东太平洋CC区多金属结核物质来源和分布规律

对东太平洋CC区(Clarion-Clipperton Zone)多金属结核丰度、品位、多波束地形测量、深拖光学覆盖率探测、地震勘探等一系列调查资料综合研究表明:①东区和西区结核在其化学成分和形态上有差异,但是聚类分析结果表明不能按区域断然分开;②因子分析得出东、西两区结核4种主因子是Mn组元素Mn、Cu、Ni、Zn,Fe组元素Fe、Co、Ti、Sr,岩源组元素Si、Al、K,生物元素Ca、P;③西区结核成矿物质主要来源于上覆海水中金属元素的化学沉淀,火山成矿作用使结核富集和丰度增加,趋势面和人工神经网络分析表明结核主要分布在海底坡度≤5°地区,该地区的结核量占总结核量的89.62％,坡度>5°地区结核量占10.38％;④东区结核丰度、覆盖率、地形三者变化一致,重大相变距离为10～15km,来自地幔成矿物质通过玄武质洋壳裂隙和断层,为多金属结核的形成和生长提供了丰富的物质来源,地球深部地质作用过程如基底岩浆房活动可能对结核分布产生重要影响;⑤东太平洋CC区多金属结核矿带的形成应归于海底板块扩张活动的一种资源效应和经后期表生地质作用改造的结果。     

中太平洋海山多金属结壳的成矿特征

根据我国大洋多金属结壳的调查资料并结合其他相关的研究结果，对中太平洋海山区多金属结壳的类型，产状，成分，结构，分布等成矿特征进行了初步的研究，结果表明，中太平洋海山区富钴结壳广泛发育，但成矿特征较大地受地形，水溶，基岩类型等成矿环境因素的影响与制约。     

青海拉鸡山构造带是裂谷还是构造窗——与王二七研究员商榷

拉鸡山构造带东西长逾650km,展布于由元古宇组成的结晶地块内部，是一条早古生代火山岩极为发育的构造带。长期以来众多学者对拉鸡山进行大地构造学、岩石学研究。作者曾在拉鸡山从事多年野外调查工作，研究认为该地区无论在区域地质学、岩石学、构造变形学还是在大地构造演化方面其早古生代构造演化史皆具典型的裂谷带特征。晚古生代以来，经历了陆内多阶段造山过程，而为后期多阶段抬升的构造窗观点值得商榷。     

拉鸡山裂谷带特征及演化

拉鸡山构造带东西长逾 6 50km ,展布于由元古宇组成的结晶地块内部 ,是一条早古生代火山岩极为发育的构造带。通过作者在拉鸡山多年的野外调查工作和研究 ,认为该地区无论在区域地质学、岩石学、构造变形学还是大地构造演化方面 ,其早古生代构造演化史皆具典型的裂谷带特征。晚古生代以来 ,区内经历了陆内多阶段造山过程。新生代早更新世 ,拉鸡山巨型断裂带发生左旋走滑运动 ,导致断裂带弧形转折部位强烈崛起 ,形成雄伟高山。     

西沙群岛砗磲壳体碳、锶同位素研究及其对比

本文系统地测定了西沙群岛中双壳类鳞砗碟壳体碳、锶同位素，结果发现鳞砗碟壳体的碳、锶同位素的生长变化曲线表现出明显的周期性，碳同位素受到鳞砗碟新陈代谢作用的影响，幼年时期壳体的δ^13C变化，幅度小于发育期，这主要是由于鳞砗磲体内在幼年期能量的消耗大于发育期。通过与其壳体上的生长纹的对比，碳同位素的周期就是生物年生长周期。锶同位素的周期性主要是由于附近大陆年周期性降雨量的变化所引起的，它不受生物生长作用的影响。     

鄂东北早元古代沉积变质锰矿元素矿物组合特征

鄂东北早元古代沉积变质锰矿是我国时代最古老的锰矿之一,是由早元古代锰质碳酸盐岩经区域变质作用而成,后又经风化富集形成工业矿床。由于特殊的地质构造背景和成矿作用的多阶段性,元素和矿物组合复杂,具有独特性。本文研究了各种组分的演变关系和元素集散因素,为锰质碳酸盐岩在高压绿片岩相区域动力变质及其后表生作用中的演变提供了一个实例。     

碳糊电极循环伏安法测定γ－和β－二氧化锰物相

利用碳糊电极循环伏安法对γ－ＭｎＯ＿２和β－ＭｎＯ＿２进行了定量分析，相对于２００．０ｍｇ碳粉的线性范围分别为γ－ＭｎＯ＿２９．１３～４５，６ｍｇ；β－ＭｎＯ＿２４．５６～３６．５ｍｇ，在线性范围内测量７次，其ＲＳＤ分别为０．５９％～５．２８％和Ｏ％～５．７２％。同时对γ－ＭｎＯ＿２和β－ＭｎＯ＿２的混合试样及湘潭电解二氧化锰也进行了定量测定，其平均相对误差分别为２．０１％～１２．４％和１．９６％～７．５２％。该方法进行物相分析，具有简便、快速、灵敏、经济和不经化学分离等特点。     

新疆北天山晚古生代洋盆演化与推覆构造

通过实地考察并综合区域及深部物探资料,研究了北天山逆冲推覆系统的构造样式、结构特征和组合方式;认为北天山晚古代洋盆为板内地壳扩张活动形成的裂陷构造产物,存在时限短暂、对生物群迁移基本没有阻隔作用,不应具有分隔岩石圈板块的大地构造意义。     

Global synchroneity of a positive carbon isotope excursion at the Cenomanian/Turonian boundary: Validation by calcareous microfossil biostratigraphy of the Yezo Group, Hokkaido, Japan

Abstract Isotopic analyses of organic carbon from the mid-Cretaceous sequence in Hokkaido, Japan, revealed a 2‰ positive excursion of δ¹³C values at the biostratigraphically defined Cenomanian/Turonian (C/T) boundary recognized in the Yezo Group. The planktonic foraminiferal Whiteinella archaeocretacea Zone, which is known to bracket the Cenomanian/Turonian boundary elsewhere in the world, was recognized in the Oyubari area of central Hokkaido based on the distribution of commonly occurring planktonic foraminifera. In the Tappu area of northwestern Hokkaido, where diagnostic planktonic foraminifera are rare but calcareous nannoplankton occur commonly, the interval coeval with the W. archaeocretacea Zone can also be established by recognizing the conjoined last appearance levels of Corollithion kennedyi and Axopodorhabdus albianus, both calcareous nannoplankton species. Carbon isotope profiles exhibit a similar pattern with comparable peaks and troughs occurring in the same stratigraphic position in the sequences. A prominent, positive 2‰ shift of δ¹³C values, here called ‘δ¹³C spike’ occurs in the middle of the W. archaeocretacea Zone in the Oyubari area and just above the conjoined last appearances of the two above-mentioned nannoplankton taxa in the Tappu area. The Cenomanian/Turonian boundary can be drawn just above the peak position of the spike in both sections. The Rock Eval analyses and biomarker analyses of organic carbon indicate that organic carbon subjected to our isotope analyses is of terrestrial origin. Therefore, the observed 2%o shift should reflect changes in the isotopic composition of the atmospheric CO₂. A unique layer composed predominantly of sand-grain sized spumellarian Radiolaria is present immediately above the δ¹³C spike both in the Oyubari and Tappu areas, suggesting an increasing availability of both nutrients and silica in surface waters.     

AN EXPERIMENT STUDY OF FRONTAL CYCLONES OVER THE WESTERN ATLANTIC OCEAN*

By using PSU/NCAR MM5 mesoscale model,a 60-h simulation is performed to reproduce a frontal cyclogenesis over the Western Atlantic Ocean during March 13-15 1992.The model reproduces well the genesis,track and intensity of the cyclone,its associated thermal structure as well as its surface circulation.The major cyclone (M) deepens 45 hPa in the 60-h simulation and 12 hPa in 6 hours from 36 h to 42 h (model time) and 27 hPa in 24 hours from 36 h to 60 h (model time).Cross-section and isentropic analysis tell us that the cyclogenesis is in very close relation with slantwise isentropic surfaces;the cyclone is always superposed on the core of neutral convective stability with nearly vertical isentropic surfaces,which coincides with what the theory of Slantwise Vorticity Development (SVD) says.Beginning with the theory of SVD,the development and propagation of the oceanic frontal cyclone are studied by using high-resolution model output in the context of slantwise isentropic surfaces.The results show that the frontal cyclone deepens rapidly by the interaction with the large-scale environment after occurring over the ocean with weak static stability;and the theory of SVD can well interpret the development and propagation closely related with slantwise isentropic surfaces,The downstream slantwise up-sliding movement along canting isentropic surfaces makes vorticities develop (USVD) under favorable condition (C_D<0,where CD is SVD index),and results in the moving and development of the cyclone.