南京大学学报(自然科学版)
南京大學學報(自然科學版)
남경대학학보(자연과학판)
JOURNAL OF NANJING UNIVERSITY(NATURAL SCIENCES)
2014年
6期
737-747
,共11页
马红云%薛佳庆%江志红%徐海明
馬紅雲%薛佳慶%江誌紅%徐海明
마홍운%설가경%강지홍%서해명
城市下垫面变化%南海季风爆发%中高纬陆地%数值模拟
城市下墊麵變化%南海季風爆髮%中高緯陸地%數值模擬
성시하점면변화%남해계풍폭발%중고위륙지%수치모의
urban land-use change%south China sea monsoon onset%middle to high latitudes%numerical simulation
本文利用美国国家大气研究中心(NCAR)开发的公用大气环境模式(CAM5.1)进行了中国东部大规模城市下垫面变化对南海夏季风爆发影响的数值模拟研究.结果表明:CAM5.1模式能够很好地模拟出东亚夏季风系统季节演变过程中大尺度环流场和降水分布的变化.敏感性试验结果表明中国东部大规模城市群的发展会使得南海夏季风提前1侯爆发;控制试验中5月中旬南海地区东南风向西南风的转变,以及降水量激增现象的出现,均较无城市试验中提前.同时,城市化快速发展阶段与南海夏季风爆发的年代际变化存在时间段的吻合,初步推断城市下垫面发展可能是1993年之后南海季风提前爆发的原因之一.对南海季风爆发影响的原因分析可以看出,城市化引起的下垫面物理属性变化,使得从春至夏的季节转变中,东部(110°-120°E)中高纬度陆地对大气的感热加热增强,减小了海陆之间的热力对比,加快陆地低层大气降压,从而引导南海季风提前爆发.
本文利用美國國傢大氣研究中心(NCAR)開髮的公用大氣環境模式(CAM5.1)進行瞭中國東部大規模城市下墊麵變化對南海夏季風爆髮影響的數值模擬研究.結果錶明:CAM5.1模式能夠很好地模擬齣東亞夏季風繫統季節縯變過程中大呎度環流場和降水分佈的變化.敏感性試驗結果錶明中國東部大規模城市群的髮展會使得南海夏季風提前1侯爆髮;控製試驗中5月中旬南海地區東南風嚮西南風的轉變,以及降水量激增現象的齣現,均較無城市試驗中提前.同時,城市化快速髮展階段與南海夏季風爆髮的年代際變化存在時間段的吻閤,初步推斷城市下墊麵髮展可能是1993年之後南海季風提前爆髮的原因之一.對南海季風爆髮影響的原因分析可以看齣,城市化引起的下墊麵物理屬性變化,使得從春至夏的季節轉變中,東部(110°-120°E)中高緯度陸地對大氣的感熱加熱增彊,減小瞭海陸之間的熱力對比,加快陸地低層大氣降壓,從而引導南海季風提前爆髮.
본문이용미국국가대기연구중심(NCAR)개발적공용대기배경모식(CAM5.1)진행료중국동부대규모성시하점면변화대남해하계풍폭발영향적수치모의연구.결과표명:CAM5.1모식능구흔호지모의출동아하계풍계통계절연변과정중대척도배류장화강수분포적변화.민감성시험결과표명중국동부대규모성시군적발전회사득남해하계풍제전1후폭발;공제시험중5월중순남해지구동남풍향서남풍적전변,이급강수량격증현상적출현,균교무성시시험중제전.동시,성시화쾌속발전계단여남해하계풍폭발적년대제변화존재시간단적문합,초보추단성시하점면발전가능시1993년지후남해계풍제전폭발적원인지일.대남해계풍폭발영향적원인분석가이간출,성시화인기적하점면물리속성변화,사득종춘지하적계절전변중,동부(110°-120°E)중고위도륙지대대기적감열가열증강,감소료해륙지간적열력대비,가쾌륙지저층대기강압,종이인도남해계풍제전폭발.
A large-scale coastal city zone over eastern China represented by the three large urban agglomerations of the Yangtze River Delta,the Pearl River Delta,and the Beijing-Tianjin-Hebei region is most active and developed areas in China and has experienced quick urbanization.The influence of urban land-use change over eastern China on South China Sea summer monsoon onset is investigated using Community Atmosphere Model Version 5 .1 (CAM5.1).Two experiments were designed:(1)urban land cover determined by actual underlying surface land use data from 2000 and(2)no urban areas over eastern China(20°-50°N,100°-125°E).Simulated the seasonal transition of large-scale atmospheric circulation and precipitation distribution agree well with the corresponding measurements.Comparison of the two runs shows that urbanization over eastern China may advance the date of South China Sea monsoon onset by one pentad,and the transition of zonal wind as well as dramatical enhancement of precipitation over South China Sea in mid-May are correspondingly advanced.Note that the age of rapid development of urbanization over eastern China is consistent with interdecadal advance of South China Sea monsoon onset after 1993.It is inferred that urbanization may be one of the reasons for the interdecadal variation of monsoon onset. Possible mechanisms were analyzed and it was found that the decreased land surface albedo caused by urbanization will induce strengthened sensible heating from land to air in the middle to high latitudes over eastern China continent between 110°E and 120°E,and the thermal contrast between ocean and land is reduced,which caused advancing the formation of land low pressure,and leading the earlier onset of South China Sea summer monsoon.