干旱区地表温度和热岛效应演变研究——以宁夏沿黄城市带为例

doi:10.12118/j.issn.1000-6060.2020.03.16

Abstract

Abstract:

The city belt along the Yellow River in Ningxia is located at the northeast of Ningxia Province,China.It is both a key area for geographical research in arid areas and the core of economic development in Ningxia.As an important climatic phenomenon related to the process of urbanization,the heat island effect has brought much inconvenience to human life,for which reason it has become a major topic in current urbanization research.Most previous studies have been conducted on wet climate regions,and there are relatively few studies on arid and semi-arid regions.Moreover,the time series used in previous studies has typically been short and their resolution low,hence the analysis of urban-heat-island trends and the reasons for their occurrence are not yet comprehensively understood.Based on MODIS surface temperature products,this paper uses the Mann-Kendall non-parametric test and Sen’s slope estimation method to analyze the time trend of surface temperature during the past 20 years along city belt of the Yellow River.Combining MODIS surface temperature data with MODIS land cover type products,and introducing the urban-heat-island ratio index,daily and seasonal changes in the urban-heat-island effect along the city belt and their time series trends over the past 20 years were analyzed.The results show that the surface temperatures of most areas along the city belt in Ningxia have shown an upward trend,which is stronger during nighttime than daytime.An increase of surface coverage is an important reason for this trend.Compared with humid climates,the heat island effect along the city belt shows different daily and seasonal trends.At nighttime,the heat island effect is stronger than during the daytime and in over course of one year,the heat island effect is stronger in winter and spring at daytime but stronger in summer at nighttime.The heat island effect in the study areas shows a decreasing trend,whereas the nighttime heat island effect show an increasing trend,but the trend was not found to be significant.Finally,land and vegetation cover types were analyzed.To some extent,our results indicate that urbanization and surface coverage are equally important contributions to heat islands along the study area.Surface coverage increases during the daytime can weaken surface temperatures increases,while promoting such increases at night.Increased surface coverage can thus alleviate increases in surface temperature during the daytime.Urbanization does not necessarily promote the heat island effect during daytime,but sometimes mitigates its effect on low vegetation coverage areas,such as bare land.Nonetheless,the impact of urbanization on the heat island effect is more obvious at night.This study provides a direction for the management of arid areas and a reference for studies of temporal and spatial changes in surface temperature due to the heat island effect in other arid regions.It also gives guidance for studies concerning the influence of such phenomena in other arid regions．

Key words: urban-heat-island ratio index, Mann-Kendall nonparametric test, Sen’s slope estimation, surface cover type, surface vegetation coverage

SUN Hao, MA Li-ru, CAI Chuang-chuang, HUANG Tao, LV Lin-tao, RUAN Lin, CHEN Wei.

Evolution of surface temperature and heat island effect in arid areas: A case of city belt along the Yellow River in Ningxia [J].Arid Land Geography, 2020, 43(3): 694-705.

References ［33］

［1］	LI Long，HUANG Xin，LI Jiayi，et al．Quantifying the spatiotemporal trends of canopy layer heat island (CLHI) and its driving factors over Wuhan，China with satellite remote sensing［J］．Remote Sensing，2017，9(6)：536．
［2］	LI Xiaoma，ZHOU Weiqi．Spatial patterns and driving factors of surface urban heat island intensity：A comparative study for two agriculture-dominated regions in China and the USA［J］．Sustainable Cities and Society，2019，48(8)：101518．
［3］	吴慧凤，陈志强．福州市城市热岛效应的转移矩阵与缓冲区［J］．天津师范大学学报(自然科学版)，2019，39(3)：69-75．［WU Huifeng，CHEN Zhiqiang．Transfer matrix and buffer of urban heat island effect in Fuzhou［J］．Journal of Tianjin Normal University(Natural Science)，2019，39(3)：69-75．］
［4］	HAASHEMI Sirous，WENG Qihao，DARVISHI Ali，et al．Seasonal variations of the surface urban heat island in a semi-arid city［J］．Remote Sensing，2016，8(4)：352．
［5］	SILVA J S，SILVA R M DA，SANTOS C A G．Spatiotemporal impact of land use/land cover changes on urban heat islands：A case study of Pao do Lumiar，Brazil［J］．Building and Environment，2018，136：279-292．
［6］	ULLAH S，AHMAD K，SAJJAD R U，et al．Analysis and simulation of land cover changes and their impacts on land surface temperature in a lower Himalayan region［J］．J Environ Manage，2019，245：348-357．
［7］	CHEN Yucheng，LIAO Yujie，YAO Chunkuei，et al．The application of a highdensity street-level air temperature observation network (HiSAN)：The relationship between air temperature，urban development，and geographic features［J］．Sci Total Environ，2019，685：710-722．
［8］	MISHRA B，SANDIFER J，GYAWALI B R．Urban heat island in Kathmandu，Nepal：Evaluating relationship between NDVI and LST from 2000 to 2018［J］．International Journal of Environment，2019，8(1)：17-29．
［9］	HUANG Qiuping，HUANG Jiejun，YANG Xining，et al．Quantifying the seasonal contribution of coupling urban land use types on urban heat island using land contribution index：A case study in Wuhan，China［J］．Sustainable Cities and Society，2019，44：666-675．
［10］	ZHU Xinming，WANG Xuhong，YAN Dajiang，et al．Analysis of remotely-sensed ecological indexes’ influence on urban thermal environment dynamic using an integrated ecological index：A case study of Xi’an，China［J］．International Journal of Remote Sensing，2018，40(9)：3421-3447．
［11］	杨智威，陈颖彪，吴志峰，等．粤港澳大湾区城市热岛空间格局及影响因子多元建模［J］．资源科学，2019，41(6)：1154-1166．［YANG Zhiwei，CHEN Yingbiao，WU Zhifeng，et al．Spatial pattern of urban heat island and multivariate modeling of impact factors in the Guangdong-Hong Kong-Macao Greater Bay area［J］．Resources Science，2019， 41(6)：1154-1166．］
［12］	徐涵秋，陈本清．不同时相的遥感热红外图像在研究城市热岛变化中的处理方法［J］．遥感技术与应用，2003，18(3)：129-133．［XU Hanqiu，CHEN Benqing．An Image processing technique for the study of urban heat island changes using different seasonal remote sensing data［J］．Remote Sensing Technology and Application，2003，18(3)：129-133．］
［13］	刘勇洪，房小怡，张硕，等．京津冀城市群热岛定量评估［J］．生态学报，2017，37(17)：5818-5835．［LIU Yonghong，FANG Xiaoyi，ZHANG Shuo，et al．Research on quantitative evaluations of heat islands for the Beijing-Tianjin-Hebei Urban Agglomeration［J］．Acta Ecologica Sinica，2017，37(17)：5818-5835．］
［14］	孙明，谢敏，丁美花，等．2001—2015年间广西壮族自治区防城港市热岛效应时空变化研究［J］．国土资源遥感，2018，30(1)：135-143．［SUN Ming，XIE Min，DING Meihua，et al．Spatiotemporal variation of urban heat island effects in Fangchenggang City，Guangxi Zhuang Autonomos Region［J］．Remote Sensing for Land and Resources，2018，30(1)：135-143．］
［15］	王琳，徐涵秋．快速城市化下福州市的热环境变迁［J］．同济大学学报(自然科学版)，2017，45(9)：1336-1344．［WANG Lin，XU Hanqiu．Thermal environment change of Fuzhou City with rapid urbanization［J］．Journal of Tongji University(Natural Science)，2017，45(9)：1336-1344．］
［16］	LAI Jiameng，ZHAN Wenfeng，HUANG Fan，et al．Identification of typical diurnal patterns for clear-sky climatology of surface urban heat islands［J］．Remote Sensing of Environment，2018，217：203-220．
［17］	RASUL A，BALZTER H，SMITH C．Spatial variation of the daytime surface urban cool island during the dry season in Erbil，Iraqi Kurdistan，from Landsat 8［J］．Urban Climate，2015，14：176-186．
［18］	RASUL A，BALZTER H，SMITH C．Diurnal and seasonal variation of surface urban cool and heat islands in the semiarid city of Erbil，Iraq［J］．Climate，2016，4(3)：42．
［19］	刘永畅，刘理臣，刘静妮，等．干旱半干旱气候条件下夏季地表城市热岛特征与影响因素［J］．科学技术与工程，2017，17(28)：160-165．［LIU Yongchang，LIU Lichen，LIU Jingni，et al．Characteristics and influence factors of summer surface urban heat island under arid and semi-arid climate［J］．Science Technology and Engineering，2017，17(28)：160-165．］
［20］	庄元，薛东前，王剑．半干旱区典型工业城市热岛时空分布及演变特征——以包头市为例［J］．干旱区地理，2017，40(2)：276-283．［ZHUANG Yuan，XUE Dongqian，WANG Jian．Spatial-temporal evolution of urban heat island in semiarid typical industrial city：A case of Baotou City［J］．Arid Land Geography，2017，40(2)：276-283．］
［21］	瓦力江•瓦黑提，任国玉，孙秀宝．乌鲁木齐城市热岛强度的日变化和季节特征［J］．沙漠与绿洲气象，2018，12(1)：21-28．［WAHEITI Walijlang，REN Guoyu，SUN Xiubao．The daily temperature characteristics of the intensity of urban heat island in Urumqi and seasonal changes［J］．Desert and Oasis Meteorology，2018，12(1)：21-28．］
［22］	杨瑞．宁夏沿黄经济区区域经济差异与协调发展研究［D］．银川：宁夏大学，2017．［YANG Rui．Research on regional economic disparity and coordinated development of Economic Zone along the Yellow River in Ningxia［D］.Yinchuan：Ningxia University，2017．］
［23］	程云龙．宁夏沿黄经济区增强城市空间相互作用对策研究［J］．现代商业，2016，(30)：45-46．［CHENG Yunlong．Research on the countermeasures of enhancing urban spatial interaction in Ningxia Yellow Economic Zone［J］．District Economy，2016，(30)：45-46．］
［24］	李净，黄康刚．基于MODIS日地表温度产品的兰州市热岛效应特征［J］．干旱区地理，2017，40(6)：1235-1240．［LI Jing，HUANG Kanggang．Characteristics of urban heat island based on MODIS daily land surface temperature product in Lanzhou［J］．Arid Land Geography，2017，40(6)：1235-1240．］
［25］	J-NSSON Per，EKLUNDH Lars．TIMESAT:A program for analyzing time-series of satellite sensor data［J］．Computers & Geosciences，2004，30(8)：833-845．
［26］	叶彩华，刘勇洪，刘伟东，等．城市地表热环境遥感监测指标研究及应用［J］．气象科技，2011，39(1)：95-101．［YE Caihua，LIU Yonghong，LIU Weidong，et al．Research on urban surface heat environment monitoring indexes and its application［J］．Meteorological Science and Technology，2011，39(1)：95-101．］
［27］	王万瑞，王刘明，张雪蕾，等．1956—2015年洮河径流演变特征研究［J］．西北师范大学学报(自然科学版)，2018，54(1)：92-99．［WANG Wanrui，WANG Liuming，ZHANG Xuelei，et al．Changeable characteristics if channel disicharge in the Taohe River Basin from 1956 to 2015［J］．Journal of Northwest Normal University (Natural Science)，2018，54(1)：92-99．］
［28］	王延贵，陈康，陈吟，等．黄河流域产流侵蚀及其分布特性的变异［J］．中国水土保持科学，2018，16(5)：120-128．［WANG Yangui，CHEN Kang，CHEN Yin，et al．Variation in runoff erosion and their distribution in the Yellow River Basin［J］．Science of Soil and Water Conservation，2018，16(5)：120-128．］
［29］	莫跃爽，周秋文．贵州省1960—2014年不同地貌类型的气温变化特征［J］．水土保持研究，2019，26(4)：166-170,176．［MO Yueshuang，ZHOU Qiuwen．Temperature variation characteristics of different landform types in Guizhou Province from 1960 to 2014［J］．Soil and Water Conservation Research，2019，26(4)：166-170,176．］
［30］	白勇，高瑞忠，王喜喜，等．北方半干旱快速城镇化流域径流变化的驱动因素分析［J］．干旱区地理，2018，41(2)：282-289．［BAI Yong，GAO Ruizhong，WANG Xixi，et al．Driving factors on runoff change in the north semiarid rapidly urbanization watershed［J］．Arid Land Geography，2018，41(2)：282-289．］
［31］	李慧，周维博，马聪，等．城市化对西安市降水及河流水文过程的影响［J］．干旱区地理，2017，40(2)：322-331．［LI Hui，ZHOU Weibo，MA Cong，et al．Effects of urbanization on reginal precipitation and river hydrological process in Xi[JP8]’[JP]an City［J］．Arid Land Geography，2017，40(2)：322-331．］
［32］	张亚宁，张明军，王圣杰，等．1961—2015年中国降水面积变化特征研究［J］．干旱区地理，2019，42(4)：762-773．［ZHANG Yaning，ZHANG Mingjun，WANG Shengjie，et al．Changes of precipitation area in China during from 1961 to 2015［J］．Arid Land Geography，2019，42(4)：762-773．］
［33］	春兰，秦福莹，宝鲁，等．近55 a内蒙古极端降水指数时空变化特征［J］．干旱区研究，2019，36(4)：963-972．［CHUN Lan，QIN Fuying，BAO Lu，et al．Temporal and spatial variation characteristics of extreme precipitation indices in Inner Mongolia in recent 55 years［J］．Arid Zone Research，2019，36(4)：963-972．］

Evolution of surface temperature and heat island effect in arid areas: A case of city belt along the Yellow River in Ningxia

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