对若尔盖盆地进行实地考察,选取盆地西端黄河出口段典型的一级阶地沉积序列为研究对象。通过沉积物粒度和端元特征分析及OSL测年断代,对若尔盖盆地出口段的环境变化进行研究。研究结果表明:阶地底部的河床相砂卵石与河漫滩沙层构成了二元结构沉积层,其中河漫滩沙层夹有5.0—4.2 ka B.P.期间堆积形成的浅洼地泥沼土透镜状层,表明该河段黄河一级阶地从5.0 ka B.P.开始形成。河漫滩上为高原强劲风力改造成的风沙层,夹有古洪水滞流沉积层组,表明4.2—4.0 ka B.P.期间气候恶化,黄河源曾发生多期特大洪水事件。4.0—2.8 ka B.P.期间气候湿润,阶地面浅洼地有淤泥质沼泽形成。其后沙尘暴搬运堆积的粗粉沙覆盖阶地面,形成了风成黄土,其上部经生物风化成壤改造,发育成为具有团粒构造的现代亚高山草甸黑土土壤层。 相似文献
The detention pond is one of the crucial items in detention facilities. It may effectively alleviate the occurrence of peak discharge, control the center of flood flow, and reduce the amount of soil loss. The objective of this study is analyzing the detention volume change of a detention pond with long-duration rainfall under the known isosceles trapezoidal inflow hydrograph model. The volume change of detention, which is under the influences of a givenisosceles trapezoidal inflow hydrograph and the extent of peak attenuation, is investigated by using the non-dimensional detention theory and the related mathematical analyses. The minimum detention volume of a detention pond can therefore be calculated based on the estimated of volume change of detention. The proposed detention volume estimation model can be used for the design of detention of facilities during the hillside development. 相似文献