海洋地质与第四纪地质
海洋地質與第四紀地質
해양지질여제사기지질
MARINE GEOLOGY & QUATERNARY GEOLOGY
2004年
3期
29-36
,共8页
李广雪%岳淑红%赵东波%孙映涛
李廣雪%嶽淑紅%趙東波%孫映濤
리엄설%악숙홍%조동파%손영도
快速沉积%异重流%切变锋%潮流%黄河口
快速沉積%異重流%切變鋒%潮流%黃河口
쾌속침적%이중류%절변봉%조류%황하구
rapid deposition%dynamic processes%hyperpycnal flow%shear front%tidal current%Yellow River
现场观测资料和卫星遥感校准图像计算表明,1855年以来,黄河三角洲新淤陆地3 699 km2,生长速率为26.8 km2/a,黄河输入三角洲1×108 t泥沙形成3.144 km2的陆地.进入河口区的泥沙约88.4%堆积在水下8 km宽的三角洲前缘.研究表明,这一堆积比例是河口切变锋、异重流和潮流场相互作用的结果,异重流在黄河汛期一直存在,大约搬运黄河来沙的60%沉积在三角洲前缘;一个潮周期内,切变锋出现两次,它能够捕获异轻羽状流中的悬浮泥沙堆积,也能够限制异重流的远距离扩散.切变锋消失后,少量悬浮泥沙才能远距离扩散,随潮流离开三角洲水下斜坡.
現場觀測資料和衛星遙感校準圖像計算錶明,1855年以來,黃河三角洲新淤陸地3 699 km2,生長速率為26.8 km2/a,黃河輸入三角洲1×108 t泥沙形成3.144 km2的陸地.進入河口區的泥沙約88.4%堆積在水下8 km寬的三角洲前緣.研究錶明,這一堆積比例是河口切變鋒、異重流和潮流場相互作用的結果,異重流在黃河汛期一直存在,大約搬運黃河來沙的60%沉積在三角洲前緣;一箇潮週期內,切變鋒齣現兩次,它能夠捕穫異輕羽狀流中的懸浮泥沙堆積,也能夠限製異重流的遠距離擴散.切變鋒消失後,少量懸浮泥沙纔能遠距離擴散,隨潮流離開三角洲水下斜坡.
현장관측자료화위성요감교준도상계산표명,1855년이래,황하삼각주신어륙지3 699 km2,생장속솔위26.8 km2/a,황하수입삼각주1×108 t니사형성3.144 km2적륙지.진입하구구적니사약88.4%퇴적재수하8 km관적삼각주전연.연구표명,저일퇴적비례시하구절변봉、이중류화조류장상호작용적결과,이중류재황하신기일직존재,대약반운황하래사적60%침적재삼각주전연;일개조주기내,절변봉출현량차,타능구포획이경우상류중적현부니사퇴적,야능구한제이중류적원거리확산.절변봉소실후,소량현부니사재능원거리확산,수조류리개삼각주수하사파.
Based on the recent computation, the new land of 3 699 km2 with a mean accretion rate of 26.8 km2/a has been built on the modern Yellow River delta since 1855AD. 1×108 t silt from the river can build 3.144 km2 of new land. More than 88.4% of the suspended silt into the river mouth area is deposited on the delta front slope of average 8 km in width. Such high deposition proportion on the river mouth area is infrequent in the worldwide rivers. This study has proved that the proportion results from combination and interaction of the shear front, hyperpycnal flow and tidal current off the Yellow River mouth. The hyperpycnal flow has always occurred as ebb in the flooding season. It transports about 60% of the suspended silt of the river to accumulate on the delta front. The shear front occurs twice during a tidal cycle. It can capture the suspended silt from hypopycnal plume to deposit on the delta front and limit the hyperpycnal flow to disperse farther. When the shear front disappears, a little part of the suspended silt in the hypopycnal plume is advected off the delta slope with the tidal current.