天津科技大学学报
天津科技大學學報
천진과기대학학보
JOURNAL OF TIANJIN UNIVERSITY OF SCIENCE & TECHNOLOGY
2014年
1期
51-58
,共8页
薛玉虎%毛新燕%颜秀花%赵传湖
薛玉虎%毛新燕%顏秀花%趙傳湖
설옥호%모신연%안수화%조전호
大气强迫%黄%东海%中全新世%FGOALS-s2.0
大氣彊迫%黃%東海%中全新世%FGOALS-s2.0
대기강박%황%동해%중전신세%FGOALS-s2.0
atmospheric forcing%Yellow Sea and East China Sea%mid-Holocene%FGOALS-s2.0
对中全新世(6,ka时期)海洋和气候的研究可加深人们对现阶段气候变化和海洋环境的认识,为预测未来海洋与气候环境变化提供一个重要参照.文章分析一个耦合气候系统模式 FGOALS-s2.0的模式结果,首先对其工业革命前(0,ka 时期)东亚地区夏季降水及冬、夏季10,m 风场的模拟结果进行评估,然后进一步对中全新世和工业革命前黄、东海海表大气强迫的季节变化进行了对比.结果显示:模式模拟出0,ka 时期东亚夏季降水从东南洋面至西北内陆减少的空间分布特点,冬、夏季10,m风场亦与观测大体一致;6,ka时期夏季,黄、东海风速较0,ka时期增大约0.8,m/s,16%左右;黄海风应力旋度值为正,东海为负,与0,ka 时期相比旋度绝对值均增大;同时,两海区接收的太阳短波辐射较0,ka 时期均增加,短波辐射的差异是中全新世夏季黄、东海海表的净热吸收增加的主要因子.6,ka 时期冬季,黄、东海北风加强,东海增加量在0.5~1.0,m/s,幅度约为10%,较黄海更为明显;两海区在冬季的净热释放也较0,ka 时期增大,东海释放更甚;冬季黄、东海风应力旋度较0,ka时期则无太大差别.研究表明,由于6,ka时期太阳辐射季节循环的改变,造成了黄、东海夏季风增强,海表净热通量也发生相应变化,该时期大气强迫场的变化可能会使黄、东海表层水温分布趋势发生较大改变,进而影响陆架环流格局.
對中全新世(6,ka時期)海洋和氣候的研究可加深人們對現階段氣候變化和海洋環境的認識,為預測未來海洋與氣候環境變化提供一箇重要參照.文章分析一箇耦閤氣候繫統模式 FGOALS-s2.0的模式結果,首先對其工業革命前(0,ka 時期)東亞地區夏季降水及鼕、夏季10,m 風場的模擬結果進行評估,然後進一步對中全新世和工業革命前黃、東海海錶大氣彊迫的季節變化進行瞭對比.結果顯示:模式模擬齣0,ka 時期東亞夏季降水從東南洋麵至西北內陸減少的空間分佈特點,鼕、夏季10,m風場亦與觀測大體一緻;6,ka時期夏季,黃、東海風速較0,ka時期增大約0.8,m/s,16%左右;黃海風應力鏇度值為正,東海為負,與0,ka 時期相比鏇度絕對值均增大;同時,兩海區接收的太暘短波輻射較0,ka 時期均增加,短波輻射的差異是中全新世夏季黃、東海海錶的淨熱吸收增加的主要因子.6,ka 時期鼕季,黃、東海北風加彊,東海增加量在0.5~1.0,m/s,幅度約為10%,較黃海更為明顯;兩海區在鼕季的淨熱釋放也較0,ka 時期增大,東海釋放更甚;鼕季黃、東海風應力鏇度較0,ka時期則無太大差彆.研究錶明,由于6,ka時期太暘輻射季節循環的改變,造成瞭黃、東海夏季風增彊,海錶淨熱通量也髮生相應變化,該時期大氣彊迫場的變化可能會使黃、東海錶層水溫分佈趨勢髮生較大改變,進而影響陸架環流格跼.
대중전신세(6,ka시기)해양화기후적연구가가심인문대현계단기후변화화해양배경적인식,위예측미래해양여기후배경변화제공일개중요삼조.문장분석일개우합기후계통모식 FGOALS-s2.0적모식결과,수선대기공업혁명전(0,ka 시기)동아지구하계강수급동、하계10,m 풍장적모의결과진행평고,연후진일보대중전신세화공업혁명전황、동해해표대기강박적계절변화진행료대비.결과현시:모식모의출0,ka 시기동아하계강수종동남양면지서북내륙감소적공간분포특점,동、하계10,m풍장역여관측대체일치;6,ka시기하계,황、동해풍속교0,ka시기증대약0.8,m/s,16%좌우;황해풍응력선도치위정,동해위부,여0,ka 시기상비선도절대치균증대;동시,량해구접수적태양단파복사교0,ka 시기균증가,단파복사적차이시중전신세하계황、동해해표적정열흡수증가적주요인자.6,ka 시기동계,황、동해북풍가강,동해증가량재0.5~1.0,m/s,폭도약위10%,교황해경위명현;량해구재동계적정열석방야교0,ka 시기증대,동해석방경심;동계황、동해풍응력선도교0,ka시기칙무태대차별.연구표명,유우6,ka시기태양복사계절순배적개변,조성료황、동해하계풍증강,해표정열통량야발생상응변화,해시기대기강박장적변화가능회사황、동해표층수온분포추세발생교대개변,진이영향륙가배류격국.
It is significant to study the variations of ocean and climate between mid-Holocene(6,ka)and the present soas to provide reference for future climate prediction. Based on the results of a coupled ocean-atmosphere model FGOALS-s2.0, East Asian monsoon rainfall as well the surface wind in both summer and winter of the pre-Industrial(0,ka)are evaluated. And then atmospheric forcing on the Yellow Sea(YS)and the East China Sea(ECS)in winter and summer of 0,ka and 6,ka were analyzed respectively and also compared. It was found that East Asian summer rainfall of 0 ka reduced from southeast to northwest as observations showed and the surface wind field was also approximately consistent with observations. The wind speed of YS and ECS in summer of 6 ka was about 16%(0.8,m/s)higher than that of 0 ka. The wind stress curl in YS was positive and in ECS negative in summer,both of which were higher than those of 0 ka. Additionally,solar radiation in mid-Holocene summer in these two areas also increased compared with that of 0 ka. The difference of shortwave radiation is the major factor that made the net heat flux in mid-Holocene summer increase. As to the winter time,northerly wind in mid-Holocene was much stronger. The increase of the wind speed in ECS was 0.5-1.0,m/s,higher than that on the Yellow Sea. The net heat release in the two areas increased in 6 ka winter. There was no obvious difference in the wind stress between the winter of 0 ka and 6 ka. This research suggests that the seasonal variation cycle of the solar radiation in 6 ka led to both the surface wind increase in YS and ECS and the changes of sea surface net heat flux. All of these changes in atmospheric forc-ing might have influenced the SST of YS and ECS in mid-Holocene,and also affected the continental shelf circulation.
