新疆哈密磁海铁矿床中钴的地球化学及地质意义

新疆磁海铁矿是一个富硫、富钴的磁铁矿矿床。矿床中的钴,主要产于黄铁矿、磁黄铁矿等硫化物中,并有钴的独立矿物辉砷钴矿和斜方砷钴矿。磁铁矿矿石中含钴较高,个别富硫化物磁铁矿矿石中钴可达0.16%,达到综合利用价值。对磁海铁矿床中钴的产出特征、化学成分、赋存状态研究,结合铁和钴的元素地球化学性质,认为该矿床的成矿物质来源较深;铁和钴在岩浆-热液成矿过程中属于不同阶段的产物,钴趋于在热液晚期阶段富集。     

南华砷铊矿床雄黄标型特征

雄黄是云南省南华砷铊矿床中最主要工业矿物。它不仅与铊矿物共生，而且本身含有较高的铊，可高达（n×10～n×100）×10-6。砷铊矿床雄黄与砷矿床雄黄相比较在产出条件，微量元素、硫同位素和晶面间距等方面均有不同程度差别。前者富铊，低氯、高氟和硼，富轻硫同位素，相对贫稀土元素；后春富氯，低铊，高碘，富重硫同位素，相对贫碱土族元素。这些标型特征不仅有助于南华砷铊矿床进一步开发，而且有助于含雄黄的热液矿床，特别是As、Hg、Tl、Sb、Au等矿床的找矿勘探。     

兴仁滥木厂汞铊矿床矿石物质成份与铊的赋存状态初探

本文简要介绍了滥木厂汞铊矿床的区域地质背景和矿床地质特征，着重对矿床矿石的物质组成和铊的赋存状态进行了初步研究。铊在矿床中除形成红铊矿和少量其铊矿物外，大部份以类质同象、离子吸附状态分散存在于各种硫化物矿物中，特别是富砷的胶状黄铁矿是最主要的载铊矿物。矿床内有独立存在的富铊矿体和含矿体，通过实验室实验已获取了一粒绿豆大小的金属铊。这些均为开发利用贵州的铊资源提供了光明前景。     

我国硫化铜镍矿床中的金和银

本文叙述我国岩浆型硫化铜镍矿床中伴生金银含量、赋存状态和地质特征。铜镍矿石中一般Ag高于Au、Au和Ag主要呈独立矿物产出 ,形成自然元素。金属互化物、蹄化物和硫铋化物。共发现24种金和银的独立矿物。(?)(?)(?)金银矿物。矿物颗粒一般为15—60μm。一般来说,铜镍富矿石,特别富铜矿石的AuAg含量要比贫矿石高;晚期热液作用的铜镍矿床其AuAg含量要比单一熔离矿床高。硫化铜镍矿床是伴生金银矿床一种主要矿床类型     

都匀牛角塘大型独立镉矿床的地质地球化学特征

本文通过对都匀牛角塘大型独立镉矿床产出地质构造背景、矿体形状及其与围岩的关系、矿石结构构造和矿物组成、镉的赋存形式和其它元素的关系、包课体特征以及Ｓ、Ｐｂ、Ｃ和Ｏ同位素的研究,认为该矿床属于弱改造的层控矿床,在成矿过程中可能有生物和热水的参与。     

稀散元素Sc的矿床类型及找矿前景

Sc是一种典型的稀散元素,常类质同象进入镁铁质矿物中。自然界中罕见钪的富集体。Sc主要是从铝土矿、钛铁矿、磷块岩、黑钨矿、锡石等矿石中作为伴生元素加以回收。近几年,随着对复杂硅酸盐矿物Sc浸出试验的研究,Sc元素也可从富Sc的基性-超基性岩体(Sc2O350×10-6)中提取。主要富Sc矿物有单斜辉石、角闪石。云南二台坡岩体源区可能具有富Sc的特性,在岩浆结晶早期大量进入镁铁质硅酸盐矿物,形成钪的独立矿床(Sc2O3=66.08×10-6)。这类矿床在国内外还属首例,其发现扩大了独立钪矿床类型,对寻找新型钪矿具有重要的指导意义。     

富铟及贫铟矿床成矿流体中铟与锡铅锌的关系研究

富铟矿床几乎是锡石-硫化物矿床或富含Sn(Sn以硫盐类矿物存在或赋存于方铅矿等硫化物中)的CuP-b-Zn矿床。Sn的存在与否在某种程度上意味着In的富集与否。以富铟与贫铟矿床主成矿期石英中的流体包裹体为研究对象,分析了成矿流体中In、Sn、Pb和Zn的含量,结果显示,两类矿床成矿流体中Pb和Zn的含量处于同一水平,而富铟矿床成矿流体中In和Sn的含量远远高于贫铟矿床,二者相差1～2个数量级。这一方面说明富铟的成矿流体是形成富铟矿床的物质基础,另一方面说明Sn在In的迁移富集过程中起着重要作用。     

银多金属矿床中黝铜矿族银硫盐矿物的特征及其意义

在国内外几个不同成因类型的银多金属矿床内产出的黝铜矿族银硫盐矿物中,除朗达矿床见有砷黝铜矿和含银砷黝铜矿外,较普遍共同发育有黝铜矿、含银黝铜矿和银黝铜矿、而后两者是最主要或主要的工业银矿物之一。按国际矿物学协会新矿物及矿物命名委员会的矿物命名原则,黝铜矿族矿物所含的Ｆｅ、Ｚｎ、Ｈｇ、Ｃｄ、Ｍｎ等不可作为矿物种的命名元素。蔡家营矿床的含银黝铜矿和银黝铜矿以Ｆｅ、Ｚｎ含量近似而有别于其余矿床的富Ｆｅ贫     

铁和氯是美国爱达荷钴矿带层状 Cu-Co-Au 矿床的指示标志

爱达荷钴矿带的 Cu-Co-Au 矿床产在中元古代耶洛贾克特组(Yellowjacket F.)中,该组以含有独特的化学和矿物成分,包括高浓度 Fe(15—30wt%Fe_2O_3)、Cl(0.1—1.10wt%)和磁铁矿或黑云母(>50vol%)为特征。黑鸟(Black-bird)矿区的 Cu-Co-Au矿床是产在 Fe 硅酸盐相岩层中的层控矿床,该硅酸盐相岩层富含 Fe、黑云母和 Cl。下部岩石地层带含有磁铁矿和小型 Cu-Co-Au 矿床,其延伸大于40km。富铁岩层可能是与镁铁质火山作用和海底热泉有关的喷气岩单位,但对高 Cl 浓度的成因不清楚。认为富 Cl 的孔隙流体是由于存在超盐度液体包体、富 Cl 黑云母和方柱石(Scapolite)(相当富 Fe 黑     

斜长岩体中Fe-Ti-P矿床的特征与成因

岩体型斜长岩为由90%以上斜长石组成的岩浆岩,具变压结晶的特点,仅形成于元古宙(2.1～0.9Ga),常赋存有Fe-Ti-P矿床。Fe-Ti-P矿体既呈整合层状也呈透镜状和席状等不规则形式产出;矿石类型有块状和侵染状,前者矿石矿物含量>70%,后者矿石矿物含量为20%～70%;矿物组成上,不同矿床稍有差别:部分矿床的Fe-Ti氧化物以钛磁铁矿为主、钛铁矿次之,而其他矿床则以赤钛铁矿为主、磁铁矿次之。一些矿床磷灰石含量较高,出现仅由Fe-Ti氧化物和磷灰石组成的铁钛磷灰岩。研究表明,Fe-Ti-P矿床由富Fe、Ti的岩浆演化形成,其母岩浆是在深部岩浆房中大量结晶斜长石后的残余岩浆。部分学者认为不同矿石经正常的结晶分异作用并堆晶形成,但该机制很难解释呈不规则状产出的矿石;其他学者则认为不混熔作用对矿石的富集(尤其是脉状、席状的铁钛磷灰岩)有重要作用,但该机制缺乏岩相学和地球化学方面的证据。河北大庙Fe-Ti-P矿体呈透镜状、席状等不连续地分布于斜长岩中,矿体不发育明显岩浆分层,但仍出现不同矿石的相带。依据详细的岩相学、矿体中矿物含量和成分的变化规律以及全岩地球化学特征,我们判断大庙矿床中不同矿石为堆晶矿物和晶隙流体的混合产物,它们由铁闪长质岩浆经结晶分异和堆晶作用形成,与不混熔作用关系不大。矿体不规则状产出的特点可能与岩浆动力分异作用有关,并伴随有小范围的亚固相迁移。     

Tourmaline in Proterozoic Massive Sulfide Deposits from Rajasthan, India

We have analyzed the chemical composition and boron isotope composition of tourmaline from tourmalinites, granite and a quartz-tourmaline vein from the Deri ore zone and from a pegmatitic band in the Rampura-Agucha ore body. These two Proterozoic massive sulfide deposits occur in the Aravalli-Delhi orogenic belt, Rajasthan, northwest India. Tourmaline from stratiform tourmalinites closely associated with the massive sulfides in the Deri deposit have preserved their original chemical compositions despite regional and thermal metamorphism in the area. These tourmalines have low Fe/(Fe + Mg) ratios (0.19–0.30; mean 0.26) that suggest formation close to the sediment-sea water interface. The δ¹¹B values (−15.5 and −16.4‰) are compatible with boron derived from leaching of argillaceous sediments and/or felsic volcanics underlying the original massive sulfide deposit during its formation. Boron isotope compositions measured in tourmaline from a post-ore granite and quartz-tourmaline vein in the Deri deposit indicate that boron in these tourmalines was derived from the tourmalinites produced during ore formation. The boron isotope systematics of a coarse brown tourmaline crystal from a pegmatitic band on the hanging wall contact of the Rampura-Agucha deposit indicate that 45 ± 25% of the boron within the original tourmaline was lost during upper amphibolite facies regional metamorphism. Received: 3 April 1996 / Accepted: 11 April 1996     

Boron isotopic composition of tourmaline from massive sulfide deposits and tourmalinites

Boron isotope ratios (¹¹B/¹⁰B) have been measured on 60 tourmaline separates from over 40 massive sulfide deposits and tourmalinites from a variety of geologic and tectonic settings. The coverage of these localities is global (5 continents) and includes the giant ore bodies at Kidd Creek and Sullivan (Canada), Broken Hill (Australia), and Ducktown (USA). Overall, the tourmalines display a wide range in ¹¹B values from –22.8 to +18.3 Possible controls over the boron isotopic composition of the tourmalines include: 1) composition of the boron source, 2) regional metamorphism, 3) water/rock ratios, 4) seawater entrainment, 5) temperature of formation, and 6) secular variations in seawater ¹¹B. The most significant control appears to be the composition of the boron source, particularly the nature of footwall lithologies; variations in water/ rock ratios and seawater entrainment are of secondary importance. The boron isotope values seem especially sensitive to the presence of evaporites (marine and non-marine) and carbonates in source rocks to the massive sulfide deposits and tourmalinites.     

Tourmaline in the central Swedish ore district

More than 40 recently discovered tourmaline occurrences have been investigated in the Mid-Proterozoic Bergslagen ore district of central Sweden. Some are spatially associated with ores, others with zones of leaching, remobilization and migmatization. Among the tourmaline-bearing ore deposits are the Dammberg ZnPb-Fe sulphide deposit, the Sala Pb-Zn-Ag deposit, the Dalkarlsberg, Pershyttan and Håksberg Fe oxide deposits, the Leja Cu deposit, and the Zinkgruvan Zn-Pb-Ag deposit. Tourmaline has been recorded a) as tourmalinites and tourmaline-bearing chemical sediments; b) in tourmaline-bearing skarns; c) in tourmaline-quartz veins; d) as disseminations along the foliation in schists; e) in tourmaline pegmatites; f) in tourmalinized haloes in metavolcanites along tourmaline pegmatites; and g) in late joints. Tourmalinites, tourmaline-bearing chemical sediments and tourmaline-bearing skarns are spatially associated with sulphide and oxide mineralizations. The dravite components in these tourmalines are proportional to the size of Zn-Pb sulphide mineralizations. Tourmalines from quartz veins close to and within ore deposits contain high Zr and Cr contents. With increasing distance away from these deposits, the Zr and Cr contents fall significantly. Tourmalines from pegmatites have inherited a number of trace element enrichments through partial melting and assimilation of volcaniclastic sediments into granitic melts. Despite magmatic homogenization, Zn contents in these tourmalines reflect the proximity of Zn-Pb-sulphide deposits, decreasing away from them. Tourmalines from late joints with Zn contents above the 100 ppm level are also indicative for the proximity of Zn-Pb sulphide mineralizations. Thus, some trace elements in these tourmalines may represent suitable exploration tools.     

Textures and compositions of cobalt pentlandite and cobaltian mackinawite from the Madan-Kudan copper deposit,Khetri Copper Belt,Rajasthan, India

The Khetri Copper Belt (KCB), a part of the Proterozoic Delhi–Aravalli fold belt in western India, hosts several Cu deposits, which are known to contain considerable Au, Ag, Co and Ni. Although many Co-bearing phases have been reported from the KCB and adjacent areas, detailed textural and geochemical data are either unavailable or scant except for mackinawite. In this study, we describe the textures and compositions (determined by EPMA) of two very rare Co-rich phases, namely cobaltian mackinawite (containing up to 12.68 wt.% Co, 1.90 wt.% Ni and 2.52 wt.% Cu) and cobalt-pentlandite (containing up to 49.30 wt.% Co and 10.19 wt.% Ni), identified based on composition, from the Madan-Kudan deposit. To the best of our knowledge, neither cobalt-pentlandite nor such highly Co-rich mackinawite have previously been reported from this area. The common sulphide minerals viz. chalcopyrite, pyrrhotite and rare pyrite occur in chalcopyrite-pyrrhotite ± pyrite-magnetite-chlorite-blue amphibole (Cl-rich hastingsite-pargasite-sadanagaite) ± marialitic scapolite ± allanite ± uraninite veins in amphibole-bearing feldspathic quartzite and garnetiferous chlorite schist. Cobaltian mackinawite is invariably associated with chalcopyrite and occurs as exsolution and inclusion within chalcopyrite or outside, but at the contact of chalcopyrite. On the other hand, cobalt-pentlandite is invariably associated with pyrrhotite and shows similar textural relation with pyrrhotite as that of mackinawite with chalcopyrite. Mineralogically diverse undeformed sulphide veins comprising Cl-rich amphibole and locally Cl-rich marialitic scapolite suggests epigenetic hydrothermal mineralization involving Cl-rich saline fluid in the Madan-Kudan deposit. Transport of metals, derived from a mafic source rock with high intrinsic Ni:Co ratio, by Cl-rich fluid can suitably explain the high Co:Ni ratio of the studied ore minerals. Presence of such highly Co-rich phases and other circumstantial evidences, enumerated in this work, are consistent with variants of Fe oxide (–Cu–Au) (IOCG) style mineralization, at least for some stages of mineralization in the Madan-Kudan deposit.     

Sulfur, lead and helium isotopic compositions of sulfide minerals from the Dachang Sn-polymetallic ore district in South China: implication for ore genesis

Summary The Dachang Sn-polymetallic ore district is one of the largest tin producing districts in China. Its origin has long been in dispute between magmatic-hydrothermal replacement and submarine exhalative-hydrothermal origin. The Dachang ore district comprises several types of ore deposits, including the Lamo magmatogenic skarn deposit near a granite intrusion, the Changpo-Tongkeng bedded and vein-type sulfide deposit, and the Gaofeng massive sulfide deposit. Sulfide minerals from the Lamo skarn ores show δ³⁴S values in the range between −3 and +4‰ with a mean close to zero, suggesting a major magmatic sulfur source that likely was the intrusive Longxianggai granite. Sulfide minerals from the Gaofeng massive ores show higher δ³⁴S values between +5 and +12‰, whereas sulfide minerals from the Changpo-Tongkeng bedded ores display lighter δ³⁴S values between −7 and −0.2‰. The difference in the sulfur isotope ranges in the two deposits can be interpreted by different degrees of inorganic thermochemcial reduction of marine sulfate using a one-step batch separation fractionation model. Sulfur isotopic compositions from the vein-type ores at Changpo-Tongkeng vary widely from −8 to +4‰, but most of the data cluster around −2.9‰, which is close to that of bedded ores (−3.6‰). The sulfur in vein-type ores might be derived from bedded ores or it represents a mixture of magmatic- and sedimentary-derived sulfur. Pb isotopic compositions of sulfide minerals in the Dachang ore district reveal a difference between massive and bedded ores, with the massive ores displaying more radiogenic Pb isotope ratios. Correlations of ²⁰⁶Pb/²⁰⁴Pb and ²⁰⁷Pb/²⁰⁴Pb or ²⁰⁸Pb/²⁰⁴Pb for the massive and bedded ores are interpreted as two-component mixing of Pb leached from sedimentary host rocks and from deep-seated Precambrian basement rocks composed of metamorphosed volcano-sedimentary rocks. Pb isotopic compositions of sulfide minerals from vein-type ores overlap with those of bedded sulfides. Similar to the sulfur, the lead in vein-type ores might be derived from bedded ores. Skarn ores at Lamo show very limited variations in Pb isotopic compositions, which may reflect a major magmatic-hydrothermal lead source. Helium isotope data of fluid inclusions trapped in sulfides indicate that He in the massive and bedded ores has a different origin than He in fluorite of granite-related veins. The ³He/⁴He ratios of 1.2–2.9 Ra of fluid inclusions from sulfides at Gaofeng and Changpo-Tongkeng imply a contribution of mantle-derived fluids. Overall our data support a submarine exhalative-hydrothermal origin for the massive and bedded ore types at Dachang. Supplementary material to this paper is available in electronic form at Appendix available as electronic supplementary material     

Tourmalinites from the Eastern Sierras Pampeanas, Argentina

In the eastern Sierras Pampeanas, Central Argentina, tourmalinites and coticules are found in close association with stratabound scheelite deposits in metamorphic terranes. In Sierra Grande (Agua de Ramón and Ambul districts) and Sierra de Altautina, tourmalinites are associated with stratabound scheelite deposits related to orthoamphibolites. In the Pampa del Tamboreo area, tourmalinites are located in biotite schists stratigraphically related to acid to intermediate metavolcanic rocks and scheelite-bearing quartzites.The mineral chemistry and boron isotopic compositions of tourmalinite-hosted and vein-hosted tourmalines are investigated. Overall, the tourmalines belong to the dravite-schorl series and are generally aluminous; Fe/(Fe+Mg) ranges from 0.33 to 0.85, Al/(Al+Fe+Mg) from 0.66 to 0.76 and the amount of X-site vacancy (0.12–0.48) indicates significant foitite components. Their boron isotopic compositions (δ¹¹B) are from −24.0‰ to−15.0‰.Similar mineral chemistries and boron isotopic values for tourmaline in tourmalinites related to stratabound scheelite mineralisation and in tungsten-bearing quartz veins suggest a common source for the boron and probably the tungsten. The field, chemical and isotopic relationships are consistent with tungsten and boron in quartz-vein deposits being remobilised from stratabound scheelite and tourmalinite, dominantly by liquid-state transfer associated with regional shear zones. Tungsten and boron in the original sedimentary sequence (now meta-exhalites) are ascribed to volcanogenic exhalations.     

白云鄂博碳酸盐矿物的矿物化学成分标型特征

对白云鄂博地区不同产状的碳酸盐矿物进行了系统的电子探针分析,其结果表明白云鄂博ＲＥＥ－Ｎｂ－Ｆｅ矿床的赋矿白云岩中,无论是粗粒结构的,还是细粒结构的白云岩,其主要造岩矿物白云石或者铁白云石均具高锰（ＭｎＯ〉０．５ｗｔ％）和高锶（ＳｒＯ〉１．５ｗｔ％）的特征,与矿床北东方向０￣３．５ｋｍ范围内切割五台群花岗片麻岩－混合岩及白云鄂博群碎屑岩的火成碳酸岩岩墙中的碳酸盐矿物非常相似。它们完全不同于宽沟段裂以北典型沉积石灰岩厦白云质石灰岩中的方解石和白云(MnO<0.1wt％ ,SrO<0.1wt％ )。赋矿白云岩中自云石的锶和锰含量系统变他反映碳酸岩浆发生了分离结晶作用,其结果可以导致其余岩浆中REE高度富集．本文认为碳酸盐矿物的锶和锰含量可以作为识别其成囡的重要标型特征,其氧化物MnO>0.15wt％ 和Sr>0.15wt％为火成碳酸岩的标志。     

长江中下游成矿带铜多金属矿床中灰泥丘的发现及其意义——以武山和冬瓜山铜矿为例

通过对长江中下游成矿带中武山铜矿和冬瓜山铜矿层状矿体的详细研究,发现了大量具有层圈状构造、层纹状构造或不规则同心环状构造的矿石。在前人研究基础上,经光薄片鉴定、扫描电镜观察和碳氧同位素分析等,认为这类矿石在宏观构造上显示出类似于灰泥丘的孔洞系统,微观上又发现了细菌等微生物结构,判断其属于一种矿化的灰泥丘。资料显示,灰泥丘和热水喷流沉积成矿作用关系密切,灰泥丘可视为热水喷流沉积成矿的证据之一。本文所研究的两个矿床中灰泥丘构造矿石保存状况略有不同,冬瓜山铜矿灰泥丘构造矿石保留了大量显示原生热水喷流沉积成因的组构、并发现细菌等微生物结构,碳氧同位素组成也显示原始沉积特征;而武山铜矿灰泥丘构造矿石则显示出强烈受热液改造的矿石组构和碳氧同位素组成特征,暂未发现细菌等微生物结构。冬瓜山和武山铜矿灰泥丘构造矿石的发现,有力地佐证了长江中下游成矿带在海西期曾发生过热水喷流沉积成矿作用。     

Chemical composition of tourmaline from the Yunlong tin deposit, Yunnan, China: implications for ore genesis and mineral exploration

Summary ?The Yunlong tin deposit is located in the northern part of the Lancangjiang metamorphic zone of the Sanjiang Tethys orogen series in western Yunan province of China. It consists of vein-type cassiterite ores, which are mainly hosted in migmatites of Caledonian age. Abundant tourmaline is associated with the ores, quartz–tourmaline veins and barren migmatized gneiss and migmatites. A detailed electron microprobe study has been carried out to document the chemical compositions of tourmaline from this deposit. The results exhibit a systematic compositional change that might be used as tracer for ore genesis and in prospecting for tin mineralization. Tourmalines from the ore bodies are dravite with Fe/(Fe + Mg) ratios of 0.09 ∼ 0.31 and Ca/(Ca + Na) ratios of 0.03 ∼ 0.40. These tourmalines are also rich in chromium (up to 0.74 wt% Cr₂O₃) and tin (up to 0.42 wt% Sn). In contrast, tourmalines from the barren migmatites are mostly schorl with Fe/(Fe + Mg) ratios of 0.38 ∼ 0.94 and Ca/(Ca + Na) ratios of 0.00 ∼ 0.14. Tourmalines from quartz–tourmaline veins that occur between ore bodies and the migmatites show intermediate compositions, i.e., Fe/(Fe + Mg) = 0.09 ∼ 0.59, Ca/(Ca + Na) = 0.01 ∼ 0.22. It is suggested that the Mg-rich nature of the tourmaline can be used as an exploration tool in this region to target tin mineralization, because the tourmalines show increasing Mg contents and are more dravitic when approaching the ore bodies. It is likely that the formation of the Yunlong tin deposit was related to migmatitic-hydrothermal processes. The high Mg and Cr contents in tourmalines from the ore bodies were probably derived from the local meta-sedimentary and meta-volcanic rocks of the Precambian Chongshan Group rather than from the granites in the region. Received December 28, 2000; revised version accepted January 25, 2002     

辽宁古元古代地体中富电气石岩石的成因：蒸发岩硼源的证据

辽宁东部古元古界底部地层(南辽河群)中赋存着大型的硼酸盐矿床，含矿层位中广泛分布含电气石的变粒岩和电英岩。空间上这些含电气石的岩石与硼酸盐有着密切的联系，电气石可以作为区域硼矿找矿的标志。已有研究结果表明，该地区的硼酸盐矿床是变质蒸发岩成因。本研究对该区不同产状的电气石和硼酸盐的地质特征，全岩和矿物成分、硼同位素组成进行了分析。本区的电气石包括层状和脉状两大类，而电气石的富集与硼酸盐关系密切，电英岩往往分布在硼酸盐矿体的上盘。而矿体的下盘一般不产出富电气石的岩石。当长英质脉体穿过硼酸盐矿体时，脉体中往往会富集电气石。含电气石岩石的全岩地球化学分析表明，它们的REE及其他微量元素特征以及相关性关系与周围不含电气石的同类岩石十分相似，反映出一种成因上的联系。本区电气石主要属于镁电气石一铁电气石系列，靠近硼矿体的电气石比远离硼矿体的电气石更加富镁，有着更高的Mg／Fe比值。电气石和硼酸盐的硼同位素成分分析显示出二者在同位素组成上的相似性，前者比后者的δ^11B稍低，这可能是由于热液活动过程中同位素分馏的结果。电气石的硼同位素组成在空间上显示出变化规律：远离硼酸盐矿体的电气石的δ^11B值(-5．2‰- 3．6‰)比矿体附近的电气石低(平均 10．5‰)。以上空间和成分上的关系表明硼酸盐可能是形成电气石主要的硼来源，电气石是在热液过程中通过淋滤下伏含硼蒸发岩中的硼形成含硼热液，在与上覆沉积物交代过程中形成含电气石岩石。电气石的条带是热液顺层选择交代的结果。本区电气石与硼酸盐的关系表明，层状电气石可以通过含硼热液交代的方式形成。变质地体中的层状电气石岩石的出现可能与变质蒸发岩有关。这一认识对区域硼矿勘查工作和变质地体的沉积环境分析有借鉴意义。