展监测评估.结果表明:就遥感生态指数而言,近20a区域平均值为0.642~0.680,红线区南部多为高值... 相似文献
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利用Landsat卫星数据分别反演了2005年和2014年临沂市的地表温度和不透水层指数,分析了城市化进程对临沂市热岛效应的影响。结果表明,2005年临沂市表现为中等强度的热岛效应,2014年表现为强热岛效应。利用地面站点资料统计分析来看,2005~2014年,临沂市热岛强度总体呈波动增加的趋势,冬季最强,春秋季次之,夏季较弱。分析城市化因子发现,城市经济、人口、用电消耗、城市房屋面积增量等多个因素对城市热岛强度变化的影响,其相关系数分别为0.86、0.82、0.67、0.81,其中房屋面积增量与热岛强度增强密切相关。从不透水层指数分布图的动态变化来看,也说明了城市化进程中城镇建筑和硬化的路面的增多导致了热岛强度的增强。 相似文献
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Petr Dobrovolný 《Theoretical and Applied Climatology》2013,112(1-2):89-98
Thermal infrared images from Landsat satellites are used to derive land surface temperatures (LST) and to calculate the intensity of the surface urban heat island (UHI) during the summer season in and around the city of Brno (Czech Republic). Overall relief, land use structure, and the distribution of built-up areas determine LST and UHI spatial variability in the study area. Land-cover classes, amount and vigor of vegetation, and density of built-up areas are used as explanatory variables. The highest LST values typically occur in industrial and commercial areas, which contribute significantly to surface UHI intensity. The intensity of surface UHI, defined as the difference between mean LST for urban and rural areas, reached 4.2 and 6.7 °C in the two images analyzed. Analysis of two surface characteristics in terms of the amount of vegetation cover, represented by normalized difference vegetation index, demonstrates the predominance of LST variability (56–67 % of explained variance) over the degree of urbanization as represented by density of buildings (37–40 % of LST variance). 相似文献
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为研究城市人体舒适度变化和城市化进程的关系,明确影响人体舒适度的主要城市因子,该文首先利用1981—2010年长江三角洲地区上海、南京、杭州、合肥的气象数据,研究气候舒适度及其变化趋势,并研究了影响人体舒适度的主要城市因子。研究结果表明:上海、南京、杭州、合肥冷不舒适日数均呈减少趋势,热不舒适日数均呈增加趋势,舒适日数变化不大。城市化综合水平与冷不舒适日数倾向率之间达到显著相关水平,与热不舒适日数倾向率之间相关不显著。影响长江三角洲地区人体舒适度的最主要城市因子为总人口数量,其次为建成区面积、总用电量、公共交通实有车辆、人均绿地面积等。 相似文献
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城市气象研究进展 总被引:5,自引:0,他引:5
中国数十年来在城市气象研究这一新兴学科领域开展了大量研究并获得了多方面的丰硕成果。文中从城市气象观测网与观测试验、城市气象多尺度模式、城市气象与大气环境相互影响、城市化对天气气候的影响等4个方面论述了城市气象的主要研究进展:中国各大城市已建立或正在完善具有多平台、多变量、多尺度、多重链接、多功能等特点的城市气象综合观测网;北京、南京、上海等地开展了大型城市气象观测科学试验,被世界气象组织列入研究示范项目;成功开展了风洞实验、缩尺度外场实验研究;建立了多尺度城市气象和空气质量预报数值模式,并应用于业务;在城市热岛效应、城市对降水影响、城市气象与城市规划、城市化对区域气候及空气质量的影响、城市气象与大气环境相互作用等研究领域取得长足进展。最后指出,未来需要重点从新观测技术及观测资料同化应用、城市系统模式研究、城市化对天气气候的影响机理、城市化对大气环境和人体健康的影响、城市水文气象气候与环境综合服务等方面开展科学研究与应用,为中国城市化、生态文明建设、防灾减灾和应对气候变化等国家需求提供科技支撑。 相似文献
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研究城市主导功能影响下区域碳平衡时空分异,有助于理解城市功能格局与碳循环过程之间的作用机制。本研究以厦门市6个区为例,采用各区历史统计数据以及卫星影像处理的土地利用数据,通过构建简化的区域碳收支计算模型,核算各行政区不同历史时期的碳平衡,结果表明:厦门市整体上呈现碳收支失衡逐渐加剧的趋势,2003年CO2排放量是吸收量的1.91倍,2013年增长至7.44倍;各区碳代谢以及碳平衡表现出不同的时空分异特征。结合厦门市城市建设总体规划中制订的主导功能分类,阐明主导功能影响下时空分异的社会经济、自然景观等驱动因素对城市碳平衡时空变化的影响机制与过程。在此基础上针对各区不同的碳平衡状况,制订适应各自主导功能的减排以及碳补偿政策。研究有助于直接服务城市的规划和建设实践,从城市生态服务角度指导建设规划,合理城市功能分区。 相似文献
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With the development of urbanization, whether precipitation characteristics in Guangdong Province, China, from 1981 to 2015 have changed are investigated using rain gauge data from 76 stations. These characteristics include annual precipitation, rainfall frequency, intense rainfall(defined as hourly precipitation ≥ 20 mm), light precipitation(defined as hourly precipitation ≤ 2.5 mm), and extreme rainfall(defined as hourly rainfall exceeding the 99.9 th percentile of the hourly rainfall distribution). During these 35 years, the annual precipitation shows an increasing trend in the urban areas.While rainfall frequency and light precipitation have a decreasing trend, intense rainfall frequency shows an increasing trend. The heavy and extreme rainfall frequency both exhibit an increasing trend in the Pearl River Delta region, where urbanization is the most significant. These trends in both the warm seasons(May-October) and during the pre-flood season(April-June) appear to be more significant. On the contrary, the annual precipitation amount in rural areas has a decreasing trend. Although the heavy and extreme precipitation also show an increasing trend, it is not as strong and significant as that in the urban areas. During periods in which a tropical cyclone makes landfall along the South China Coast, the rainfall in urban areas has been consistently more than that in surrounding areas. The precipitation in the urban areas and to their west is higher after 1995, when the urbanization accelerated. These results suggest that urbanization has a significant impact on the precipitation characteristics of Guangdong Province. 相似文献
18.
Although the urban heat island (UHI) is a well-documented phenomenon, relatively little information in the literature is available about its impact on summer extreme heat event (EHE). As UHI is characterized by increased temperature, it can potentially increase the magnitude and duration of EHEs within cities. Based on daily maximum temperature records from 62 observation stations in Zhejiang province from the period 1971-2011 and satellite-measured nighttime light imagery from the Defense Meteorological Satellite Program (DMSP) Operational Linescan System (OLS) during 1992-2010, we analyzed the long-term change of summer EHEs and its association with the rapid urbanization process. The results could be concluded as follows: (1) Zhejiang has experienced rapid urbanization and dramatic growth in urban areas in the past two decades, especially after 2000. (2) The summer mean maximum temperature and the 95th percentile of summer daily maximum temperature in most of its stations have increased, with the most significant increase occurring in the highly urbanized areas including the city belt around Hangzhou Bay, Taizhou–Wenzhou and Jinghua–Yiwu city belts. (3) The hot days and hot-day degrees, defined by both daily 95th percentile and the threshold of 35℃, show that the UHI effect causes additional hot days and heat stress in urban stations compared to rural stations. The results in this study suggest that the UHI effect should be determined and incorporated in preparing high temperature forecasts in cities. 相似文献
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利用华北地区255个一般站和国家基本、 基准站1961\_2000年的实测资料, 经过质量检验和均一性订正后, 将所有台站根据人口和台站地理位置分为5个类别, 分析了这5个类别台站和国家基本、 基准站地面平均气温、 最高、 最低气温的年和季节变化趋势以及城市化影响。结果表明: 华北全部台站的年平均气温、 最高、 最低气温均呈增加趋势, 且以最低气温上升最为明显, 导致年平均日较差呈现明显下降。就城市化影响而言, 平均气温、 最低气温变化趋势中城市热岛效应加强因素的影响明显, 但城市化对最高气温趋势影响微弱, 个别台站和季节甚至可能造成降温。在国家基本、 基准站观测的年平均气温和年平均最低气温上升趋势中, 城市化造成的增温分别为0.11℃·(10a)-1和0.20℃·(10a)-1, 对全部增温的贡献率分别达39.3%和52.6%。各类台站的四季平均气温和最低气温序列中城市化影响均造成增温。城市化增温以冬季为最大, 夏季最小。城市化还导致乡村站以外的各类台站日较差减小, 近40年华北地区国家基本、 基准站年平均和秋、 冬季平均气温日较差明显下降均由城市化影响造成的。 相似文献
20.
Climate effect caused by urbanization has been an indispensable
anthropogenic factor in the research on regional climate change. Based on daily
precipitation data, possible effects of precipitation on the development of three
city groups in eastern China are discussed. With three classification methods
(TP, PD and MODIS land cover), urban and rural stations are identified. The main
findings are as follows. Climate effects caused by urbanization are different
from place to place. In 1960 to 2009, the urbanization brought more precipitation
to the Yangtze River Delta and Pearl River Delta city groups but had no obvious
effect on the precipitation of the Beijing-Tianjin-Tangshan city group. The
difference of precipitation is slight between urban and suburban areas during
slow period of the urbanization from 1960 to 1979. It is more evident in the
rapid period (1980 to 2009) that urbanization has positive effects on
precipitation in every city group. The difference of precipitation between urban
and rural stations is sensitive to the ways of distinguishing rural from urban
area, which may cause uncertainties in 1960 to 1979, while it is very different
in 1980 to 2009 in which urbanization favors more precipitation in all city
groups and their differences in precipitation are not sensitive to the division
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