瞬时频率属性在沉积相研究中的应用-以白音查干凹陷西部腾格尔组为例

利用白音查干地区的测井、录井及地震资料。通过定性、定量两种手段进行瞬时频率与岩性的相关性分析,认为瞬时频率能够较好的区分砂泥岩。当砂岩百分比小于0.12时,瞬时频率属性为低频;当砂岩百分比为0.16～0.33时,瞬时频率为高频。通过瞬时频率切片与沉积相平面展布图对比分析发现,不同相类型的砂体在瞬时频率切片中具有明显不同的特征,辫状河三角洲砂体表现为沿物源方向延伸的枝状或朵状中高频区,滩砂表现为不规则滩状的高频区,坝砂在盆地边缘呈高频带状分布。此外,瞬时频率还可以进行物源分析、三角洲朵叶体识别和扇体叠置识别,是进行沉积体系、砂体展布和储层预测等方面研究的重要手段。     

Unconsolidated sediment distribution patterns in the KwaZulu-Natal Bight,South Africa: the role of wave ravinement in separating relict versus active sediment populations

This paper examines the distribution of unconsolidated sediment in the KwaZulu-Natal Bight located along the east coast of South Africa. Results show that there is a general shelf-wide sediment distribution of coarser grain sizes between depths of 60 and 100?m, punctuated by a broad swathe of mud offshore of the Thukela River. Seasonal changes in sediment distribution patterns are small, being restricted to seaward fining on the inner shelf off the fluvial sources. Sediment distribution reflects a partitioning between sediment populations that are current- influenced and relict (palimpsest) populations associated with submerged shorelines. Wave ravinement during the deglacial transgression, the reworking of submerged shorelines during sea-level stillstands and, to a lesser extent, the Agulhas Current system, are the dominant controls on sediment distribution.     

山东省9216号强热带气旋风暴期间的海岸侵蚀灾害

本文比较详细地报导了山东省沿岸在９２１６号强热带气旋风暴潮期间的海岸侵蚀灾害情况，分析了灾害的形成原因、特点。最后讨论了与之有关的问题。     

地形变化对青岛地区风暴潮灾影响的一次模拟

本文以8509台风为例，模拟了因地形变化而对青岛地区风暴潮灾的影响。结果显示，如果胶州湾口外局部地形变深，在8509台风的情况下，风暴增水会造成一定程度的增加，而且对底层风暴潮流会造成更大的影响。     

行星际激波的传播及其相应的地磁效应

基于 2.5 维理想磁流体力学（Magnetohydrodynamic,MHD）方程组分析了行星际激波在日球层子午面内的传播过程及其相应的地磁效应.日球层电流片（Heliospheric Current Sheet,HCS）-日球层等离子体片（Heliospheric Plasma Sheet,HPS）对于行星际激波的传播具有一定的阻碍作用.当行星际激波相对于HCS 倾斜传播时,相对于扰动源位于HCS 异侧的激波强度较同侧的明显减弱.局地激波面的法线（或形状）对通过激波阵面的磁力线发生偏转的程度和方向起决定性作用.沿激波传播方向其为准平行激波,磁场偏转程度较小,而其两侧部分则为斜激波,磁场偏转程度较大.位于HCS-HPS 位置处的波前形成凹槽,磁力线偏转程度明显加强.行星际激波对磁场的偏转效应是其驱动地磁暴的重要机制,而且地磁效应的强度与地球相对于HCS 的角距离Δθp有明显关系.数值模拟结果表明：任何行星际激波,Δθp=0°处均无法形成较大强度的地磁效应;沿HCS 传播的行星际激波,地磁效应最强的区域位于HCS 两侧;相对于HCS 倾斜传播的行星际激波,地磁效应最强的区域位于HCS 异侧.     

The Linkage between Midwinter Suppression of the North Pacific Storm Track and Atmospheric Circulation Features in the Northern Hemisphere

The midwinter suppression(MWS) of the North Pacific storm track(NPST) has been an active research topic for decades. Based on the daily-mean NCEP/NCAR reanalysis from 1948 to 2018, this study investigates the MWS-related atmospheric circulation characteristics in the Northern Hemisphere by regression analysis with respect to a new MWS index, which may shed more light on this difficult issue. The occurrence frequency of the MWS of the upper-tropospheric NPST is more than 0.8 after the mid-1980 s. The MWS is accompanied by significantly positive sea-level pressure anomalies in Eurasia and negative anomalies over the North Pacific, which correspond to a strengthened East Asian winter monsoon. The intensified East Asian trough and atmospheric blocking in the North Pacific as well as the significantly negative low-level air temperature anomalies, lying upstream of the MNPST, are expected to be distinctly associated with the MWS. However, the relationship between the MWS and low-level atmospheric baroclinicity is somewhat puzzling.From the diagnostics of the eddy energy budget, it is identified that the inefficiency of the barotropic energy conversion related to the barotropic governor mechanism does not favor the occurrence of the MWS. In contrast, weakened baroclinic energy conversion, buoyancy conversion, and generation of eddy available potential energy by diabatic heating are conducive to the occurrence of the MWS. In addition, Ural blocking in the upstream region of the MNPST may be another candidate mechanism associated with the MWS.     

山东埕岛东部东营组三角洲砂体地震预测技术

山东埕岛地区东营组是胜利油田近年来的一个勘探热点地区,资源潜力巨大.其主要发育河流和三角洲沉积体系,但砂体地震反射特征复杂,横向变化快,储层识别描述难度较大.通过建立全区高分辨率层序地层格架,在等时层序格架的基础上,开展储层描述.湖相沉积与三角洲相沉积在沉积物特征和地震响应上都具有较大差异,通过对已钻井的岩心、测井和录井等资料的分析,结合地震属性和地震相等宏观描述方法,在湖相沉积的背景之下刻画出三角洲的整体展布形态.在此基础上,针对三角洲主体区地震反射较弱、砂泥岩速度差异较小的特点,利用地震波形识别技术,采用6种参数对波形进行描述,得出12种波形分类,分别对应4种主要沉积微相.最终利用神经网络方法在平面上进行沉积微相的识别和刻画,取得了较好的效果.     

THE STUDY OF STORM RAINFALL CAUSED BY INTERACTION BETWEEN THE NON-ZONAL HIGH LEVEL JET STREAK AND TYPHOON IN THE DISTANCE

In this paper, statistics were analyzed concerning correlation between the storm rainfall far from typhoon and non-zonal upper-level jet stream. The results show that the jet stream at 200 hPa is constantly SW (90.2 %) during the period in which storm rainfall occurs. Rainfall area lies in the right rear regions of the jet axes. While the storm intensifies, the jet tends to be stronger and turn non-zonal. With the MM4 model, numerical simulation and diagnosis were carried out for Typhoon No.9711 (Winnie) on August 19 to 20, 1997. The distant storm rainfall is tightly correlative to the jet and low-level typhoon trough. The divergence field of jet is related to the v component. The upper level can cause the allobaric wind convergence at low level. This is the result of the form of low-level typhoon trough and the strength of the storm. By scale analysis, it is found that there is a branch of middle scale transverse inverse circulation in the right entrance regions behind the jet below the 300-hPa level, which is very important to the maintenance and strengthening of storm rainfall. This branch of inverse circulation is relative to the reinforcement of jet's non-zonal characteristics. From the field of mesoscale divergence field and non-zonal wind field, we know that the stronger symmetry caused by transverse circulation in the two sides of the jet, rainfall’s feedback and reinforcement of jet’s non-zonal characteristics had lead to positive feedback mechanism that was favorable of storm rainfall’s strengthening.     

黎平双江电站水库暴雨洪水设计

该文选用参证站资料的方法,对黎平县双江电站水库1954—2021年近68 a来逐年最大日降水量采用PearsonⅢ型研究方法和贵州省暴雨洪水计算公式进行研究。结果表明：黎平双江电站水库年最大日降水量年变化呈上升趋势,2010年以后上升趋势较显著。暴雨洪水设计以H_1d=119.29 mm、C_v=0.47、C_s/C_v=3.5作为研究成果,防洪标准按50 a一遇的暴雨洪水设计成果为P=2.0%,日最大降水量=277 mm、洪峰流量=2509 m³·s^-1;洪水校核按500 a一遇的暴雨洪水设计成果为P=0.2%,日最大降水量=391 mm、洪峰流量=3905 m³·s^-1;消能防冲设计标准按30 a一遇的设计成果为P=3.3%,日最大降水量=252 mm、洪峰流量=2209 m³·s^-1。研究成果对黎平双江电站水库预防灾害性强降水、安全渡汛和水库优化调度、提高产能具有十分重要...     

The structure of the mid- and high-latitude ionosphere during the November 2004 storm event obtained from GPS observations

GPS data from the International GNSS Service (IGS) network were used to study the development of the severe geomagnetic storm of November 7–12, 2004, in the total electron content (TEC) on a global scale. The TEC maps were produced for analyzing the storm. For producing the maps over European and North American sectors, GPS measurements from more than 100 stations were used. The dense network of GPS stations provided TEC measurements with a high temporal and spatial resolution. To present the temporal and spatial variation of TEC during the storm, differential TEC maps relative to a quiet day (November 6, 2004) were created. The features of geomagnetic storm attributed to the complex development of ionospheric storm depend on latitude, longitude and local time. The positive, as well as negative effects were detected in TEC variations as a consequence of the evolution of the geomagnetic storm. The maximal effect was registered in the subauroral/auroral ionosphere during substorm activity in the evening and night period. The latitudinal profiles obtained from TEC maps for Europe gave rise to the storm-time dynamic of the ionospheric trough, which was detected on November 7 and 9 at latitudes below 50°N. In the report, features of the response of TEC to the storm for European and North American sectors are analyzed.