Advantages of Using Multichannel Analysis of Love Waves (MALW) to Estimate Near-Surface Shear-Wave Velocity

As theory dictates, for a series of horizontal layers, a pure, plane, horizontally polarized shear (SH) wave refracts and reflects only SH waves and does not undergo wave-type conversion as do incident P or Sv waves. This is one reason the shallow SH-wave refraction method is popular. SH-wave refraction method usually works well defining near-surface shear-wave velocities. Only first arrival information is used in the SH-wave refraction method. Most SH-wave data contain a strong component of Love-wave energy. Love waves are surface waves that are formed from the constructive interference of multiple reflections of SH waves in the shallow subsurface. Unlike Rayleigh waves, the dispersive nature of Love waves is independent of P-wave velocity. Love-wave phase velocities of a layered earth model are a function of frequency and three groups of earth properties: SH-wave velocity, density, and thickness of layers. In theory, a fewer parameters make the inversion of Love waves more stable and reduce the degree of nonuniqueness. Approximating SH-wave velocity using Love-wave inversion for near-surface applications may become more appealing than Rayleigh-wave inversion because it possesses the following three advantages. (1) Numerical modeling results suggest the independence of P-wave velocity makes Love-wave dispersion curves simpler than Rayleigh waves. A complication of “Mode kissing” is an undesired and frequently occurring phenomenon in Rayleigh-wave analysis that causes mode misidentification. This phenomenon is less common in dispersion images of Love-wave energy. (2) Real-world examples demonstrated that dispersion images of Love-wave energy have a higher signal-to-noise ratio and more focus than those generated from Rayleigh waves. This advantage is related to the long geophone spreads commonly used for SH-wave refraction surveys, images of Love-wave energy from longer offsets are much cleaner and sharper than for closer offsets, which makes picking phase velocities of Love waves easier and more accurate. (3) Real-world examples demonstrated that inversion of Love-wave dispersion curves is less dependent on initial models and more stable than Rayleigh waves. This is due to Love-wave’s independence of P-wave velocity, which results in fewer unknowns in the MALW method compared to inversion methods of Rayleigh waves. This characteristic not only makes Love-wave dispersion curves simpler but also reduces the degree of nonuniqueness leading to more stable inversion of Love-wave dispersion curves.     

西宁大墩岭黄土剖面古地磁初步研究

本文根据古地磁系统测量分析得出:西宁大墩岭黄土剖面位于布容正向极性世与松山反向极性世内。B/M界线位于L_8顶部。S_1S_2至S_1S_3之间存在布莱克事件;在L_9上部可能存在后哈拉米洛事件。在S_(10)中下部至L_(12)顶部存在哈拉米洛事件。根据磁性地层界线年龄推算出:西宁黄土最早形成于1.2MaB.P.     

安徽铜陵矿集区与块状硫化物矿床有关的热水沉积岩

通过对铜陵地区系统的填图观察和室内研究 ,初步确定了铜陵地区海西期的热水沉积岩。它们是 :石炭系黄龙组 ,由下而上、由内到外的层序包括含硫化物滑石蛇纹石岩 (由原岩为含水富镁碳酸盐岩 +二氧化硅的热水沉积岩变质而成 )→块状、层状 (含铜金 )黄铁矿±铁碧玉±硬石膏±菱铁矿±菱锰矿±硅质岩→含炭质粘土→白云岩 ;二叠系为栖霞组 (含铅锌金 )硅质岩、孤峰组 (含锰 )硅质岩和大隆组 (含钼 )硅质岩。这些热水沉积岩总体构成铜陵地区晚古生代多期热水活动的格局。常量元素、微量元素和稀土元素的分析结果表明 ,本区的硅质岩具有热水沉积岩的特征。氧同位素估算的热水硅质岩古温度在 4 9℃以上。铜陵地区的热水沉积岩对层控矿床的勘查和隐伏矿床的预测评价具有重要的理论和实际意义 ,尤其是黄龙组底部的热水沉积岩是铜陵地区找矿的重要标志 ,对于指导长江中下游地区 ,如宁芜等地 ,寻找该层位的矿床有着不可替代的指示意义。     

安徽铜陵朝山金矿床稳定同位素、稀土元素地球化学研究

朝山金矿床位于安徽铜陵狮子山矿田，属于矽卡岩型金矿床，侵入岩体为白芒山辉石二长闪长岩体。成矿过程包括矽卡岩阶段、石英-硫化物阶段和碳酸盐阶段3个主要成矿阶段。文章通过对朝山金矿床的氢、氧、碳、硫、硅同位素组成和稀土元素地球化学特征的研究，探讨成矿溶液中水、碳、硅和硫的来源以及成矿溶液的演化问题。研究表明，成矿热液早期以岩浆热液为主，随着成矿过程的进行，加入的大气降水比重越来越大，到晚期可能主要以大气降水为主。该矿床矿石中方解石的碳、氧同位素组成与矿区大理岩的碳、氧同位素组成明显不同，其δ^13 Cv-PDB、δ^18OV-SMOW值分别为-4．5～-5．3‰、13．9～14．0‰，与岩浆作用形成的CO2的碳、氧同位素组成一致，表明矿石中方解石的碳、氧来源于岩浆作用。硅和硫具深部岩浆或岩浆热液来源的特点。     

自主学习理念下的预习任务设计与课堂对接

在自主学习理念下,基于学情和学科特点设计预习的内容并进行类型的划分。针对预习效果,实现课堂教学对接,促进教学向生成性、实践性、研究性转化。本文以“宇宙中的地球”为例,探讨预习内容的设计与课堂对接,并对“地理1”模块的实践效果进行问卷调查统计和实践反思。     

Spirulina cultivation in China

This paper reviews and discusses the development and many problems ofSpirulina cultivation in China, points out the advantages and disadvantages of open photobioreactor system, and predicts that seawaterSpirulina cultivation will be a new trend to be strengthened and emphasized due to its special physiological characteristics, easier management, lower fertilizer cost, and higher resistance to contaminants and rare pollution of chemicals.

     

城市景观湖泊不同时间尺度CH4通量特征及影响因素分析——以南京市莫愁湖为例

城市景观湖泊对温室气体的收支发挥着重要作用。本文以南京市莫愁湖为研究对象,采用静态箱—温室气体分析仪法实时监测湖泊水—气界面CH₄通量,分析湖泊主要温室气体CH₄在日尺度和季节尺度上因冒泡和扩散排放方式不同对其通量的影响,探究影响湖泊CH₄通量的因素。结果表明:(1)在日尺度上,四季24 h内CH₄均呈排放状态,受白天冒泡影响,四季CH₄总通量均存在白天高于夜间的日变化特征。(2)在季节尺度上,莫愁湖CH₄排放通量呈现显著的时空异质性,受冒泡通量的影响夏季CH₄通量明显高于春、秋、冬三季;B区的CH₄总通量(6.04 nmol/(m²·s))显著高于A区(3.82 nmol/(m²·s)),水体的营养化程度和离岸距离是空间变化的主要影响因素。A、B两区CH₄排放夏季以冒泡排放为主,春、秋、冬以扩散排放为主。(3)在日尺度上,CH₄     

“发现计划”地理学联合实习的实践与思考——以第11届地理学国家理科基地联合实习为例

野外实践教学是地理学专业人才培养至关重要的环节。本文介绍了“发现计划”地理学联合实习的主旨、内容和成绩评估,并就“提问-观察-思考-讨论-总结”的教学模式进行了阐释。2019年地理学联合实习,不仅践行“发现学习”的理念,且具有培养学生从认知型实习向研究型实习转变的特点。其前期准备是联合实习顺利进行的基础,主办单位的经费支持是联合实习可持续的保障。联合实习培养了学生良好的科学素养、团队协作意识和综合素质,其教学模式可为地理学专业野外实习提供借鉴。     

青海高原东部河湟谷地生态风险评价——以海东市为例

以位于青海高原东部河湟谷地的海东市为研究区,在土地利用变化分析的基础上构建生态指数,利用移动窗口法获得区域空间连续的生态风险指数,再结合GIS空间分析获得与土地利用空间尺度相一致的生态风险评价结果。结果表明：1999-2009年,青海高原东部农业区土地利用变化明显,有林地、灌木林地、建设用地面积迅速增加,耕地、水浇地、草地面积持续大幅减少,土地利用变化区域占总面积的42.04%;生态高风险区面积增加显著,增长率达27.11%,主要位于未利用地和建设用地区域;生态中风险地区面积减少,主要位于旱地、水浇地、草地分布区域;生态微、低风险区域主要位于林地、灌木林地区域。     

Geological,physical, and chemical characteristics of seafloor hydrothermal vent fields

Seafloor hydrothermal vent fields(SHVFs) are located in the mid-ocean ridge(MOR),backarc basin(BAB),island arc and hot-spot environments and hosted mainly by ultramafic,mafic,felsic rocks,and sediments.The hydrothermal vent fluids of SHVFs have low oxygen,abnormal pH and temperature,numerous toxic compounds,and inorganic energy sources,such as sulfuric compounds,methane,and hydrogen.The geological,physical,and chemical characteristics of SHVFs provide important clues to understanding the formation and evolution of seafloor hydrothermal systems,leading to the determination of metal sources and the reconstruction of the physicochemical conditions of metallogenesis.Over the past two decades,we studied the geological settings,volcanic rocks,and hydrothermal products of SHVFs and drawn new conclusions in these areas,including:1) the hydrothermal plumes in the Okinawa Trough are affected by the Kuroshio current;2) S and Pb in the hydrothermal sulfides from MOR are mainly derived from their host igneous rocks;3) Re and Os of vent fluids are more likely to be incorporated into Fe-and Fe-Cu sulfide mineral facies,and Os is enriched under low-temperature(200℃) hydrothermal conditions in global SHVFs;4) compared with low-temperature hydrothermal sulfides,sulfates,and opal minerals,high-temperature hydrothermal sulfides maintain the helium(He) isotopic composition of the primary vent fluid;5) relatively low temperature(116℃),oxygenated,and acidic environment conditions are favorable for forming a native sulfur chimney,and a "glue pudding" growth model can be used to understand the origin of native sulfur balls in the Kueishantao hydrothermal field;and 6) boron isotope from hydrothermal plumes and fluids can be used to describe their diffusive processes.The monitoring and understanding of the physical structure,chemical composition,geological processes,and diverse organism of subseafloor hydrothermal systems will be a future hot spot and frontier of submarine hydrothermal geology.