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51.
徐州地区新元古界贾园组-赵圩组发育陆棚-缓坡-台地边缘的碳酸盐沉积,记录有广泛的风暴事件,并在其中发现
大量具“臼齿构造”碳酸盐岩。依据野外剖面系统观察与室内综合分析,将臼齿碳酸盐岩划分为原地型:条带状M1(平直
条带状M1-a、分叉条带状M1-b)、蠕虫状M2(短小蠕虫状M2-a及长条蠕虫状M2-b)、丝状M3、悬针状M4;异地型:碎屑
状M5等五种形态类型,主要发育于缓斜坡下部到潮坪环境。以水体深度及水动力条件下的七种代表性风暴序列为背景,将
臼齿碳酸盐岩的形态及分布与瞬时高能事件沉积做关联分析。研究发现,臼齿构造与风暴事件有密切联系,表征晴好天气
下的块状层中以M3为主,风暴期动荡水体序列层段以M1,M2为主,而在表征风暴高潮期序列层段以异地型的M4, M5为
主。风暴的强弱及水深变化控制了风暴序列的分布,进一步控制了臼齿构造的形态与规模。由此推断,臼齿构造形成是在
中-新元古代特殊的古大气古海洋背景下,在风暴周期的不同阶段,经历具有裂缝形成与微亮晶充填的紧密联系的过程。
风暴前期和风暴高潮期,风暴浪对臼齿构造的形成主要体现在造缝阶段,而风暴后期则主要为微亮晶的填充阶段。最终形
成广泛分布的具臼齿构造碳酸盐岩这一地质历史内特殊的事件型碳酸盐岩类型。 相似文献
52.
适用于全国气象自动站正点相对湿度资料的质量控制方法 总被引:6,自引:5,他引:1
在国家气象信息中心制作的全国自动站正点相对湿度资料数据集基础上,结合地面月报文件中相对湿度资料,通过深入分析错误数据的存在方式,最终研制形成全国自动站(包括国家级自动站和区域自动站)正点相对湿度资料质量控制方案.利用该方案,对2006-2009年实时上传的全国自动站正点相对湿度资料进行了质量评估,数据的可用率、可疑率、错误率分别为:96.68%、0.30%、3.02%.并指出当经过质量控制后,数据被判为可疑数据时,可考虑结合人工分析辅助判断. 相似文献
53.
一次强烈雹暴的多普勒天气雷达资料分析 总被引:4,自引:2,他引:2
利用石家庄多普勒天气雷达资料和常规探测资料,对2008年5月17日发生在河北南部的强烈雹暴的生成环境和动力机制以及发展演变特征进行了分析。内蒙古东部冷涡后部的冷空气和低层暖湿气流在河北中南部交汇,导致这个地区上空的层结不稳定,低层的暖切变和地面的东风辐合线为触发系统。高低空急流、不稳定层结、强垂直风切变为强烈雹暴的发生提供了有利的环境条件。强烈雹暴的多普勒天气雷达观测特征表现为一个次超级单体的发展移动过程,呈现回波悬垂和弱回波区特征,强回波核区反射率因子达到73 dBz,三体散射现象明显,对应径向速度图表现为弱中气旋,旋转速度为15 m/s。次超级单体右移特征明显,沿承载层平均风方向偏右侧移动。风暴相对螺旋度(Srh)大值与强雹暴的产生密切相关,0.3~2.1 km的Srh正值出现以及2.1~6.1 km的Srh减小随后迅速增加对冰雹的预报有很好的指示意义。 相似文献
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Enhanced observational meteorological elements,energy fluxes,and the concentration of dust aerosols collected from the Semi-Arid Climate Observatory and Laboratory(SACOL) during a typical dust storm period in March 2010 at Lanzhou were used in this paper to investigate the impact of dust aerosols on near surface atmospheric variables and energy budgets.The results show that the entire dust storm event was associated with high wind velocities and decreasing air pressure,and the air changed from cold and wet to warm and dry and then recovered to its initial state.The response of energy fluxes occurred behind meteorological elements.At high dust concentration periods,the net radiation was significantly less in the daytime and higher at night,while the heat fluxes displayed the same trend,indicating the weakening of the land-atmosphere energy exchange.The results can be used to provide verification for numerical model results in semi-arid areas. 相似文献
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59.
A strong low‐pressure system traveled along the Japanese main island Honshu in October 2006. High waves and storm surge attacked the Kashima Coast resulting in huge erosion over the area. Airborne laser data measured in October 2005 and November 2006 were analyzed to estimate cross‐sectional changes within the subaerial zone. The results of the alongshore distribution of the changes of cross‐sectional area indicate that the amount of erosion of the 38 km‐long northern and 15 km‐long southern parts decreased toward the south in each part and that the amount of erosion was smaller in protected areas with artificial headlands than in unprotected areas. The local alongshore variation of the erosion and accretion patterns showed wavy fluctuations of several hundreds of meters. The total amounts of the estimated eroded volume of the subaerial zone over the northern and southern parts were 620 000 m3 and 600 000 m3, respectively. The Simulating Waves Nearshore (SWAN) wave model was applied to estimate wave conditions along the coast during the storm. The computational results were verified, and then the alongshore distribution of wave energies, expressed as the alongshore and cross‐shore components of the wave energy flux, was compared with the alongshore distribution of cross‐sectional change. The results show that the distribution of energy flux explains the distribution of erosion well: The alongshore variability in the cross‐shore energy flux is responsible for the large‐scale variability in erosion, and shorter‐scale variability is due to gradients in the alongshore energy fluxes, especially for the areas without coastal works. Copyright © 2011 John Wiley & Sons, Ltd. 相似文献
60.
Clint Dawson Ethan J. KubatkoChristopher Mirabito Craig MichoskiNishant Panda 《Advances in water resources》2011,34(9):1165-1176
Storm surge due to hurricanes and tropical storms can result in significant loss of life, property damage, and long-term damage to coastal ecosystems and landscapes. Computer modeling of storm surge can be used for two primary purposes: forecasting of surge as storms approach land for emergency planning and evacuation of coastal populations, and hindcasting of storms for determining risk, development of mitigation strategies, coastal restoration and sustainability.Storm surge is modeled using the shallow water equations, coupled with wind forcing and in some events, models of wave energy. In this paper, we will describe a depth-averaged (2D) model of circulation in spherical coordinates. Tides, riverine forcing, atmospheric pressure, bottom friction, the Coriolis effect and wind stress are all important for characterizing the inundation due to surge. The problem is inherently multi-scale, both in space and time. To model these problems accurately requires significant investments in acquiring high-fidelity input (bathymetry, bottom friction characteristics, land cover data, river flow rates, levees, raised roads and railways, etc.), accurate discretization of the computational domain using unstructured finite element meshes, and numerical methods capable of capturing highly advective flows, wetting and drying, and multi-scale features of the solution.The discontinuous Galerkin (DG) method appears to allow for many of the features necessary to accurately capture storm surge physics. The DG method was developed for modeling shocks and advection-dominated flows on unstructured finite element meshes. It easily allows for adaptivity in both mesh (h) and polynomial order (p) for capturing multi-scale spatial events. Mass conservative wetting and drying algorithms can be formulated within the DG method.In this paper, we will describe the application of the DG method to hurricane storm surge. We discuss the general formulation, and new features which have been added to the model to better capture surge in complex coastal environments. These features include modifications to the method to handle spherical coordinates and maintain still flows, improvements in the stability post-processing (i.e. slope-limiting), and the modeling of internal barriers for capturing overtopping of levees and other structures. We will focus on applications of the model to recent events in the Gulf of Mexico, including Hurricane Ike. 相似文献