86 resultados para Gowrie Conspiracy, 1600.
Resumo:
The most prominent tectonic and environmental events during the Cenozoic in Asia are the uplift of the Himalaya-Tibetan plateau, aridification in the Asian interior, and onset of the Asian monsoons. These caused more humid conditions in southeastern China and the formation of inland deserts in northwestern China. The 22 Ma eolian deposits in northern China provide an excellent terrestrial record relative to the above environmental events. Up to date, many studies have focused on the geochemical characters of the late Mio-Pleistocene eolian deposits, however, the geochemical characteristics of the Miocene loess and soils is still much less known. In this study, the elemental and Sr-Nd isotopic compositions of the eolian deposits from the Qinan (from 22.0 to 6.2 Ma) and the Xifeng (from 3.5 Ma until now) loess-soil sections were analyzed to examine the grain size effects on the element concentrations and the implications about the dust origin and climate. The main results are as follows: 1. The contents of Si, Na, Zr and Sr are higher in the coarser fractions while Ti and Nb have the highest contents in the 2-8 μm fractions. Al, Fe, Mg, K, Mn, Rb, Cu, Ga, Zn, V, Cr, Ni, LOI have clear relationships with grain-size, more abundant in the fine fraction while non significant relationship is observed for Y. Based on these features, we suggest that K2O/Al2O3 ratio can be used to address the dust provenance, and that VR (Vogt ratio = (Al2O3+K2O)/(MgO+CaO+Na2O)) can be used as a chemical weathering proxy for the Miocene eolian deposits because of their relative independence on the grain size. Meanwhile, SiO2/Al2O3 molar ratio is a best geochemical indicator of original eolian grain size, as suggested in earlier studies. 2. Analyses on the Sr and Nd isotope composition of the last glacial loess samples (L1) and comparison with the data from the deserts in northern China suggest that that Taklimakan desert is unlikely to be the main source region of the eolian dust. In contrast, these data suggest greater contributions of the Tengger, Badain Jaran and Qaidam deserts to the eolian dust during the last glacial cycle. Since the geochemical compositions (major, trace, REE and Sr, Nd isotope) of loess samples for the past 22 Ma are broadly similar with the samples from L1, these data trend to suggest relatively stable and insignificant changes of dust sources over the past 22 Ma. 3. Chemical weathering is stronger for Miocene paleosol samples than for the Plio-Pleistocene ones, showing warmer/more humid climatic conditions with a stronger summer monsoon in the Miocene. However, chemical weathering is typical of Ca-Na removal stage, suggesting a climate range from semiarid to subhumid conditions. These support the notion about the formation of a semi-arid to semi-humid monsoonal regime by the early Miocene, as is consistent with earlier studies.
Resumo:
The alkenone unsaturation paleothermometer is an important proxy to reconstruct water temperature, and is widely applied to reconstructing sea surface temperature in most oceanographic settings. Recent research indicates that long chain alkenone is preserved in lacustrine sediments, and the alkenone unsaturation has good relationship with mean annual temperature in studied lakes. Thus, the alkenone unsaturation could be used as a temperature proxy to reconstruct temperature in limnic systems. In this study, we analyzed long chain alkenone from the varved sediments in Lake Sihailongwan, northeastern China. Based on the counting varves, we established time scale during the past 1500 years. The distribution pattern in the sediment is similar with the previous study in lacustrine environment. The ratio of C37:4 methyl ketone to the sum of C37 alkenones is high. Based on the published temperature- alkenone unsaturation equation, we reconstructed the mean air temperature and July water temperature during the past 1500 years. Three major cold periods are in AD560-950, AD 1540-1600 and AD1800-1920. Three major warm periods are AD450-550, AD 950-1400 and AD 1600-1800. The Medieval Warm Period was a significant warm periods. However, the traditional “Little Ice Age” was not a persistent cold period, and interrupted by relative longer warm period. The temperature variations in this study show a general similar pattern with the summer temperature reconstruction from Shihua Cave and the winter temperature from historical documents. The temperature variations from long chain alknone record show a good agreement with solar activity (10Be data from ice core and sunspot number from tree rings). It may suggest that solar activity is most important forcing in the studied area.
Resumo:
Data on seawater carbon isotope in the Mesoproterozoic and Neoproterozoic is abundant. However, the sulfur isotopic age curve of seawater sulfates determined through the analysis of sulfur isotopic composition of marine evaporite is uncertain in the Mesoproterozoic and Neoproterozoic since evaporites are generally rare in Precambrian. The Mesoproterozoic and Neoproterozoic Carbonate Formations preserve not only the carbon isotopic records, but also the sulfur isotopic records of coeval seawater in the Huabei Platform and the Yangtze Platform, China. Sulfur isotopic composition can be determined by the extraction of trace sulfate from carbonate samples. Successive measurements of sulfur and carbon isotopic compositions of carbonate samples from the Mesoproterozoic and Neoproterozoic strata in the Huabei Platform and the Yangtze Platform was accomplished through the extracting of trace sulfate from carbonates. Sulfur and carbon isotopic compositions of coeval seawater were obtained from analytical results of sulfur and carbon isotopes of the same sample without diagenetic alteration. The high-resolution age curve of sulfur isotope given in this paper may reflect the trend of variations in sulfur isotope composition of seawater sulfates during the Mesoproterozoic and Neoproterozoic. It can be correlated with the characteristics of variation in age curve of carbon isotope of coeval seawater carbonates. The δ34S values of seawater varied from +10.3-37.0‰ during the Mesoproterozoic, which took on oscillated variation on the whole. The δ34S values took on high values in the Mesoproterozoic Chuanlinggou stage, Tuanshanzi stage Tieling stage and in Neoproterozoic Jing'eryu stage. The average of those was about +30‰. The sulfates have low δ34S values in the Mesoproterozoic Yangzhuang stage and Hongshuizhuang stage, The average of those was all lower than +20‰. There occured large-amplitude changs in δ34S values of seawater during the Mesoproterozoic. Large-amplitude oscillate of 534S values occured in the intervals of 1600~1400Ma and 1300~1200Ma. The δ13C values of seawater are mostly negative in Changcheng stage of late Paleoproterozoic, -0 ± 1‰ range in Jixian stage of Mesoproterozoic , and the positive 2±2‰ commonly in early Neoproterozoic Jing'eryu stage. From 1000 Ma to 900 Ma, about 108 years interval of oceanic 513C record is shortage. At the end of Paleoproterozoic (1700 - 1600 Ma), the oceanic 813C values change from -3‰ to 0‰, but strongly oscillate near 1600 Ma. Two larger variations of seawater 513C values occur in the Mesoproterozoic: one is a cycle of about 4%o happens at ca. 1400 Ma; another is rise from >2‰ to>5‰ at ca. 1250 Ma and then become stable at the near 1000 Ma. There appears a large positive excursion over +20‰ in 534S value of ancient seawater sulfates in the early Doushantuo stage. Simultaneously, 8 C values of ancient seawater occur a positive excursion reaching 10‰. These allow δ4S values and 513C values to reach high values of+51.7‰ and +6.9‰, respectively. The range of variation in 834S values of seawater is relatively narrow and 513C values are quite high in the middle Doushantuo stage. Then, δ34S values of seawater become oscillating, the same happens in δ13C values. Negative excursions in 834S values and 813C values occur simultaneously at the end of the Doushantuo stage, and the minimum of δ34S values and δ13C values dropped to -11.3‰ and -5.7‰, respectively. The ancient seawater in the Dengying stage has high δS values and δ13C values. Most of the δ34S values of the trace sulfate samples varied between +23.6‰ and +37.9‰ except two boundaries of the Dengying Formation, and the S13C values of the carbonate samples of the Dengying Formation varied between +0.5‰ and +5.0‰. There appeared large negative excursion in 834S values and δ13C values of ancient seawater at the bounder of Precambrian-Cambrian. The isotopic characteristics of sulfur and carbon implicated that the organic productivity and isotopic fractionation caused by biology were low and the palaeoceanic environment was quite unstable during the Mesoproterozoic. The increase and subsequent oscillation of seawater δ13C value occurred from 1700 to 1600 Ma and near 1300 Ma may be responsible to the two global tectonic events happened at coeval time. The characteristics of variation in sulfur and carbon isotopes of ancient seawater imply strong changes in oceanic environment, which became beneficial to inhabitation and propagation of organism. The organic production and the burial rate of organic carbon once reached a quite high level during the Doushantuo stage. However, the state of environment became unstable that means the global climate and the environment possibly were fluctuating and reiterating after the global glaciation. The negative excursions of S34S values and δ13C values occurring at the end of the Doushantuo stage represent a global event, which might be relative to the oxidation of deep seawater. The isotopic characteristics of sulfur and carbon implicated that there were a high organic productivity and a high burial rate of organic carbon in the Dengying stage. It is obvious that the palaeoceanic environment in Dengying stage was stable corresponding and beneficial for biology to inhabit and propagate except for the two boundaries. The tendency of sulfur and carbon isotopic variations maybe resulted from the gradual oxygenation of ocean environment during the Dengying stage. It has been reported that the secular variations of the sulfur isotopic compositions in seawater was negative correlated with that of carbon isotopic compositions. However, our results show that it is not the case. They were negatively correlated in some intervals and positively in some other intervals of the Mesoproterozoic and Neoproterozoic. The difference in correlation may be associated with the changes in conditions of redox in oceanic environment, e.g. sharp change of the oxidation-reduction interface. The strong changes in global environment may induce the abnormality to occur in the biogeo chemical S and C cycles in the ocean and accordingly sharp Variations in isotopic composition of seawater sulfur and carbon during the Mesoproterozoic and Neoproterozoic. Simultaneously, the global tectonism caused large changes of 87Sr/86Sr ratios. The leading factor that causes the variation in isotopic composition is different in the different intervals of the Mesoproterozoic and Neoproterozoic. Thus, there may exist different models of the biogeochemical S and C cycles in the ocean during the Mesoproterozoic and Neoproterozoic.
Resumo:
对金川西大甸子干玛珥泥炭沉积中部一段泥砂状物质进行鉴定,首次发现火山玻璃,确定为近源火山一次爆炸式喷发的原地沉积物。在排除来自长白山天池火山和龙岗金龙顶子火山约1600前喷发的可能性后,据该火山喷发物主要化学成分特点,推测其为龙岗火山群早于金龙顶子火山约1600BP喷发的另一次喷发产物。据该火山喷发物所在泥炭层的年龄,推测这次喷发的可能年代为15BC~26AD。
Resumo:
运用X射线衍射、红外光谱及固体高分辨核磁共振等手段,研究了苏州高岭石560~1600热变产物,结果显示:①高岭石.偏高岭石.莫来石的转变系列存在结构上的连续性,其转变经历了脱羟阶段(约400~600℃),偏高岭石阶段(600~800℃),相分离阶段(800~1100℃),莫来石阶段(1100~1600);②莫来石形成过程没有出现AlO3的大量分凝,但存在SiO2分凝;③偏高岭石.莫来石转变过程的中间相为Al-Si尖晶石和准莫来石;④引起1000℃放热反应的主要因素是SiO2的大量分凝,其次是准莫来石等过渡相的形成。
Resumo:
运用魔角旋转核磁共振结合红外光谱及X射线衍射等手段,研究了苏州高岭石的560-1600热转变产物,主要获得以下结论:(1)高岭石-偏高岭石-莫来石的转变系列的确存在结构上的连续性。其转变经历了几个阶段;脱羟阶段(400-600℃),偏高岭石阶段(600-800℃),相分离阶段(800-1100℃),莫来石阶段(1100-1600)。(2)莫来石形成过程没有出现Al2O3的大量分凝,但存在SiO2的分凝。(3)偏高岭石-莫来石转变过程的中间相为Al-Si尖晶石和准莫来石。(4)引起1000℃放热反应的主要因素是准莫来石的形成。
Resumo:
内蒙古乌兰图嘎锗矿是我国近年来发现的产在煤层中的超大型锗矿床,锗金属储量达1600 t。以乌兰图嘎超大型锗矿床的含锗煤为研究对象,利用X射线衍射(XRD)、带能谱的扫描电镜(SEM-EDX)和电子探针(EPMA)详细研究了乌兰图嘎含锗煤及其同时代的红旗煤矿无矿煤的矿物学特征。分析结果表明,乌兰图嘎含锗煤中的主要矿物包括石英、蒙脱石;次要矿物包括长石、高岭石、伊利石;另含少量三水铝石、角闪石、叶蜡石、石膏、绿泥石、锐钛矿、黄铁矿、方解石、白云石和草酸钙石;微量的锆石、闪锌矿、白钨矿、重晶石、黄铜矿、卤化物、磷酸盐以及含Pb、Bi、Cr、As和Sb矿物。未发现含锗矿物。推测含锗煤中的锗可能主要呈有机结合,而Ba、Zn、Ti、W、Pb、Bi、Cr、Fe、As、Zr、Sb、Cu和REE可能主要与矿物相结合。此外,首次在乌兰图嘎含锗煤及红旗煤矿无矿煤中发现含银颗粒或自然银,推测胜利煤田的褐煤可能有相当规模的Ag矿化。
Resumo:
燕山中晚期,个旧岩浆活动强烈,并形成基性、中性、酸性及碱性杂岩体。对此前人已做过很多工作,但对其成因机制并未做详细探讨。本文以神仙水花岗岩、卡房花岗岩及贾沙辉长-二长岩为研究对象采用XRF、ICP-MS、EMPA-1600分析测试方法,对个旧岩浆杂岩体的元素地球化学特征做了详细的分析和总结,并初步得出以下结论: 1、贾沙辉长-二长岩富集LILE、LREE,相对亏损HREE,并具有富碱特征和Eu的弱负异常,说明其为富集地幔来源;但与OIB相比,具有Nb、Ta、Ti等元素的亏损,说明其受到地壳混染作用。 2、个旧花岗岩普遍具有高硅、高铝、富碱(尤其富钾)等特征。随着SiO2含量的增加,Al2O3、Fe2O3T、MgO、CaO、TiO2、P2O5的含量呈线性降低;当SiO2含量大于70%时,Na2O和K2O含量变化不大。 3、岩石类型上,个旧各花岗岩体的铝质系数A/CNK值为0.92~1.08,属于I型花岗岩;构造环境上,个旧花岗岩形成于大陆碰撞环境,为碰撞晚期或后碰撞构造环境;其主要成分来源于地壳,并有基性成分和酸性成分的混合特征。 4、初步研究表明,个旧花岗岩形成于与玄武质岩浆底侵有关的下部大陆壳重熔作用。
Resumo:
乌兰图嘎锗矿是我国近年来发现的产在煤层中的超大型锗矿床,锗金属储量达1600,其成矿地质条件与成矿模式不同于临沧锗矿和俄罗斯远东地区的锗矿。本文以乌兰图嘎含锗煤的地球化学特征为重点,利用X射线衍射、扫描电镜、电子探针、ICP-MS和数理统计等多种分析方法,系统研究了乌兰图嘎含锗煤的矿物学、微量元素和稀土元素地球化学特征,结合与其他地区含锗煤地球化学特征的对比,初步探讨了乌兰图嘎锗矿的成因。论文获得以下几点主要认识: 1. 乌兰图嘎含锗煤中的主要矿物包括石英、蒙脱石;次要矿物包括长石、高岭石、伊利石;另含少量三水铝石、角闪石、叶蜡石、石膏、绿泥石、锐钛矿、黄铁矿、方解石、白云石和草酸钙石。扫描电镜和电子探针分析表明,乌兰图嘎含锗煤中还存在锆石、闪锌矿、白钨矿、重晶石、黄铜矿、卤化物、磷酸盐以及含Pb、Bi、Cr、As和Sb矿物。未发现含锗矿物。首次在乌兰图嘎含锗煤和红旗煤矿的无矿煤中发现含Ag矿物。 2. 与上地壳平均组成相比,乌兰图嘎锗矿褐煤明显富集Be、Ge、Sb、W和U,亏损Rb、Nb、Sn和Ta。乌兰图嘎锗矿褐煤中Be、Ge、Sb、W和U的平均含量明显高于乌兰图嘎砂岩和红旗煤矿褐煤,以及美国煤和世界煤的平均组成。乌兰图嘎锗矿含矿煤的稀土元素平均含量略高于美国煤或世界煤的平均组成、乌兰图嘎砂岩以及同时代的红旗煤矿无锗煤中的稀土元素含量。稀土元素与锗含量无明显的相关性。 3. 按元素组合不同,煤中微量元素可划分为4个组:Ge-Mo,Tl-Ga-Zn-Co,Rb-Cs和W-U-Cd-Y-Pb-Cu-Hf-Zr-Th-Sn-Nb-Ta-Ti-Sb-Ba-Sr-Mn-Be组合。第一组合包括与灰分呈负相关的元素,它们主要表现出有机亲合性。 剩下三组包括与灰分呈负-较高相关的元素,其主要与硫化物或铝硅酸盐矿物结合。大多数含锗煤的稀土元素含量与灰分呈高度正相关,表明含锗煤中的稀土元素主要来自陆源碎屑并主要与同沉积矿物相结合。稀土元素在少数高锗煤中的富集与存在独居石有关。 4. Ge和Mo富集在不同剖面的不同部位,其余微量元素和稀土元素或多或少地跟随灰分的分布。TiO2标准化的元素剖面揭示乌兰图嘎褐煤样品中的Be/TiO2、Ge/TiO2、W/TiO2、U/TiO2、Mo/TiO2、Sb/TiO2、Tl/TiO2和Sr/TiO2比值较乌兰图嘎砂岩和红旗煤矿褐煤中的参考值高出许多。这些元素(Be、Ge、W、U、Mo、Sb、Tl和Sr)的大部分(>90%) 可能由溶液带入煤层。稀土元素与TiO2的比值总体接近矿区砂岩以及红旗煤矿无矿煤中的对应比值。 5. 乌兰图嘎含锗煤具有与矿区砂岩和红旗煤矿无矿煤类似的、页岩式的球粒陨石或北美页岩标准化稀土元素分配模式;与上覆砂岩的稀土元素组成相比,少量含锗煤表现出轻微但明显的中-重稀土富集,表明少量的中-重稀土在后生作用中被叠加或保留在乌兰图嘎含锗煤中。乌兰图嘎锗矿的含锗煤以较高的LREE/HREE和Eu/Eu*比值以及平坦的北美页岩标准化稀土元素分配模式为特征,明显区别于临沧锗矿和俄罗斯远东地区锗矿中的含矿煤。 6. 乌兰图嘎锗矿含锗煤中大多数的微量元素和稀土元素可能来源于花岗岩源区,Be、Ge、Sb、W和U的富集可能与后生的、侧向迁移的含锗溶液有关。含锗溶液自花岗岩源区淋滤出这些元素并将其搬运至褐煤中,煤中有机质将溶液中的锗固定而聚集成矿。
Resumo:
华南下寒武统保存着国际著名的生物群(如澄江生物群),同时蕴藏着磷块岩、重晶石、稀土及Ni-Mo-PGE等丰富的矿产资源,因此,它一直为地质科学家们持续关注的热点之一。关于华南下寒武统的研究,前人在古生物学方面已经取得了卓著的成就,主要表现在国际权威期刊上(如期刊《Science》和《Nature》)已发表大量的关于澄江生物群的研究成果,对早期生命演化研究具有重要而广泛的影响。然而,华南下寒武统年代学及国际对比研究方面已明显滞后,公开发表的华南下寒武统的高精度、可靠的锆石U-Pb年龄数据至本研究论文截稿时止仍然仅有唯一的一个,即Jenkins et al. (2002)报道的国际前寒武系-寒武系界线层型候选剖面―云南晋宁梅树村剖面的朱家菁组中谊村段中部(第5层)钾质斑脱岩锆石SHRIMP U-Pb年龄(538.2 ± 1.5 Ma)。因而,华南下寒武统中的重要生物群、矿床及具全球对比意义的C同位素漂移事件缺乏地层精确年龄的约束,进而制约了早期生命演化理论、矿床成因解释及地层国际对比等方面研究的发展。 近来,发现华南下寒武统赋存独特的钾质斑脱岩层,它们在横向上广泛分布于云南东部、四川峨眉麦地坪、贵州西部(如织金和金沙岩孔)及北部(如遵义松林)、湖北宜昌泰山庙和湖南张家界等地区,在地层序列垂向上主要产出于朱家菁组中谊村段中部、石岩头组底部以及它们的相当层位。这些钾质斑脱岩既是建立地层框架等时层潜在的物质基础,亦是获取地层精确锆石U-Pb年龄的具重要意义的研究对象之一。因此,对它们进行系统研究可望改观华南下寒武统年代学及国际对比研究方面的落后现状。 同时,华南下寒武统广泛产出的磷块岩既具有重要的资源价值,另一方面,任一磷块岩层代表着一次独立的成磷事件,因而将华南地区下寒武统磷块岩进行区域上的对比研究,从而以磷块岩层作为等时层,对构建华南下寒武统地层框架具有重要的地层学意义。 此外,华南下寒武统产出的Ni-Mo多元素富集层广泛分布于扬子地台范围,西起云南东部,东部延至浙江诸暨地区,在NE-SW向延伸近1600 km,它既代 表了重要的成矿事件,亦为关键的地球化学异常层位。因此,对Ni-Mo多元素富集层进行区域上的对比研究,明确它在华南下寒武统各重要剖面的产出位置,对于构建华南下寒武统层序框架具有重要意义。 遵义松林地区的下寒武统因赋存Ni-Mo-PGE矿床及与滇东地区澄江生物群相当的遵义生物群而日益受到国内外地质学家们的广泛关注。该区牛蹄塘组底部产出磷块岩、钾质斑脱岩及Ni-Mo多元素富集层,与滇东地区梅树村剖面出露的地层具有潜在的可对比性。因此,本研究选取近年来日益受科学家们关注的遵义松林地区下寒武统作为研究对象,重点对该区牛蹄塘组底部的钾质斑脱岩开展矿物学、地球化学和年代学研究。同时,将遵义松林地区下寒武统剖面上磷块岩、钾质斑脱岩、Ni-Mo多元素富集层主要与滇东地区梅树村剖面的相应岩层进行地球化学对比研究。研究的目的在于通过对华南地区上述两条代表性的下寒武统剖面进行地层对比研究,初步构建华南下寒武统具时间、空间涵义的层序框架,从而约束华南下寒武统中的重要生物群、矿床及具全球对比意义的C同位素漂移事件的时间,进一步促进华南下寒武统的划分和全球对比。论文获得以下主要结论性认识: (1)滇东地区朱家菁组中谊村段中部钾质斑脱岩及其邻近的磷块岩可构成华南下寒武统层序框架的第一个标志层。这一标志层在贵州大部分地区(或华南地区的多数下寒武统剖面)缺失。该标志层的磷块岩稀土元素总量和Y含量高于新元古代陡山沱期磷块岩,低于遵义松林地区牛蹄塘组底部及其华南其它地区相当层位(石岩头组底部及戈仲伍组)的磷块岩。第一个标志层的钾质斑脱岩的原始岩浆为亚碱性系列的酸性岩浆,其典型特征为具有较低的Zr(变化范围144×10-6~291×10-6,平均196.4×10-6)、Nb(变化范围10×10-6~13×10-6,平均11.86×10-6)含量和较高的Zr/Nb比值(变化范围为12.63~24.24,平均值为16.55)。这一层钾质斑脱岩的锆石U-Pb年龄为538.2±1.5 Ma(Jenkins et al., 2002)。 (2)遵义松林地区牛蹄塘组底部钾质斑脱岩和磷块岩分别相当于滇东地区石岩头组底部钾质斑脱岩和磷块岩,它们构成华南下寒武统层序框架的第二个标志层。该标志层中钾质斑脱岩的原始岩浆性质为中性岩浆,其碱性程度高于朱家菁组中谊村段中部钾质斑脱岩的原始岩浆。相对于中谊村段中部钾质斑脱岩,该层位的钾质斑脱岩具有高的Zr(变化范围187.0910-6~391.5710-6,平均值318.4010-6)、Nb(49.6910-6~140.0010-6,平均值90.6810-6)含量和低的Zr/Nb(2.60~4.32,平均值3.61)比值。该钾质斑脱岩的年龄为518 ± 5 Ma。该标志层的磷块岩以极其富REE和Y为特征,其稀土元素总量平均值为636.01×10-6,Y含量平均值262.43×10-6,明显高于滇东地区中谊村段磷块岩(∑REE平均值为195.45×10-6,Y含量平均值为91.2310-6),它们代表早寒武世时期一次特殊的以极其富REE和Y为特征的成磷事件。 (3)Ni-Mo多元素富集层可以作为构建华南下寒武统层序框架中的第三个等时标志层。滇东地区梅树村剖面的Ni-Mo多元素富集层被重新校正在玉案山组底部(即13层,Ni、Mo含量分别为135×10-6和583×10-6)。Ni-Mo多元素地球化学标志层的典型特征为在剖面上具Ni、Mo等多种微量元素及贵金属元素的最高异常。该标志层的Re-Os年龄为537~542 Ma,可能代表的不是地层层序的年龄。 (4)初步建立华南下寒武统时间框架。约束了华南地区下寒武统Ni-Mo-PGE矿床的下限年龄应为518 ± 5 Ma。同时,该时间框架亦约束了滇东地区澄江生物群及最古老三叶虫的下限年龄(518 ± 5 Ma),考虑到石岩头组底部钾质斑脱岩的产出位置与玉案山组中部澄江生物群的产出层位存在相当的距离(大于80 m),因此,前人对澄江生物群的推测年龄(525~530 Ma)可能有些偏老。此外,初步约束了华南地区具全球对比意义的C同位素正漂移事件的年龄(538~518 Ma)。该时间框架是建立在两个相互支持的地层高精度锆石SHRIMP U-Pb年龄的基础之上,而国际前寒武系-寒武系界线年龄的最新研究成果为542 Ma,因此,它支持将华南地区的前寒武系-寒武系界线置于朱家菁组中谊村段中部钾质斑脱岩层(第5层)的下伏地层的方案。结合华南地区最新的地层古生物学研究成果(朱茂炎等,2001;Zhu et al., 2003),将这一界线置于朱家菁组中谊村段底界可作为一种合理的选择。
Resumo:
汞是一种有毒的人体非必需重金属元素,是一种全球性污染物。大气在全球汞生物地球化学循环中占极其重要的地位,20世纪80年代末和90年代初,在没有人为和自然汞污染源的北欧和北美偏远地区的大片湖泊中发现的鱼体高甲基汞负荷就是由人为排放的汞通过大气长距离迁移后的沉降造成的。我国被认为是全球汞排放最多的国家,大量的汞排放到大气中势必会造成不同形态大气汞浓度以及大气汞沉降通量的升高,然而就目前而言,国内关于长时间分辨率的大气汞分布规律及汞沉降通量的系统研究还比较缺乏。 2005年5月到2007年5月,采用高时间分辨率大气自动测汞仪、镀KCl石英扩散管和颗粒汞微型捕汞管对贡嘎山地区大气中的气态总汞(TGM)、活性气态汞(RGM)和颗粒汞(TPM)进行了为期2年的系统监测;同时,系统的采集分析了贡嘎山地区的大气降水、植物叶片和河流水体样品,对大气汞的干、湿沉降进行了研究,并初步探讨了贡嘎山地区汞的输入和输出。主要得到以下结论: (1) 贡嘎山大气本底站两年的大气气态总汞的几何平均浓度为3.94±1.16 ng m-3,显著高于欧洲和北美同类型地区的大气气态总汞浓度,但和亚洲一些同类型地区的监测结果较为一致;和国内城市等受人为污染区域的大气气态总汞浓度相比,贡嘎山的浓度明显偏低,但略高于长白山大气本底站的气态总汞年均浓度。以上说明,贡嘎山地区的监测结果基本上反映了亚洲特别是我国西南偏远地区的大气汞的含量水平,说明我国人为活动的汞排放,已经造成了一定程度的大气汞污染。 (2) 活性气态汞和颗粒汞表现出和气态总汞不一致的分布特征,贡嘎山地区的活性气态汞平均浓度为6.2±3.9 pg m-3,颗粒汞的平均浓度为30.7±32.1 pg m-3,分别占到大气总汞的0.2%和0.8%,和国外偏远地区的研究结果一致。而活性气态汞和颗粒汞较高的沉降速率和较短的大气迁移距离是导致活性气态汞和颗粒汞偏低的主要原因。 (3) 贡嘎山不同功能区(特别是取暖季节)的大气气态总汞浓度明显高于全球背景区的平均浓度,且具有显著的空间分布特征:城区(8.63~22.5 ng m-3)>乡镇(4.74 ng m-3)>村落(2.55~8.83 ng m-3)>区域参照点(1.65~3.57 ng m-3)。 (4) 西南地区较高的汞释放背景是贡嘎山地区大气气态总汞偏高的一个重要原因;另外,石棉地区的金属冶炼活动、城市等人口集中地区的汞释放是造成该地区大气气态总汞浓度升高的区域性污染源。 (5) 气态总汞和颗粒汞表现出冬季>秋季>春季>夏季的季节性分布规律,而活性气态汞的季节性分布规律为春季>秋季>夏季>冬季。影响气态总汞和颗粒汞季节性变化的因素有释放源强度、气象条件(特别是风向)、光化学反应和干沉降速率的季节性变化;而活性气态汞的季节性变化则可能与大气光化学反应速率以及湿沉降的季节性变化有关。 (6) 贡嘎山地区海拔1600和3000米空旷处的大气降水的湿沉降通量分别为9.1和26.1 μg m-2 yr-1,而森林地区的湿沉降通量可达57.0 μg m-2 yr-1;贡嘎山地区大气汞的干沉降通量51.9 μg m-2 yr-1,其中约15.9 μg m-2 yr-1(31 %)来自于植物落叶的沉降。 (7) 贡嘎山地区是大气汞的汇,仅泸定县的年均大气汞净沉降量就达142 kg yr-1,且绝大部分(>95%)进入了森林生态系统,而非森林地区的大气汞输入和输出则基本平衡。