北天山新生代构造演化与古环境演变

The Tianshan Mountains is located about 1000-2000 km north of the India-Asia suture and is the most outstanding topography in central Asia, with transmeridional length of nearly 2500 km, north-southern wideness of ~ 300-500 km, peaks exceeding 7000 m above sea level (asl.), and average altitude of over 4000 m asl. Much of the modern relief of the Tianshan Range is a result of contraction driven by the collision of the India subcontinent with the southern margin of Asia, which began in early Tertiary and continues today. Understanding where, when and how the deformation of the Tianshan Mountains occurred is essential to decipher the mechanism of intracontinental tectonics, the process of foreland basin evolution and mountain building, and the history of climate change in central Asia. In order to better constrain the Cenozoic building history of the Tianshan Mountains and the climate change in the southern margin of the Junggar Basin, we carried out multiple studies of magnetostratigraphy, sedimentology, and stable isotopes of paleosol carbonate at the Jingou River section, which is located at the Huoerguosi anticline, the westernest one of the second folds and thrust faults zone in the northern piedmont of the Tianshan Mountains. The Jingou River section with a thickness of about 4160 m is continuous in deposits according to the observed gradual change in sedimentary environments and can be divided into five formations: Anjihaihe, Shawan, Taxihe, Dushanzi and Xiyu in upward sequence. Characteristic remamences were isolated by progressive thermal demagnetization, generally between 300 and 680℃. A total of 1133 out of 1607 samples yielded well-defined ChRMs and were used to establish the magnetostratigraphic column of a 3270-m-thick section from the exposed base of the Anjihaihe Formation to the middle of the Xiyu Formation. Two vertebrate fossil sites and a good correlation with the CK95 geomagnetic polarity time scale suggest that the section was deposited from ~30.5 to ~4.6 Ma and the age of the top of the Xiyu formation is ~2.6 Ma based on an extrapolation of the sedimentation rates. A plot of magnetostratigraphic age vs. height at the Jingou River section shows that significant increases in sedimentation rates as well as notable changes in depositional environments occurred at ~26-22.5 Ma, ~13-11 Ma and ~7 Ma, which represent the initial uplift of the Tianshan Mountains and two subsequent rapid uplift events. In addition, changes in sedimentation rates display characteristic alternations between increases and decreases, which probably indicate that the uplift of the Tianshan Mountains was episodic. We discussed the history of C4 biomass and climatic conditions in the southern margin of the Junggur Basin using the stable carbon and oxygen isotope composition of paleosol carbonates from the Jingou River section during ~17.5-6.5 Ma. The δ13C values indicate that the proportion of C4 biomass was uniform and moderate (15-20 %) during the interval of ~17.5-6.5 Ma. We proposed three hypotheses for this pattern of C4 biomass: (1) counteraction of two opposed factors (global cooling since ~15 Ma and thereafter increased dry and seasonality in central Asia) controlling the growth of C4 grasses, (2) variability in abundance of C3 grasses relative to C3 trees and shrubs if vegetation had ever changed in ecosystems, and (3) the higher latitude of the studied region. The δ18O values show a stepwise negative trend since ~13 Ma which may be attributed to three factors: (1) the temperature decreasing gradually after the middle Miocene (~15 Ma), (2) the increasing contribution of the moistures carried by the polar air masses from the Arctic Ocean to precipitation, and (3) the gradual retreat westward and disappearance of the Paratethys Ocean. Among them, which one played a more important role will need further study of the paleoclimate in central Asia.

陆生蜗牛壳体同位素组成及其对生长季节的响应

Stable isotope compositions of land snail shells have a great potential as an indicator of paleoclimatic and paleoenvironmental changes. However, some key issues, such as the relationship of carbon isotope between snail food and local vegetation, and the uncertainty of the dominant factors about snail body fluid changes in oxygen isotope composition, remain less well known, strongly limiting shell isotopic application. In this study, we measure the stable isotope compositions on the shells of both live snails and fossils collected from the Chinese Loess Plateau and a loess sequence at Mangshan, Xingyang, respectively. Based on the analyses, the association of the stable isotope compositions of land snail shells with their growing seasons is investigated. In addition, the climatic and environmental significances of isotopic differences among several snail species are discussed. The main results and conclusions are presented as follows: 1. δ18O values for the shell lip samples of Bradybaena ravida redfieldi range from -6.79‰ to -1.92‰, and parallels to the monthly changes of local rain water δ18O, temperature and humidity. The compatibility of shell lip δ18O with monthly modeled shell δ18O indicates that the shell lip δ18O changes are mainly resulted from the 18O variations of rain-water. The shells of a land snail growing in spring could be enriched in 18O, and those growing in summer depleted in 18O. 2. Carbon isotope compositions of snail shells are controlled by their diet, which is affected by the relative proportion of C3 to C4. There are some differences in carbon isotopic compositions among different snail species, especially between P. orphana and V. tenera or P. aeoli. Shell δ13C for P. orphana is the most positive with an average of -5.88 ± 2.54 ‰. The C4 plant fraction of the food for “cold-aridiphilous” taxa, P. aeoli and V. tenera, is distinctly lower than that for “thermo-humidiphilous” taxa, P. orphana, indicating that summer is likely to be the main active season of P. orphana and spring of P. aeoli and V. tenera. Therefore, some discrepancy of carbon isotopic compositions among different species may be related to snail active season. 3. δ13C values among different species have a certain degree of positive correlation, which may be influenced by local vegetation ecosystem. δ13C value of the snail shells (especially P. orphana) shows an eastward increasing trend and consists with the variations of C4 plants biomass in Loess Plateau. The result shows that the carbon isotope in local vegetation ecosystem is one of the main factors influencing δ13C values of snail food. Therefore, both carbon isotopes of local vegetation ecosystem and snail active season contribute to the carbon isotopic differences among different snail species and in different areas. 4. δ13C values of living snail shells and soil organic matter have a positive correlation with each other, which further supports the view that carbon isotope in local vegetation ecosystem is one of the main factors influencing δ13C values of snail food. However, the range of δ13C values of snail food for various species in response to carbon isotope in local vegetation ecosystem is different. It is suggested that 13C enrichment of snail shells relative to local vegetation ecosystem has a potential to indicate snail active season and the degree of climate temperature and humidity. 5. There is a significant negative correlation between carbon and oxygen isotopic compositions of living snail shells in Loess Plateau. This result further supports that snail active season can be inferred based on the shell carbon and oxygen isotopic compositions. Moreover, there are some positive correlations between mean annual temperature and differences of shell δ13C values ( 13CV. tenera-P. orphana) and that of δ18O values ( 18OV. tenera-P. orphana) for P. orphana, a typical “thermo-humidiphilous” taxa, and V. tenera, a typical “cold-aridiphilous” taxa, respectively. It shows that  13CV. tenera-P. orphana and  18OV. tenera-P. orphana may have a potential to indicate mean annual temperature or the length of biological growing season. 6. Stable isotopes of land snail shell in the Mangshan loess sequence show that the shell δ18O value of “cold-aridiphilous” taxa V. tenera is more positive than “thermo-humidiphilous” taxa P. orphana and δ13C value of the former is more negative than the latter. In addition, the shell δ18O value of V. tenera varies significantly in different period. During the last glacial maximum, its δ18O value with an average of -7.89 ‰ is more negative than that (-5.88 ‰) from the last deglaciation to the early Holocene. This phenomenon indicates that its growing season during different period is significantly different. It tends to grow in summer in last glacial maximum. With climate warming, it prefers growing in spring with relatively low temperature. While the shell δ18O value of P. orphana varies in a little range, which shows that its activity season is shorter and mainly in summer. These results further support that the change of the snail growing season is one of the main factors of differences of carbon isotopic compositions among different snail species and varies with time. Furthermore, it is consistent that changes in magnetic susceptibility and trend of differences of shell δ18O values and δ13C values respectively between the two snail fossils. It is further testified that 13CV. tenera-P. orphana and  18OV. tenera-P. orphana may have a potential to indicate mean annual temperature or the length of biological growing season.

塔里木盆地塔北、塔中地区早古生代白云岩形成机理

In Tarim Basin, extensive carbonates of Lower Paleozoic occur, in which thick Cambrian and Lower Ordovician dolostones are widespread and show a potential perspective in hydrocarbon exploration. So they are viewed as an important target for exploration. Tarim Basin is a poly phase composite basin, which underwent multiphase tectonic modification and volcanic activities; these exerted significant influences on the basin-fills and basin fluid evolution, thereby the diagenetic history, particularly on the deep-buried Lower Paleozoic dolostones. Referring to the classification of dolomite texture proposed by Gregg & Sibley (1984) and Sibley & Gregg (1987). In view of crystal size, crystal shape, crystal surface and contact relation, eight genetic textures of dolomite crystals are identified, based on careful petrographic examinatoins. These textures include: 1) micritic dolomite; 2) relict mimetic dolomite; 3)finely crystalline, planar-e(s), floating dolomite; 4)finely crystalline, planar-e(s) dolomite; 5) finely-coarse crystalline, nonplanar-a dolomite; 6)coarse crystalline, nonplanar saddle dolomite; 7) finely-medium crystalline, planar-e(s) dolomite cement; 8) coarse crystalline, nonplanar saddle dolomite cement, in which the former six textures occurs as in matrix, the latter two in the cements. Detailed geochemistry analysis is carried out on the basis of genetic textures of dolomite and related minerals such as quartz and calcite. The result showed that the calcite has the highest average content in Sr, which can be sorted into two groups; micritic dolomite has the highest average content in Sr among all kinds of dolomites; the REE patterns of all kinds of dolomites is similar to those of marine limestone samples. Saddle dolomite cement has δ13C values from -2.44‰ to 1.27‰ PDB, and δ18O values from -13.01‰ to -5.12‰ PDB, which partially overlap with those of matrix dolomite (δ13C values from -2.83‰ to 2.01‰ PDB, δ18O values from -10.63‰ to -0.85‰ PDB). Saddle dolomite cement has 87Sr/86Sr ratios from 0.7086 to 0.7104, which totally overlap with those of matrix dolomite (0.7084 ~ 0.7116). Compared with saddle dolomite derived from other basins all over the world, the saddle dolomites of Tarim Basin have similar δ13C, δ18O and 87Sr/86Sr ratios values with those of matrix dolomite. This scenario reflects the unusual geological setting and special dolomitizing liquid of Tarim Basin. The values of δ18O, δ13C and 87Sr/86Sr ratios of calcite also can be sorted out two groups, which may been resulted from the one stage of extensive uplift of Tarim Basin from Mesozoic to Cenozoic. Fluid inclusion microthermometry data of the diagenetic mineral indicates that matrix dolomite has relatively low homogenization temperatures (Th) of 80～105oC and salinities of 12.3％ (wt% NaCl equivalent); saddle dolomite has highest Th values, which concentrate in 120～160oC and salinities of 13.5～23.7％ (wt% NaCl equivalent); quartz has relatively low Th of 135～155oC and salinities of 17.8～22.5％ (wt% NaCl equivalent); calcite has relatively low Th of 121～159.5oC and salinities of 1.4～17.5％ (wt% NaCl equivalent). These data suggest that the saddle dolomites could have formed in thermal brine fluids. Based on comprehensive petrographical study, detailed geochemistry and fluid inclusion microthermometry analysis on Lower Paleozoic dolomite of Tarim Basin, three types of dolomitisation mechanism are proposed: Penecontemporaneous dolomitisation (Sabkha dolomitisation & Reflux dolomitisation); Burial dolomitisation (shallow-intermediate burial dolomitisation & Deep burial dolomitisation ); Hydrothermal cannibalized dolomitisation. In view of host-specified occurrences of hydrothermal dolomite, the low abundance of saddle dolomite and high geochemical similarities between saddle dolomite and host dolomite, as well as highest Th and high salinities , the hydrothermal dolomite in Tarim Basin is thus unique, which could have been precipitated in modified fluid in the host dolomite through intraformational thermal fluid cannibalization of Mg ions from the host. This scenario is different from the cases that large scale dolomitizing fluid migration took place along the fluid pathways where abundant saddle dolomite precipitated. Detailed observations on 180 petrographic and 60 casting thin sections show original pores in Lower Paleozoic dolomite were almost died out by complicated diagenetic process after a long time geologic evolution. On the other hand, deep-buried dolomite reservoirs is formed by tectonic and hydrothermal reforming on initial dolomites. Therefore, the distribution of structure-controlled hydrothermal dolomite reservoirs is predicted in Tabei and Tazhong Area of Tarim Basin based on the geophysical data.

冰期间冰期转换过程中陆地碳库的演化规律研究

Terrestrial carbon pool mainly consists of three parts: the active carbon pool of the vegetation，soil carbon pools and the lithosphere carbon pool of less activity. Under natural conditions，vegetation carbon pools，soil carbon exchange with atmospheric carbon pool directly，the lithosphere participate in the global carbon cycle by weathering Our research have coverd the soil organic carbon density，plant biomass (carbon density)，plant net primary productivity of past 40 ka，and the magnetic susceptibility，grain size，weathering of silicate carbon consumption of past 140 ka. This study has achieved a number of conclusions as shown below. 1 Silicate weathering CO2 consumption in the long-term fluctuations with a similar deep-sea δ18O record，demonstate that it not only can be used as one of the instructions of terrestrial carbon pool，even can be used as indicators of global environmental change; silicate weathering CO2 consumption and susceptibility shown a clear relationship between lag or lead at different times，it maybe lies on how the climate change. 2 Soil carbon pools in line with the global climate on long-term，but the relationship between soil carbon density and climate change was not obvious in short-term change，generally lags behind the changes in other climatic proxies. 3 Carbon density of vegetation and other proxy indicators of climate have good consistency. In the study period，perform the cycle of glacial and interglacial completely，but because of the ancient vegetation of accurate information is difficult to obtain，it did not reflect rapid response to climate change. 4 Cooling events is conducive to soil organic carbon accumulation but not conducive to weathering and vegetation growth. High temperature environment is not conducive to the accumulation of soil organic carbon. 5 In the deglacial time from the last glacial maximum to the Holocene，weathering carbon consumption seems earlier than vegetation and soil organic carbon in the fluctuant increase.Does it imply that the effects of silicate weathering is an important factor to the global carbon cycle and global climate change? It is worth further research.

关中盆地东部浅层地下水水化学与CFC年龄研究

Hydrochemistry, isotope and CFCs were used to determine groundwater transport in the eastern part of the Guanzhong Basin. In this paper, we systematically collected water samples and measured major ions, 2H-18O and CFCs in surface water and shallow groundwater. Groundwater in this region can be divided into three categories based on total dissolved solids (TDS): fresh water with TDS < 1g/L, brackish water with TDS between 1～3g/L, and saline water with TDS > 3g/L. Saline water is mainly located in the north of the Wei River, and saline groundwater is not in the south. Tributaries in the south of the Wei River and underlain groundwater had similar 2H-18O values, indicating a close hydraulic connection between them. Tributaries in the north of the Wei River characterized certain extent of evaporation, and 2H-18O values deviated to a differing extent between surface water and groundwater, indicating that surface water in the north bank of the Wei River has little hydraulic connection with underlain groundwater. The CFCs age of groundwater from the piedmont recharge area was young, and became older toward the Wei River valley. Vertically, the CFCs age of groundwater increased with well depth. The shallow groundwater is mainly composed of young water with ages < 60 years and old water with ages > 60 years. Young water is in a larger proportion. The NO3-N concentration positively correlates with the CFC-12 concentration in the groundwater, which indicates that young water is subjected to be contaminated. Keyword: Guanzhong Basin , shallow groundwater, isotope, CFC

浑善达克沙地全新世气候变化与风沙活动—夏日淖湖泊沉积记录

Atmospheric dust as an important factor for climate feedbacks is mainly derived from and drove by the aeolian activities of the semi-arid regions in Asia. Therefore, reconstructing the history of aeolian activities in this region has a great significance in understanding the dynamics of past and future climate changes. This paper made a systematical sedimentology, geochemisty and high-resolution chronology analysis on the sediments from the Xiarinao Lake, which located in Hunshandake Desert, Inner Mongolia, and compared with the meteorological records for identifying the indicator of aeolian activities and climate changes. Based on above work, the evolution history of the aeolian activities and climate changes since 11,000 a BP was reconstructed and the dynamics of the aeolian activities and climate changes in the Hunshandake Desert was discussed. The indicator of aeolian activities was established through the comparison of the clastic and chemical records with the meteorological registers in recent 50 years: 1. The sediments of Xiarinao Lake are mainly derived from eaolian clastic materials and composed of two major components: one is the sand fraction (<4 ) similar to the composition of sand dunes, the other is the silt fraction (>4 ) similar to the atmospheric dust. The sand content and the median grain size, particularly the sand content, show a close association with the intensity of wind, indicating that the particle-size composition of the sediments reflect the variations of the aeolian activities. 2. The proportion of soluble salts relative to the total carbonates in the sediments was correlated to the arid degree registered in meteorological records, suggesting that arid degree might be associated with changes of wind speed and the relative proportion of soluble salts to the total carbonate could be used as the indicator of aridity. 3. The δ18O of authigenic calcite in the Xiarinao Lake show a well correlation with both the atmosphere precipitation and variation of the moisture indicated by the concentrations of soluble salts, suggesting that δ18O of anthigenic calcite is a reliable indicator of humidity. Based on above studies, the evolution history of the aeolian activities and climate changes since 11,000 a BP was reconstructed. At the same time, their association and underlying dynamics was discussed: 1. The evolution history of the eaolian activity was reconstructed by the sand content and median grain size. The result showed that aeolian activities had experienced several different climate periods in the Holocene: the aeolian activities fluctuated with a 500-year cycles during the interval from 10,900 to 8200 a BP; no significant aeolian activities had been developed from 8200 to 6300 a BP; during the interval of 6300 to 2600 a BP, sand content and media grain size had increased gradually, the sand content increased from about 5% to 25%, indicating the intensity of aeolian activity increased in the Hunshandake Desert; since 2600 a BP, intensity of aeolian activity has become stronger and activated the sand dunes. 2. The relative arid degree indicated by the proportion of soluble salts relative to the total carbonate show that both the wind speed and dry degree had being increased since 11,000 a BP. During the interval of 10900 to 6300 a BP, no detectable soluble salt was found in the sediments, indicating the humidity condition; the proportion increased to 20% from 6300 to 4200 a BP, showing the climate became drier; the little change of proportion (20%) suggest that the climate was relative stable during the interval of 4200 to 2600 a BP; after 2600 a BP, the proportion increased, showing the climate became further dry. 3. The δ18O evolution of the lake water was established through analysis of authigenetic calcite δ18O for revealing the variations of relative effective humidity in the Hunshandake Desert. δ18O maintained around -6 ‰ during the interval of 10900 to 8200 a BP, showing the climate was a little dry relative to that of the whole Holocnene; in the period of 8200 to 6300 a BP, δ18O had the most negative values, indicating that it was the most humid interval in Holocene; from 6300 to 4200 a BP, δ18O increased from about -7.5 ‰ to about -3 ‰ gradually, suggesting increased aridity; since 4200 a BP, the climate has become stable and dry. On the whole, the records in this study show that the variation of the relative humidity and aridity is consistent with that of summer monsoon in the Hunshandake Desert. The relationships among the grain size, soluble salts relative content, and the authigenic calcite δ18O indicate aeolian activities is controlled by the aridity in the studied area, and the increased aeolian activities is closely associated with the temperature changes under the relative dry condition. The high wind speed under the low temperature leads to the increased aeolian activity, and the temperature change associated with the aeolian activities might be related with the perturbations of the Siberian High Pressure.

贵阳地下水硝酸盐氧同位素特征及应用

利用硝酸盐氮氧同位素讨论地下水硝酸盐来源和转化是地下水硝酸盐研究的热点之一。本研究利用燃烧管法测试了贵阳地下水、部分地表水, 以及雨水中硝酸盐氧同位素, 结果表明地下水中硝酸盐D18O 冬季平均值为+ 12. 6‰±5. 6 (n= 17) , 夏季为+ 11. 1‰±4. 8 (n= 22)。结合氮同位素揭示了贵阳市地下水硝酸盐污染来源的季节性转化, 郊区地下水夏季主要受硝态氮肥等影响, 而市区地下水受人为排污影响严重。

贵阳雨水无机氮沉降的氮、氧同位素特征

雨水中氮沉降主要以铵盐(NH+4)和硝酸盐(NO-3)形式存在,这与地表生态氮循环和酸雨等环境问题直接相连.我们测定了贵阳地区雨水中的NH+4和NO-3的氮氧同位素值,讨论了氮素形态分布及其同位素组成特征,探讨了雨水中溶解无机氮的成因.雨水中的NH+4和NO-3平均值分别为0.81和o.51mg N/L;铵盐的δ15N平均值为-4.7‰,较硝酸盐的δ15N平均值负,雨水中硝酸盐δ18O值为25.2‰～40.1‰,平均值为34.2±4.3‰,季节性差别不显著.

中国典型泥炭区现代植物的碳、氧同位素组成及在古环境研究中的意义

本文测定了中国3个典型泥炭沼泽四川红原、吉林金川和哈尼的现代沼泽植物中的碳、氧同位素组成。吉林金川和哈尼的沼泽在相似的气候和环境条件下发育演化，而四川红原的泥炭发育在截然不同的气候条件下。结果表明，每个泥炭沼泽现代植物中的碳、氧同位素均有较大的离散度，表现为不同营养状况下的成沼植物之间的同位素差异；从δ13C值来看，三个沼泽中的植物均属C3植物；红原与金川、哈尼有着明显不同的现代植物稳定氧同位素组成，前者更富集18O。同一泥炭植物碳、氧同位素的不均一性要求在利用泥炭沉积物恢复过去气候变化方面一定要谨慎。非常有意义的是贫营养泥炭(高位泥炭)的成沼植物有着非常接近的同位素组成，揭示贫营养型泥炭可能是更为理想的过去全球变化信息档案。

程海沉积物无机碳、氧同位素相关性及其环境意义

程海是位于云南省西北部的一个较为特殊的湖泊，其矿化度已接近盐湖下限。湖泊沉积物无机碳、氧同位素组成敏感地记录了流域内环境变化的信息，其相关性有效地揭示了湖泊的封闭条件。组成的变化受到温度高低、降水大小、光合作用强弱、碳酸盐体系溶解平衡及水文条件等因素的控制。通过对该湖沉积物无机碳酸盐碳、氧同位素组成的研究，追溯了该流域内自采样深度以来的数十年内的环境变化情况，研究表明：程海流域气候变化有呈现出11-12a的小周期变化的趋势，但是在孔柱底部的信号噪声较大；沉积物碳酸盐δ^13Cδ^18O的良好相关性指示了程海近几十年内的水文封闭条件；并将碳、氧同位素这一环境敏感指标推广到了高矿化度的“准”咸湖的环境中。

中旬红山矽卡岩铜矿稳定同位素特征及其对成矿过程的指示

红山铜矿床位于三江地区义敦岛弧南端的中甸弧，是在晚三叠世甘孜-理塘洋盆向西俯冲过程中形成的一个中型规模的矽卡岩矿床。通常，矽卡岩体就是铜矿体或铜矿化体，主要呈似层状、层状、脉状及透镜体状产于大理岩与角岩接触带或局部在角岩中，未见其与侵入岩直接接触。通过对不同成矿阶段所形成的石榴石、磁铁矿、磁黄铁矿、黄铁矿、黄铜矿、方解石等典型矿物以及大理岩的稳定同位素特征研究，发现矽卡岩的最主要组成矿物石榴石的δ^18OSMOW范围为6．2—8．3‰，反映了矽卡岩可能直接继承隐伏斑岩体的氧同位素组成。根据磁铁矿的氧同位素组成（5．5—7．1‰）所计算的磁铁矿化阶段成矿流体的δ^18OSMOW为13．1—14．7‰（400℃）或12．5—14．1％。（500℃），暗示有富集δ^18O的CO2溶入到成矿流体中。硫化物的δ^34SCDT范围4．45—6．20‰，说明矿床具有高度均一的硫源，并且在硫化物的结晶沉淀过程中，流体中硫同位素分馏很弱。由此推测主成矿期成矿流体的δ^34S∑S为5．6±0．6‰。矿床中的大理岩的δ^13CPDB为2．0—2．2‰，δ^18OSMOW为24．0—24．8‰，说明大理岩是由海相碳酸盐岩经重结晶作用而成。成矿晚期阶段形成的方解石脉的δ^13CPDB范围是-2．4—1．7‰，δ^18OSMOW范围是16．3—22．4‰，表明其C和O主要来源于大理岩。总之，我们推测红山矽卡岩很可能主要是由中酸性岩浆浅成侵位时局部同化碳酸盐围岩所形成的一种富含钙质成分的次生岩浆就位于碎屑岩与碳酸盐岩之间的构造薄弱带冷凝固结而成，矽卡岩型矿化与深部斑岩型矿化具有共同的成矿物质和成矿流体来源。

云南大红山层状铜矿床成矿流体研究

云南大红山层状铜矿是大红山铁铜矿床的一部分。其成矿主要分为两个阶段：早期火山喷流作用形成了层状铜矿矿胚。而后期热液对原先的矿胚进行了改造和富集。本文选取大红山层状铜矿中石英脉型铜矿石石英样品系统地进行了流体包裹体的研究，主要发现了富液相（L＋V）、舍子晶多相（L＋S±V）和纯CO2三类主要包裹体。显微测温结果表明，其均一温度在103-456℃之间；盐度范围为0．53％～59．76％NaCl equiv．，密度为0．80～1．45g/cm^3；纯CO2包裹体均一温度为-34．3-20．8℃，对应密度为0．77-1．09g／cm^3。稳定同位素测定结果表明，硫化物δ^34S分布范围为-0．6‰～＋10．9‰，表明岩浆硫和海水硫酸盐还原成因硫参与了早期成矿过程。方解石δ^13 CPDB值范围为-5．6‰～-3．1‰，与地幔碳同位素值（-5．0±2‰）完全吻合，暗示了热液中碳质有地幔来源。根据氧同位素方解石-水及石英-水之间的分馏方程，计算得到成矿流体中水的δ^18 OSMOW值在-1．9‰-13．7‰之间，与火成岩δ^18O范围（5‰～15‰）基本一致。根据矿体地质特征、岩相学、流体包裹体以及稳定同位素等方面的综合研究，本文认为在喷流沉积之后的挤压环境下，从地幔分异出来的高温、中-高盐度并富含CO2的流体和海水一起改造了原岩，形成了变质火山-沉积岩，并使原先的铜矿矿胚活化富集.

云南会泽铅锌矿田成矿物质来源：Pb、S、C、H、O、Sr同位素制约

云南会泽铅锌矿田是我国著名的超大型特富铅锌矿田之一，由相距3公里的矿山厂和麒麟厂两个独立的矿床组成，Zn＋Pb金属量超过五百万吨，矿石品位在25%至35%之间。为确定矿床成矿流体和成矿金属来源，本文系统研究了矿床的Ph、S、C、O、H和Sr同位素组成特征。矿石硫化物的铅N位素组成均一，^206Pb／^204Pb，^207Pb／^204Pb和。^206Pb／^204Pb的变化范围分别为18．251～18．530，15．663～15．855和38.487～39．433，与围岩碳酸盐岩中浸染状黄铁矿一致，与碳酸盐地层相近，在^208Pb／^204Pb-^206Pb／^204Pb图上显示明显的线性关系，表明铅N位素组成相近的碳酸盐围岩地层提供了成矿物质。矿石硫化物的δ^14S变化范围为10．9‰～17．4‰，多数集中于13‰～17‰，表明还原硫主要来自地层中海相硫酸盐的还原，还原方式为热化学还原，下伏页岩、碎屑岩和泥质岩中的有机质在硫酸盐还原过程中发挥了重要作用。三种不同产状的脉石矿物方解石的碳氧同位素组成均一且没有明显差别，δ^13C变化范围为-2．1‰～-3．5‰, δ^18O为16.8‰～18．6‰。脉石矿物方解石中流体包裹体水的δDFI为-50‰～-60‰，取温度为200℃计算包裹体水的δ^18OH2O值为7．0‰～8.8‰。碳、氧和氢、氧同位素研究结果表明，成矿流体为来自下部上升的变质流体，由于下伏页岩、碎屑岩和泥质岩中有机质的参与，成矿流体具有低的δ^13C和δ^13DFI值，在上升过程中与围岩发生了同位素交换。矿石中黄铁矿、闪锌矿和方解石的初始锶同位素组成（^87Sr／^86Sr）．值的变化范围为0．714～0．717，赋矿围岩中未蚀变白云岩的初始锶同位素组成（^87Sr／^86Sr）．值为0.7083～0．7093，明显低于蚀变白云岩（0．7106），表明成矿流体具有高的（^87Sr／^86Sr），比值。相对围岩碳酸盐岩而言，下伏地层中的页岩、碎屑岩和泥质岩往往具有高得多的^87Sr／^86Sr，因此，流经或者起源于这些地层的流体具有高的锶同位素比值.

会泽铅锌矿床成矿流体浓缩机制

云南会泽铅锌矿床位于扬子板块西缘川-黔-滇铅锌银多金属成矿域的中南部，严格受断裂带的控制．长期以来，对于该矿的成矿流体来源存在着较大的争论．研究表明，矿石中脉石矿物方解石的C、O同位素组成相对均一，其δ^13C(PDB)为-2．1×10^-3～-3．5×10^-3极差-1．4×10^-3、均值-2．8×10^-3，δ^18O(SMOW)为16．7×10^-3～18．6×10^-3、极差1．9×10^-3、均值17．7×10^-3，不同矿体(不同标高)、不同产状以及相同矿体不同产状方解石的C、O同位素组成不具明显差别；除了纯液相包裹体(L)和富液相的气液两相包裹体(L+V)外，还存在含子晶的三相包裹体(S+L+V)和不混溶的CO2三相包裹体(VCO2+LCO2+LH2O)，流体包裹体均一温度介于110～400℃之间，具有双峰现象；矿床的(^87Sr／^86Sr)0(0．713676-0．717012)不仅明显高于地幔(0．704±0．002)和峨嵋山玄武岩(0．703932～0．707818；85件样品)的(^87Sr／^86Sr)0，也相对高于矿区赋矿地层(C16)的(^87Sr／^86Sr)。(0．70868～0．70931；3件样品)，但明显低于基底岩石的(^87sr／^86Sr)。(0．7243～0．7288；5件样品)，且成矿过程中流体基本没有发生Sr同位素分馏现象．因此，成矿流体为均一流体，是不同性质流体的混合产物，具有多源性．而从气液两相包裹体盐度-均一温度图解可以看出，在300-400℃区间，包裹体盐度基本被孤立为两群：一群为5％～6％(w(NaCl))，另一群为12％～16％(w(NaCl))．而在100300℃特别是150-250℃区间，包裹体盐度则基本均匀分布在7％～23％(w(NaCl))之间．断裂带形成压力为(50～320)×10^5Pa，矿体上覆岩石压力为(574-640)×10%5Pa，矿床成矿压力为(145-754)×10^5Pa．流体在上升到断裂带后压力的剧降，导致了沸腾作用的发生．在混合作用和沸腾作用的双重影响下，受狭窄断裂带控制的成矿流体高度浓缩，金属矿物得以大规模地从流体中沉淀出来，形成品位极高的铅锌矿石．

湖南柿竹园矿田柴山铅锌矿床的C、O同位素组成及其研究意义

研究了柿竹园矿田柴山铅锌矿床早、晚期方解石的C、O同位素组成，并对C、O同位素组成之间明显的正相关关系进行了CO2去气、流体混合与水．岩反应的理论模拟。结果表明，该矿床方解石的形成主要是由成矿流体与围岩发生水-岩反应及温度降低造成的，另外大气降水的加入也起到一定的作用。成矿流体中的可溶性碳以H2CO3为主，早期成矿流体的δ^13C、δ^18O值分别为-2．5‰＋4‰，晚期成矿流体的δ^13C、δ^18O值分别为-1‰和＋6‰，并且在成矿过程中一直有中生代大气降水的加入。