赣南地热气体起源的同位素与地球化学证据

对取自赣南地区10个温泉的地热气体进行了气体化学成分及氦、碳、氖同位素组成的分析。该区地热气体可分为CO₂型和N₂型两种类型。CO₂型地热气体分布在赣南东南部地区,主要成分是CO₂,占总体积96.47%以上,二氧化碳气体的δ¹³C值为 -5.50‰～-3.49‰（PDB）,平均为 -4.66‰,为幔源无机成因,其氦同位素组成为1.36～2.27 R_a,具有明显的幔源成因特征,最高约有28.2%的氦源于地幔,其N₂-Ar-He关系研究表明,该型地热气体中的氮源于地幔-地壳-大气混合成因。研究揭示该区CO₂型地热气体属幔源无机成因气,是地幔脱气作用的产物。N₂型地热气体分布在赣南西部地区,N₂含量占91.04%以上,其中二氧化碳气体的δ¹³C值为 -23.7‰～-12.6‰,平均为 -17.82‰,为壳源有机成因,其氦同位素组成为0.06～0.13 R_a,具有明显的壳源放射性成因特征,³He/⁴He 与 ⁴He/²⁰Ne关系和He-Ar-N₂关系研究表明,N₂型温泉气主要来源于大气,并有壳源气体的贡献。     

赣南横径地区碳酸温泉CO2成因研究

本文在分析横径温泉区4个气样的气体组分、氦同位素以及CO2和CH4的碳同位素基础上,结合温泉区地质条件,研究了该区碳酸温泉中CO2的成因。研究结果表明:横径温泉区温泉气中CO2的含量很高(>96%),CO2气体中1δ3C较重(-5.53‰~-4.43‰),属于与深大断裂活动有关的深部幔源无机成因气;温泉气中CH4的含量很低(<1.86%),CH4气体中1δ3C较轻(-27.69‰~-59.31‰),其中39、和11号温泉气体中的CH4属于深部幔源无机CH4和源于地表生物成因CH4的混合,而2号温泉气体中的CH4属于深部幔源无机CH4。     

马鞍坪温泉气体成因地球化学研究

从赣中马鞍坪地区采集了 11个水样分析了温泉及冷泉的氢、氧同位素组成 ,得出温泉水起源于大气降水补给。在此基础上 ,对 4个温泉采集了气样 ,测定了气体组成的含量和氦同位素组成 ,以及二氧化碳的碳同位素 ,结果表明 :马鞍坪地区地热气体为二氧化碳型 ,温泉气的二氧化碳含量很高 ,占总体积的 97%以上 ,二氧化碳气体的δ1 3C值变化于 -4 18‰～ -7 0‰ ,平均为 -5 .63‰ ,为变质无机成因和幔源无机成因的混合物 ;其3He/4He比值变化于 (1.72± 0 .15 )×10 7～ (2 .5 5± 0 .19)× 10 - 7之间 ,R/Ra值均小于 1,属壳源成因     

窑街煤田碳酸盐与突出气体的同位素组成特征

为探讨窑街煤矿突出CO₂气的成因与来源,对煤田中方解石、菱铁矿和水中溶解HCO₃-及沉淀碳酸盐的碳、氧同位素组成进行测试研究,并对“5.24”突出点涌出气的13C_CO2值和3He/4He值进行了测定.结果表明,煤田中CO₂气的碳同位素组成发生了复杂的分馏效应而和各种可能母质的碳同位素组成难以进行简单的对比;突出点气体的3He/4e值表明其为典型的壳源气;煤田中烧变岩可能为突出气的气源.     

鄂尔多斯盆地苏里格庙与靖边天然气单体碳同位素特征及其成因

苏里格庙上古生界砂岩气藏天然气重烃含量高,干燥系数低,为湿气;靖边奥陶系风化壳气藏天然气重烃含量低,干燥系数高,属干气。苏里格庙天然气的正构烷烃碳同位素具有δ13 C₁<δ13 C₃ <δ13 C₂ <δ13 C4的规律,靖边天然气具有δ13 C₁<δ13 C₂ <δ13 C₃ 的规律。二者高碳数烷烃的同位素差别较大,尤其是苏里格庙的乙烷碳同位素比靖边平均重 3.6‰。根据天然气单体碳同位素及其含量变化,苏里格庙天然气属煤成气,靖边天然气属煤成气与油型气的混合气。苏里格庙和靖边天然气中均含少量CO₂ 气,其碳同位素表明苏里格庙除苏 5井为无机CO₂ 气外,均为有机CO₂ 气;靖边林 1、林 5井为无机CO₂ 气,陕参 1井为有机CO₂ 气。结合烷烃气和CO₂ 气,苏里格庙天然气可以分为含有机CO₂ 煤成气和含无机CO₂ 煤成气。碳同位素比值与Ro 关系分析认为,苏里格庙的天然气成熟度处于成熟到高成熟阶段,其相应气源岩的平均Ro 为 1.2 9%～ 1.39%,这一结果与该区二叠系煤岩的成熟度符合较好。     

吐鲁番-哈密盆地台北凹天然气的地球化学特征及其来源

本文在论述新疆维吾尔自治区东部吐鲁番-哈密盆地台北凹陷天然气地质与地球化学特征的基础上,讨论了天然气的来源,对采自吐哈盆地十余个天然气样进行了气体组分和碳、氢、氦同位素分析。天然气甲烷含量为60.85～84.40%,干湿指数（C₁/C+₂）为1.57～6.37,属湿气.甲烷碳氢同位素组成(δ13C₁、δD)分别为-43.0～-49.4‰和-220～-281‰.乙烷的δ13C₂-20.1～-34 0‰,δD:-259～-257‰。丙烷的δ13C₃-21.3～-26.7‰,δD:-114～-203‰。丁烷的δ13C₄-22.2～-28.2‰,δD:-93～-116‰。天然气中氦的同位素组成（He/He）为（3.17～7.01）×10.目前主要产层属侏罗系,天然气一般与轻质油同藏,侏罗系中于酪根类型主要为Ⅲ型,R。值为0.4～1.0%。地质地球化学资料表明台北凹陷天然气与来自侏罗系的轻质油可能不完全同源,相当一部分天然气也许来自古生界。天然气中的氦为地壳来源的氦。     

广东神灶海上温泉的流体地球化学特征及循环模式

广东神灶温泉出露于海水之中,揭示其流体循环机制对地热资源的可持续开发利用具有重要意义.通过采集神灶温泉区地热水、地热气体和海水样品,测试其流体地球化学组成及主要同位素组成,得到以下认识：神灶温泉水化学类型为Cl-Na·Ca型,主要由大气降水补给;水中盐分主要来自硅酸盐矿物溶解和现代海水混入,海水混入比例为29%～32%.利用化学温度计估算热储温度为130℃,地热水循环深度约4 km.地热气体以大气起源N₂为主要组分,CO₂、CH₄为壳内有机沉积物的热变质产物.此外,He同位素指示幔源组分占比不足5%,研究区大地热流值为67～69 mW/m².综上,神灶温泉区是以壳内放射性生热为主要热源的中温对流型地热系统.     

辽宁榛子沟铅锌矿床热液叠加成矿作用特征及成矿流体来源

榛子沟铅锌矿矿床是青城子矿田代表性矿床之一,矿体赋存于高家峪组和大石桥组之中,呈层状、似层状和脉状产出,受地层、岩浆和构造联合控制。矿床的形成经历了海底喷流、变质变形和热液叠加三期成矿作用,其中热液叠加成矿作用对脉状矿体的形成与层状矿体的局部热液改造起到了重要作用,可划分为Ⅰ黄铁矿-方铅矿-闪锌矿-石英和Ⅱ黄铁矿-方铅矿-石英-方解石两个阶段。流体包裹体和碳、氢、氧同位素研究表明:I阶段石英中发育气液两相和少量的富气相、CO₂三相流体包裹体,成矿流体属中高温、低盐度、低密度的CO₂-H₂O-NaCl体系热液,含H₂O、CO₂、CH₄和N₂,流体包裹体的δD_H2O-SMOW为-96.5‰和-95.4‰、δ¹⁸O_H2O-SMOW为-0.62‰和0.04‰、δ¹³C为-4.8‰和-4.4‰,具有大气降水与岩浆水混合流体的特点;Ⅱ阶段石英中主要发育气液两相包裹体,成矿流体属低温、低盐度和低密度的H₂O-NaCl体系热液,流体包裹体δD_H2O-SMOW为-88.4‰~-80.0‰、δ¹⁸O_H2O-SMOW为-7.93‰~-5.57‰,具有大气降水的特点,δ¹³C为-12.6‰~-7.9‰,具有岩浆水特点。综合分析表明,热液叠加成矿期成矿流体来源于岩浆水与大气降水的混合热液,且成矿后期大气降水的混入比例增加。     

松辽盆地庆深气田天然气成因类型鉴别

通过对松辽盆地徐家围子烃源岩和原油热模拟实验、烷烃气碳同位素组成分析, 认为在高演化阶段单一热力作用可以引起重烃气(δ13C₂ > δ13C₃ > δ13C₄) 碳同位素组成倒转, 但CH₄与C₂H₆(δ13C₁ > δ13C₂) 却很难发生倒转.庆深气田天然气重甲烷碳同位素组成、烷烃气碳同位素完全倒转、高稀有气体同位素组成(R/Ra > 1.0), 说明该气田天然气来源具有多样性.利用R/Ra与CO₂/3He和R/Ra与CH₄/3He关系对庆深气田天然气成因类型进行识别, 认为该气田烷烃气中甲烷有部分为无机成因, 重烃气则为有机成因.该地区高地温梯度导致有机成因重烃气碳同位素组成发生倒转, 而CH₄与C₂H₆碳同位素组成倒转主要与重碳同位素的无机甲烷混入有关.      

米泉低阶煤煤层气中CO2异常赋存特征与成因

对米泉矿区以往煤层气勘查成果统计发现,气体含量中CO₂浓度异常高,部分气样浓度甚至超过40%。通过系统开展气体组分、CH₄与CO₂碳同位素、稀有气体同位素等地化分析,发现该区CO₂浓度随埋深增大呈增高趋势。当埋深大于800 m时,CO₂浓度超过40%;CO₂具明显壳源成因特征,无幔源CO₂的混入。说明该区煤层气主要为CO₂还原途径形成的次生生物气体,少量样品具热成因气特征;CO₂异常富集可能是3个方面因素耦合作用的结果,即处于微生物产甲烷活动早期阶段、CO₂还原途径产甲烷活动受到抑制及滞留的水体环境。     

Geochemical Characteristics of Gases from the Wudalianchi Volcanic Area,Northeastern China

The origins of gases in springs, pools and wells from the Wudalianchi (WDLC) volcanic area are discussed based upon molecular and isotope compositions of the gases. Nine gas and water samples were collected from bubbles and water of the springs and pools in the WDLC volcanic area, Northeastern China, in August 1997. The molecular components were measured with a MAT-271 mass spectrometer (MS), helium isotope ratios with a VG-5400 MS, and (13C with a MAT-251 MS in the Lanzhou Institute of Geology. The gases are enriched in CO2 , and most of the CO2 concentrations are over 80% (V). The helium and methane concentrations have relatively wide ranges of 0.7 to 380×10-6 and 4 to 180×10-6, respectively. The 3He/4He ratios are between 1.05 Ra and 3.1 Ra (Ra = 1.4×10-6); the 4He/20Ne values are between 0.45 and 1011, larger than the atmospheric value (0.32). The (13C (PDB) values of carbon dioxide range from (9.6 to (4.2‰. These geochemical data demonstrate that the spring water is from aquifers at different depths, and that helium and carbon dioxide are derived from the mantle, and are contaminated by crust gases during deep fluid migration. Also, there are larger fluxes of deep-earth matter and energy in the WDLC volcanic area.     

Chemical and isotopic characteristics and origin of spring waters in the Lanping–Simao Basin,Yunnan, Southwestern China

The chemical and isotopic characteristics (oxygen, hydrogen, and strontium) of spring waters and isotopic compositions of helium (He) and neon (Ne) in gases escaping from spring waters in the Lanping–Simao Basin are studied. A total of twenty-one spring water samples (twelve hot springs, four cold springs, and five saline springs) and eleven gas samples were collected from the study area, including one spring and one gas sample from northern Laos. It is found that saline spring waters in the study area are of chloride type, cold spring waters are of carbonate type or sulfate type, and hot spring waters are of various types. High total dissolved solids levels in saline springs are significantly related to Upper Cretaceous–Paleocene salt-bearing strata. On the basis of hydrochemical geothermometry, the reservoir temperatures (T_r) for hot springs, cold springs, and saline springs are 65.5–144.1, 37.8–64.4, and 65.1–109.0 °C, respectively, and the circulation depths of saline springs are much larger than those of hot and cold springs. The oxygen and hydrogen isotopic compositions of springs in the Lanping–Simao Basin and northern Laos are primarily controlled by meteoric waters with obvious latitude and altitude effects, and are also influenced by δ¹⁸O exchange to some extent. Most Sr²⁺ in spring waters of the study area is derived from varied sources (carbonate, evaporite, and silicate mineral dissolution), and the Sr isotopic compositions are greatly influenced by volcanic rocks. Wide distribution of crust-derived He in the Lanping–Simao Basin and northern Laos reveal that faults in these areas may not descend to the upper mantle. It is concluded that water circulation in the study area may be limited above the upper mantle, while saline springs may originate from the Upper Cretaceous–Paleocene evaporites. Hydrochemical characteristics demonstrate affinities among the Lanping–Simao Basin, northern Laos, and Yanjing, eastern Tibet, while disaffinities are observed between these areas and Tengchong on the basis of the hydrochemical characteristics and noble gas isotopic compositions.     

Mantle-derived CO_2 in Hot Springs of the Rehai Geothermal Field,Tengchong,China

Gas concentrations and isotopic compositions of He and CO2 were determined on free gas samples from ten hot springs of the Rehai geothermal field, Tengchong, China. The results showed that hot-spring CO2 gas, together with He,was derived mainly from the mantle, indicating the accumulation of mantle-derived volatiles beneath the survey area. The δ^13C values of CO2, higher than those of the typical mantle-derived carbon and the isotopic composition of hot-spring-free CO2 in unequilibrium with dissolved CO2, are recognized only in the Rehai geothermal field, suggesting that there seems to be a still-degassing magmatic intrusion at depths, which provides mantle-derived volatiles to the hydrothermal system above. The accumulation of those volatiles has probably played an important role in triggering earthquakes in this region.In addition, the isotopic characteristics of He and C also indicate that the magmatic intrusion seems to have been derived from the MORB source, and could be contaminated by crustal materials during its upwelling through the continental crust.     

深部物质运动的气体地球化学特征

根据氦同位素地球化学资料讨论了中国东部和云南腾冲地区上地幔的脱气。尽管地球脱气作用主要发生在地球形成时的十亿年间，但是后期的脱气作用仍是影响大气圈演化的主要因素。在两种力学性质不同的构造带──中国东部大陆裂谷和位于欧亚板块与印度板块缝合带的腾冲火山区，采集了天然气样，并分析了气体组分和氦同位素组成，较高的３Ｈｅ／４Ｈｅ值和地质、地球物理资料表明天然气和温泉气中的氦相当一部分是来自上地幔。来自上地幔的氦和其他气体自第三纪以来不断在气藏中聚集或向大气中逃逸。伴有源于上地幔的岩浆活动的地幔脱气是深部物质运动的具体表现形式，它对新生代气候演变可能有直接影响。     

Helium and Argon Isotopic Composition of Cenozoic Alkali Basalts and Mantle-Derived Xenoliths from Kuandian, Liaoning Province, China

The noble gas isotopic composition and content data of 2 alkali basalts, 3 Iherzolite xenoliths and one clinopyroxene megacryst from the Kuandian region have confirmed the occurrence of a fractionation of noble gases during magmatism. Light noble gases such as He and Ne are high in mobility and appear to be incompatible as compared with heavy ones ( such as Kr and Xe). Therefore, light noble gases are abundant in volcanics, especially in the volcanics with bubbles; lherzolite xenoliths have relatively high heavy noble gases. The clinopyroxene megacryst has the lowest abundance of noble gases, probably due to its high P-T origin. Noble gas isotopic composition of the clinopyroxene megacryst reveals that the mantle source beneath the Kuandian area has an MORB-like reservoir with^3 He/^4He ratio of—10 Ra(Ra: atmospheric^3 He/^4He ratio) and^40 Ar/^36 Ar ratio of 345.6. The Iherzolite xenoliths possess moderate^3 He/^4He ratios of 2.59 -4.53 Ra, reflecting the loss of primary helium during rock deformation or metasomatism caused by enriched mantle fluids during the up-lifting. The alkali volcanics have very low^3 He/^4 He ratios(0.47—0.61 Ra),indicating a contribution of radiogenic^4 He, probably having resulted from crust contamination. Most of the samples have excess^21 Ne and^22 Ne as compared with atmospheric neon, but Kr and Xe isotopic compositions are indistinguishable from atmospheric values within uncertainties with only individual samples having excess^129Xe,^134Xeand^136 Xe.     

辽宁宽甸新生代火山岩和地幔包体的稀有气体同位素组成及其演化意义

通过对宽甸新生代碱性玄武岩、地幔包体及辉石巨晶的稀有气体同位素组成的分析，认为不同岩性稀有气体含量的差异反映了岩浆作用过程中轻、重稀有气体的分馏特性，较轻的稀有气体(He、Ne)比较重的稀有气体(Kr、xe)具有更高的活动性和不相容性；该地区上地幔源区具有典型的MORB型源区特征，以辉石巨晶为代表；地幔包体的^3He／^4He值较低，可能是地幔流体交代作用造成的；大陆碱性玄武岩具有与大洋玄武岩截然不同的He同位素组成，反映了大陆区地幔岩浆上升过程中受到了陆壳物质混染。地幔源区^40Ar／^36Ar值为350左右，二辉橄榄岩和碱性火山岩的^40Ar／^36Ar值比大气略高，可能有大气组分的混合。部分样品中有^21Ne、^22Ne、^129Xe、^134Xe和^136Xe相对于大气的过剩现象，是核成因造成的。     

腾冲火山区的现代幔源氦释放:构造和岩浆活动意义

深地震测深(DSS)和大地电磁测深(MT)都表明腾冲火山区现今仍存在壳内岩浆囊,但对其数量和空间分布还存在分歧并缺乏全貌性认识。MT探测认为腾冲火山区是一个软流圈上涌和岩石圈减薄区,但对这一减薄区的空间范围还缺乏充分的约束。通过对腾冲火山区及外围大范围温泉逸出气体的分析测试,我们共获得了75个温泉逸出气体的氦同位素³He/⁴He比值数据(部分为前人资料)。利用氦同位素示踪原理,我们研究了腾冲火山区幔源氦释放强度空间分布和时间变化特征,结果发现:腾冲火山区的幔源挥发份释放呈1带3区分布。以³He/⁴He≥1 Ra,幔源氦比例≥15%为界,腾冲火山区的幔源挥发份释放异常区呈整片分布,为一南北走向的条带,南北长100km,东西宽50km。在整片异常区的内部,腾冲火山区的幔源挥发份释放又有强度不同的3个区域:① 中部腾冲县城-热海一带,³He/⁴He比值达到5.5 Ra以上,幔源氦比例达到70%以上,释放强度最强。② 北部曲石一带,³He/⁴He比值达4.5 Ra以上,幔源氦比例达到50%以上,释放强度次之。③ 南部五合-蒲川-新华一带,³He/⁴He比值达2Ra以上,幔源氦比例达到25%以上,释放强度最弱;腾冲火山区幔源挥发份释放强度在不断升高,其中第3个释放区的³He/⁴He比值(Ra)升高速率比前两者明显要大。我们认为:腾冲火山区现今幔源挥发份释放强度的空间分布图象就是该地区软流圈上涌和岩石圈减薄区空间尺度和上涌强度的最直接反映,上涌区(减薄区)的大小大致为南北长100km,东西宽50km;腾冲火山区现今存在3个壳内岩浆囊。第1个岩浆囊位于腾冲县城-热海一带,第2个岩浆囊位于马站-曲石一带,第3个岩浆囊位于五合-龙江-团田-蒲川-新华一带;腾冲火山区3个岩浆囊都在不断受到幔源岩浆的持续补充;第1个岩浆囊集幔源挥发份释放、相对地热梯度、地壳形变和地震活动等异常于一身,活动性最强,是未来腾冲火山最可能喷发的地点,需重点监视。第2个岩浆囊的幔源挥发份释放强度也引人注目,需加强监测。第3个岩浆囊规模大,埋深较浅,幔源挥发份释放增加较快,需引起注意。     

运用H、O同位素分析石阡地区地热水来源

通过对贵州省石阡地区地热水、冷泉及河流的地热地质条件、水化学成分及氢氧同位素分析,对该地区的地热水、冷泉及河流的水化学特征、来源及石阡地区的补给模式进行了研究。温泉水属于低中矿化度的弱碱性水;温泉群中阳离子以Ca^2+、Mg^2+为主,阴离子以SO4^2-和HCO3^-为主,研究区水化学类型主要为HCO3-Ca和SO4.HCO3-Ca型。区域内地热水中δ18O值为-9.32‰~-6.81‰,δD为-64.4‰~-44.9‰;冷泉及河流中δ18O值为-7.51‰~-6.00‰,δD为-50.7‰~-38.2‰,均分布在我国大气降水线及当地大气降水线附近,表明该地区主要是大气降水成因。通过H、O同位素计算补给区温度,地热水补给高程,以及冷泉及河流补给高程,推测出补给区可能为袍木寨背斜一带及红石走滑断裂及其断裂束附近的碳酸盐岩裸露地区。氚盈余参数d表明石阡地区大多数地热水埋深较浅,循环径流时间较短,地质环境处于开放与半开放之间,水-岩反应作用相对较弱。     

Helium,Argon and Carbon Isotopic Compositions of Spring Gases in the Hainan Island,China

Chemical and isotopic compositions have been measured for N2-He-rich bubbling gases discharging from hot springs in the Hainan Island, Southern China. Observed 3He/4He ratios (0.1–1.3 RA) indicate the occurrence of a mantle component throughout the island, which has been highly diluted by a crustal radiogenic 4He component. The occurrence of mantle-derived helium is high in the northern island (12%–16% of total He) and gradually decreases towards southern coast (1%–3% of total He). Such a distribution pattern is most likely controlled by the Pleocene-Quaternary volcanic activities in the northern island and groundwater circulation along the deep major faults. The 40Ar/36Ar and N2/Ar ratios suggest that N2 and Ar of the hot spring gases are mostly meteoric. Although δ13C values of CO2 (–20‰ to –27‰) with low concentrations are consistent with the biogenic origin, the combination of 3He/4He and d13CCO2 suggests a two end-member mixing of mantle and crustal components with CO2/3He ratios of 2×109 and 8×1011, respectively. However, the low CO2/3He ratios (1–22×106) can not be ascribed in terms of the simple mixing but has to be explained by the addition of radiogenic 4He and loss of CO2 by calcite precipitation in the hydrothermal system, which is most likely controlled by the degree of gas-water-rock interaction.