华北克拉通北部14亿年前古风化壳的地球化学特征及古气候意义

最近在河北涞水紫石口剖面的中元古界铁岭组-下马岭组界线(~1400 Ma)附近,发现了一套保存完好的碳酸盐岩古风化壳。野外观测和岩石矿物学研究显示,该古风化壳的岩性以含褐铁矿的铁质泥岩和伊利石粘土岩为主。相对上地壳平均化学组分来说,古风化壳的主量元素氧化物中Al₂O₃、TiO₂、Fe₂O₃和K₂O富集,SiO₂轻微亏损,CaO、MgO和Na₂O强烈亏损;微量元素中Sc、Cu、Ga、Zr、Hf、Nb、Ta、In、Th、Li、V、Zn、Rb、Cs、W、Pb、U、Mo和Bi等化学性质稳定或易吸附于粘土中的元素含量接近上地壳平均化学组分值或呈不同程度富集,易溶元素Cr、Sr和Cd相对亏损;稀土元素全部富集,轻稀土元素与重稀土元素分异程度大,Ce正异常,Eu负异常。U/Th、Fe³⁺/Fe²⁺、Ce的正异常、化学蚀变指数与风化淋滤指数等多种指标都指示该古风化壳是在强氧化的中等到强烈的风化淋滤程度条件下形成。上述研究表明,在中元古代盖层纪(Calymmian Period,1600~1400 Ma)与延展纪(Ectasian Period,1400~1200 Ma)之交,剖面所在的华北克拉通北部应属于温暖湿润的热带-亚热带气候。     

华北房山景儿峪组顶部古风化壳常量元素地球化学特征及其古气候意义

风化壳的元素地球化学组成可以反映风化壳的发育类型及其气候特征,地史时期形成的古风化壳的元素地球化学组成可以揭示古风化壳的类型及其古气候特征.华北地区新元古代晚期（景儿峪组）至寒武纪（府君山组）期间的地层记录缺乏连续性,广泛发育一套典型的古风化壳,该古风化壳的发育过程可能记录了晚新元古代至早寒武纪期间的古气候特点.针对华北房山地区景儿峪组顶部保存的古风化壳中常量元素的组成、元素迁移富集特征和风化系数等分布规律开展了较系统分析,结果表明:（1）SiO₂、Al₂O₃、TFe₂O₃、CaO是景儿峪组顶部古风化壳的主要组分,Al₂O₃、TFe₂O₃、TiO₂、K₂O在风化壳的中上部相对富集,SiO₂则轻微亏损,CaO、Na₂O、MgO、P₂O₅被迁移淋失;（2）硅铝系数、硅铝铁系数、化学蚀变指数（CIA）、残积系数、风化淋溶系数（BA）等地球化学指标的垂向变化特征指示该古风化壳形成于温暖湿润条件下中等强度的化学风化作用,其风化过程可能经历了由较弱至较强再逐渐减弱的演变过程;（3）与现代发育于湖南、贵州、云南等地碳酸盐岩类基岩之上的风化壳元素地球化学特征对比,发现景儿峪组顶部古风化壳的Si淋失度和Fe、Al富集度均较低.综合研究区古风化壳的常量元素地球化学特征,同时结合新元古代晚期至寒武纪的华北板块古纬度迁移特征,认为房山地区景儿峪组顶部发育的古风化壳形成于温暖湿润的亚热带-热带气候,为脱硅富铝化程度较低的硅铝粘土型风化壳.      

滇中盆地南缘富锂黏土岩地球化学特征及沉积环境初探

沉积岩中的微量元素对沉积环境变化有较高的敏感度,是研究古沉积环境的有效手段。滇中盆地倒石头组是一套富锂的黏土岩地层,其古环境的研究对恢复该时期盆地沉积格局和锂元素富集具有重要意义。基于滇中盆地倒石头组两个典型钻孔样品详细的地球化学研究,探讨了倒石头组富锂黏土岩形成时的沉积环境及其对锂元素富集的影响。研究结果表明:所有样品Sr、Ga元素含量及Sr/Ba值指示研究区古水体介质为淡水陆相沉积环境;其δU值介于0.51～1.63,U/Th值介于0.11～1.49,V/(V+Ni)值介于0.48～0.86,V/Cr值介于0.45～1.24,同时在U₍(EF))-Mo₍(EF))协变模式图中,样品数据均未落在缺氧和硫化区域,表明研究区富锂黏土岩的沉积环境为氧化—弱还原环境;且样品Sr/Cu比值介于0.69～4.87,CIA值介于86.3～99.66,XRD全岩黏土矿物分析显示高岭石为主要的黏土矿物,表明富锂黏土岩在形成过程中处于温暖潮湿的沉积环境并伴随较为强烈的化学风化作用。     

太平洋CC区西部沉积物地球化学特征及其成因

对太平洋CC区西部7根沉积物短柱样的常微量元素进行浓度测试,以了解沉积物元素时空分布特征及其来源和控制因素。与上地壳元素平均值（UCC）相比,研究区沉积物中MnO、P₂O₅、Co、Ni、Cu、Mo、Ba明显富集,Al₂O₃、K₂O、Fe₂O₃、CaO、Sr等亏损。聚类和因子分析表明研究区沉积物元素有4种来源,其中Al₂O₃、Fe₂O₃、K₂O、MgO、TiO₂、V、Cr、Co、Rb、Zr、Nb、Cs、Hf、Ta、Pb、Th、U为陆源黏土成因;CaO和Sr为钙质生物成因;MnO、P₂O₅、B、Ni、Cu、Zn、Mo、Ba为海水自生成因;Na₂O为火山—热液成因。10.2° N以北沉积物元素为陆源黏土、海水自生和钙质生物成因,而10.2° N以南沉积物元素为陆源黏土、海水自生和火山—热液成因。沉积物中陆源物质主要来自亚洲高空气流携带的风尘物质。沉积物中海水自生成因的金属元素富集,与富氧的南极底流有关。柱样中CaO、Sr含量的时空变化,与柱样所处水深、冰期生产力和碳酸钙补偿深度变化有关。柱样中Ba/Ti指示的火山—热液活动在地质时期呈减弱的趋势,其对沉积物的影响也向北减弱。     

冀北蓟县系铁岭组古风化壳稀土元素富集规律及古环境意义

冀北地区蓟县系铁岭组顶部普遍发育一套古风化壳,该层位轻稀土元素和Rb均出现显著的富集现象。为了进一步探讨风化过程中元素的迁移规律以及古环境特征,文章对该套古风化壳开展了详细的地球化学研究。结果表明,古风化壳中轻稀土元素、Rb和Ti等含量自下而上表现为“先升高,后降低”的分布规律,且随着风化层中黏土物质的增加而升高,在中上部黏土岩中达到富集的峰值,推测与黏土矿物的吸附作用相关;古风化壳δCe正异常、δEu明显的负异常等特征指示轻稀土元素主要富集于中上部的氧化环境,且氧化作用越强越富集;化学蚀变指数CIA介于53.54~79.50,风化淋滤指数BA变化范围为0.39~1.08,共同指示了风化壳形成于温暖湿润的气候环境。综合稀土元素、微量元素和La/Yb-∑REE图解显示,风化壳稀土元素和微量元素主要来源于下伏铁岭组碳酸盐岩以及火山岩浆活动。     

四川若尔盖地区西康群地球化学特征及其物源区和古风化程度分析

通过对四川省若尔盖地区西康群砂泥岩的主量元素、微量元素和稀土元素进行综合研究,发现本区砂泥岩的SiO₂ 、P₂O₅ 、MnO与PAAS有相同的含量,富集Na₂O、CaO,贫Al₂O₃ 、Fe₂O₃、MgO、K₂O和TiO₂。微量元素W含量大大高于上地壳丰度,Nb和Ta含量大大低于上地壳丰度,而与下地壳丰度相当,Sc的含量略低于上地壳丰度,造岩元素Sr 略高于地壳丰度值。稀土元素总量相对较高,平均值为133.97×10^-6,与地壳中的稀土元素总量112×10^-6较为接近。轻稀土元素相对于重稀土元素较为富集,具中等的负铕异常,稀土配分曲线均显示比较一致的右倾的轻稀土富集的配分模式。由此认为其地球化学特征与大陆岛弧和被动大陆边缘沉积物相似。综合其他地质资料认为若尔盖地区西康群砂泥岩的物源区可能为康滇古陆。     

焦作煤田石炭-二叠纪泥质岩地球化学特征及古环境意义

泥质岩的地球化学特征蕴含了大量地质信息,在物源和沉积环境分析中的应用十分广泛。利用X射线荧光光谱仪和电感耦合等离子体质谱仪（ICP-MS）对华北板块南缘焦作煤田石炭-二叠纪泥质岩样品进行常量元素、微量元素（包括稀土元素）进行分析,并据此讨论泥质岩的物源性质、物源区岩石风化作用强度及当时古环境特征。研究区泥质岩的高Al₂O₃/TiO₂值及低Cr/Zr和K₂O/Al₂O₃值特征,以及泥质岩Zr-TiO₂和Th/Co-La/Sc源岩判别图、Ni-Cr图和（Gd/Yb）_N-Eu/Eu*图等的判别分析结果,都揭示了研究区泥质岩物源主要为后太古宙长英质岩石;Al₂O₃-CaO*+Na₂O-K₂O（A-CN-K）图和较高的黏土矿物成分反映了泥质岩源区受到钾交代作用的影响,致使CIA（化学蚀变指数）值被低估;高CIW（化学风化指数）值和Al₂O₃-CaO*-Na₂O（A-C-N）判别图分析结果表明泥质岩物源区母岩在石炭-二叠纪经历了强烈的风化作用;Sr/Ba和B/Ga比值变化指示本溪组沉积时期到太原组沉积早期为海相为主的沉积环境,太原组沉积中期到山西组沉积早期为海陆过渡相为主的沉积环境,山西组沉积中期到上石盒子组沉积时期为陆相沉积环境。     

陕南镇巴地区中-晚三叠世界线富锂黏土岩的发现及找矿意义

首次报道了扬子板块北缘镇巴地区中-晚三叠世界线黏土岩锂的超常富集,黏土岩产于关岭组(T₂g)/须家河组(T₃x)平行不整合界面,为古风化壳沉积物,Li₂O品位0.08%～0.11%,最高达0.22%,超过了该类型矿产的边界品位(0.06%),界线黏土岩的岩石学特征、矿物组成及岩石成因亟待查明。本文通过XRD分析、TIMA分析以及详细的地球化学研究,查明了界线黏土岩的矿物组成,探讨了黏土岩形成的沉积环境及物质来源,提出了不整合面黏土岩类关键金属矿产的综合找矿方向。研究表明,镇巴地区T₂/T₃界线黏土岩主要由石英、伊利石、高岭石组成,并含有极少量绿泥石、蒙脱石和铝绿泥石。主量元素(SiO₂、Al₂O₃、^TFe₂O₃、TiO₂)特征表明界线黏土岩属于铝土质泥岩,黏土岩CIA值(化学蚀变指数)为85～93,ICV值(成分变异指数)为0...     

黔西北地区二叠纪玄武岩古风化壳常量元素的地球化学特征

通过对峨眉山玄武岩古风化壳进行野外调查、取样和分析测试工作,认为: ①贵州西部广泛出露峨眉山玄武岩,晚二叠世古气候温润潮湿,利于峨眉山玄武岩风化形成含Fe、Ti的黏土矿物和铝质黏土矿物的古风化壳,该风化壳受古地理环境和峨眉山玄武岩控制。②相对玄武岩而言,铝质黏土岩主量元素含量特征表现为富TiO₂、Al₂O₃,轻度亏损SiO₂,明显亏损TFe,其他主量元素大量流失; 铁质黏土岩主量元素含量特征表现为富TFe、TiO₂, 轻度富Al₂O₃,但相对于铝质黏土岩,TiO₂的富集程度偏低,SiO₂亏损明显,其他元素亦大量流失。③由于晚二叠世频繁的海侵作用,水位较高的区域,风化壳下部处于较还原的条件下,Fe被还原成易溶的二价状态或在有机质的作用下迁出风化壳,而Ti由于存在形式较为稳定,继续保存在黏土矿物中,与Fe发生分异; 局部水位较浅的氧化环境及重力分异作用下,黏土矿物与铁矿物由于比重差异而分选开来,形成Fe与Al、Ti的分异,并伴随铁矿、钛矿和铝土矿的富集。该富集规律的发现对寻找该区铁、钛和铝土矿有一定的理论指导意义。     

大兴安岭中段索伦地区林西组岩石地球化学特征与沉积构造环境

大兴安岭中段林西组是重要的含烃源岩层位,烃源岩的形成与生烃母质生物活动和埋藏时的古气候、古构造、古环境息息相关。通过岩石地球化学分析可以恢复林西组沉积时期的气候与构造环境,利用Sr、Li、Ga 含量、Sr/Ba 值、U/Th 值、δU及Sr/Cu 值,从古盐度、氧化还原环境、古气候等方面分析了索伦地区林西组的沉积环境,认为林西组沉积时可能经历了中等—较强风化后的再沉积作用,总体为淡水—微咸水的氧化环境,气候温湿; Al₂O₃/(Al₂O₃+Fe₂O₃)值、K₂O/Na₂O- SiO₂关系以及稀土元素特征表明: 林西组形成于靠近大陆岛弧的活动大陆边缘,由早期弧后盆地的海陆过渡相半咸水环境向陆相的淡水环境演变,有利于有机质的富集和保存,是寻找烃源岩的有利层位。研究成果可为该区烃源岩勘查提供指导。     

Origin and geochemistry of Pan-African granitoid rocks in the Gabal Um Shomer area,Southwestern Sinai,Egypt

Geological, petrological and geochemical studies indicated that there are two distinct types of granitoid rocks: older quartz diorites to granodiorite assemblage and younger granitoids, the latter occurring in two phases. The older granitoids have a meta-aluminous chemistry and a calc-alkaline character, with high MgO, Fe2O3, TiO2, CaO, P2O5, Sr and low SiO2, K2O, and Rb. Their major and trace elements data, together with low 87Sr/ 86Sr ratios (0.7029±0.0008) are indicative of I-type affinities. The second-...     

黔北务川瓦厂坪铝土矿床元素迁移规律研究

黔北务正道地区铝土矿矿床属古风化壳沉积型,成矿母岩具多源性,但主要来源于下覆的中下志留统韩家店组。本文依据Grant提出的质量平衡方程和图解法,对瓦厂坪矿床在成矿过程中元素迁移的富集、贫化（亏损）规律进行了定量研究。结果表明,主要成矿母岩韩家店组砂、页岩一中间产物铝土质页岩、粘土岩是主要元素A12O3、TiO2显著富集...     

Geochemistry and Petrogenesis of the Tongshankou and Yinzu Adakitic Intrusive Rocks and the Associated Porphyry Copper-Molybdenum Mineralization in Southeast Hubei, East China

Abstract. The late Jurassic Tongshankou and Yinzu plutons in southeast Hubei have been investigated for their contrasting metal mineralization features. The former is closely associated with porphyry Cu‐Mo mineralization, while the latter is barren of metal mineralization, althouth both are located very close to each other. The Tongshankou granodiorite porphyries and the Yinzu granodiorites are geochemically similar to adakites, e.g., high Al₂O₃ and Sr contents and La/Yb and Sr/Y ratios, enriched in Na₂O, depleted in Y and Yb, very weak Eu anomalies and positive Sr anomalies. However, different geochemi‐cal characteristics exist between the two plutons: the Tongshankou adakitic rocks (1) are relatively enriched in SiO₂, K₂O, MgO, Cr, Ni, and Sr and depleted in Y and Yb; (2) have higher degree REE differentiation; (3) have positive Eu anomalies in contrast with very weak negative or unclear Eu anomalies in the Yinzu rocks; and (4) isotopically have relatively higher eP_Nd(t) values (‐5.19 to ‐5.38) and lower initial ⁸⁷Sr/⁸⁶Sr ratios (0.7060 to 0.7062), while the Yinzu adakitic rocks have relatively lower eP_Nd(t) values (‐7.22 to ‐8.67) and higher initial ⁸⁷Sr/⁸⁶Sr ratios (0.7065 to 0.7074). The trace element and isotopic data demonstrate that the Tongshankou adakitic rocks were most probably originated from partial melting of delaminated lower crust with garnet being the main residual mineral whereas little or no plagioclase in the source. On the contrary, the Yinzu adakitic rocks were likely derived from partial melting of thickened lower crust, with residual garnet and a small quantity of plagioclase and hornblende in the source. Interactions between the adakitic magmas and mantle peridotites possibly took place during the ascent of the Tongshankou adakitic magmas through the mantle, considering that MgO, Cr, and Ni contents and eP_Nd(t) values of the adakitic magmas were possibly elevated and initial ⁸⁷Sr/⁸⁶Sr ratios were possibly lowered due to the contamination of mantle peridotites. In addition, the Fe₂O₃ of the adakitic magmas was likely released into the mantle and the oxygen fugacities (?_o2) of the latter were obviously possibly raised, which made metallic sulfide in the mantle oxidized and the chalcophile elements such as Cu were incorporated into the adakitic magmas. The ascent of the adakitic magmas enriched in Cu and Mo will lead to the formation of porphyry Cu‐Mo deposit. Nevertheless, the Yinzu adakitic magmas were possibly lack of metallogenetic materials due to not interacting with mantle peridotite, and thus unfavorable to metal mineralization.     

Zircon U-Pb age,geochemical, and Sr-Nd-O isotopic constraints on the origin of the youngest Mesozoic adakitic dikes in Jiaodong peninsula,North China Craton: implications for Early Cretaceous crustal evolution

ABSTRACT

The adakitic dikes with zircon ages of ~120–118 Ma are identified in the Xiejiagou gold deposit, Jiaobei terrain. The Early Cretaceous intermediate-acidic dikes include monzonite, quartz monzonite, and monzogranite, which have SiO₂, Al₂O₃, K₂O, Na₂O contents ranging from 61.01 to 74.72 wt. %, 14.42 to 17.28 wt.%, 2.55 to 4.45 wt.%, and 3.09 to 4.64 wt.%, respectively. The dikes are enriched in large ion lithophile elements (LILEs) (e.g., Rb, Sr, and Ba) and light rare earth elements (LREEs), but are depleted in high field strength elements (HFSEs) (e.g., Nb, Ta) and heavy rare earth elements (HREEs). They are also characterized by continental crust-like isotopic compositions: whole-rock δ¹⁸O = 7.6–9.9‰, (⁸⁷Sr/⁸⁶Sr)_i = 0.70893–0.71036, and ε_Nd(t) = ?13.16 to ?17.06. Assimilation and fractional crystallization are limited, and partial melting of source rock is the main mechanism in controlling the compositional variation. The high Sr/Y (41.51–93.25) and (La/Yb)_N (22.9–44.7) ratios imply that the dikes have affinities similar to adakitic rocks. The regional geological setting, coupled with the geochemical and isotopic data, indicate that the adakitic dikes were unlikely produced by partial melting of a subducted oceanic slab or a thickened/delaminated lower crust, or AFC processes of mantle-derived magmas. We conclude that the adakitic dikes are generated by partial melting of lower crust which was triggered and modified by underplating of the lithospheric mantle. We also propose that the eastern part of the North China Craton experienced severe thinning in the Early Cretaceous (~135–120 Ma), and the lithospheric thinning is related to delamination of the lower crust.     

安徽滁州地区闪长质岩锆石U-Pb年龄与地球化学:岩石成因和动力学意义

用LA-ICP-MS测得安徽滁州2个闪长玢岩样品中锆石~(206)Pb/~(238)U年龄为126.19±0.44Ma和126.4±0.7Ma,结合前人研究,得出滁州地区岩体的侵位时代应为120~130Ma之间,为早白垩世。岩石地球化学研究显示,Si O_2含量变化范围为56.75%~60.90%,具有高Al_2O_3(14.82%~15.77%)、Mg O(4%)、Sr(750×10~(-6))、Sr/Y(62~110)、La/Yb(20~36),低Y、Yb的特征,同时富集轻稀土元素和大离子亲石元素,亏损高场强元素,Eu异常不明显,属于典型的埃达克质岩。Mg~#值为39~45,K_2O/Na_2O值为0.57~0.96,平均值为0.75,明显低于大别造山带加厚下地壳埃达克岩,Ce/Pb值较低,大多集中在3~5之间,类似于陆壳而明显低于洋壳。研究认为,安徽滁州地区埃达克质岩由拆沉下地壳部分熔融形成,埃达克质岩浆在上升过程中与地幔橄榄岩发生反应,导致熔体Mg O、Cr、Ni等含量增加。早白垩世中国东部地壳伸展减薄导致下地壳拆沉,地幔物质的参与带来铜、金等成矿物质,埃达克质岩可作为该地区重要的找矿标志。     

内蒙古苏宏图地区黏土岩矿物组成与地球化学特征

为探究内蒙古苏宏图地区黏土岩的地球化学特征、沉积物质来源和构造环境,利用多晶X射线衍射（XRD）和ICP-AES/MS分析法对苏宏图地区SZK-2井20件黏土岩岩芯样品进行分析测试。结果表明：XRD分析显示苏宏图地区黏土岩中黏土矿物组成以伊利石为主,伊利石质量分数平均值为37.64%;与大陆上地壳相比,黏土岩相对富集SiO2、Al2O3、Zr、As,贫P2O5、MgO、MnO、Cr、Ni,两者的K2O、TiO2、Sr、Ba含量接近。黏土岩中稀土元素特征为轻稀土元素富集,重稀土元素相对亏损,表现为明显的右倾,出现明显的Eu（平均值=0.60）负异常和Ce（平均值=1.01）轻微负异常,与大陆上地壳稀土元素的配分模式较为相似;K2O/Na2O-SiO2和微量元素构造背景判别图解中,样品多数落在大陆岛弧区,少量落在活动大陆边缘,反映了苏宏图地区沉积时期的物源来自于上地壳长英质物源且形成于大陆岛弧的构造背景中。     

Geochemistry of soils derived from black shales in the Ganziping mine area, western Hunan, China

The geochemistry of major and trace elements (including heavy metals and rare earth elements) of the fresh and weathered black shales, and the soils derived from black shales in the Ganziping mine area in western Hunan province (China) were studied using the following techniques: X-ray fluorescence (XRF), inductively coupled plasma mass spectrometer (ICP-MS) and X-ray diffraction (XRD). The results show that the black-shale soils are significantly enriched with Al₂O₃ and Fe₂O₃, and depleted of mobile elements CaO, Na₂O and K₂O. The soils are also highly enriched with heavy metals U, V, Ni, Ba, Cu, Zn and Pb, that may cause potential heavy-metal contamination of the soils. Composition of the soils is homogeneous compared to the weathered black shales, for which the concentrations of major elements except CaO and Na₂O, and trace elements except heavy metals (U, V, Ni, Ba, Cu, Zn and Pb) as well as the mobile Sr, show lower variations than in the weathered black shales. Ratios of Zr/Hf, Ta/Nb, Y/Ho, Nd/Sm, and Ti/(Ti + Zr), of the soils are also less variable, with values constantly similar to that of the fresh and weathered black shales correspondingly. Thus, components of the soils are believed to be contributed from the parent black shales through weathering and pedogenesis. It is concluded that the soils were formed by at least two stages of geochemical processes: the early stage of chemical differentiation and the later stage of chemical homogenization. The chemical differentiation that was taken during black-shale weathering might have caused the depletion of CaO and Na₂O, and the enrichment of Al₂O₃ and Fe₂O₃; while the chemical homogenization that was taken during pedogenesis led to the depletion of SiO₂ and K₂O, and to the further enrichment of Al₂O₃ and Fe₂O₃. The heavy-metal enrichment (contamination) of the soils was then genetically related to the enrichment of Al₂O₃ and Fe₂O₃ in the soils.     

东秦岭钼多金属成矿带蟒岭矿集区南部晚侏罗世埃达克岩的厘定及成矿意义

东秦岭钼矿带蟒岭矿集区南部侏罗系华阳村组底部出露一套粗面英安岩,对其进行LA-ICP-MS锆石定年,测得锆石206Pb/238U年龄为(150.92±0.70)Ma(95%置信度;MSWD=0.19),表明其形成于晚侏罗世。地球化学特征显示该岩石类似于中国东部燕山期C型埃达克质岩,表现为高硅(w(SiO_2)=59.75%～60.97%)、铝(w(Al2O3)=15.84%～16.01%)、钾(w(K2O)=3.74%～3.89%)、锶(w(Sr)=286×10~(-6)～338×10~(-6)),高Sr/Y比值(20.85～24.53),低镁(w(MgO)=2.37%～2.66%)、镱(w(Yb)=1.30×10~(-6)～1.50×10~(-6))、钇(w(Y)=13.3×10~(-6)～15.4×10~(-6)),重稀土元素明显亏损,轻重稀土元素分异明显(LREE/HREE=10.27～12.25),具有弱的正Eu异常(1.21～1.37),大离子亲石元素如Rb、Ba、Sr、U、K富集,相对亏损高场强元素Nb、Ti的地球化学特征,显示其为地壳加厚的构造背景下,下地壳部分熔融的产物,其源区相当于含10%的石榴子石角闪岩相。结合区域资料,认为晚侏罗世特提斯构造域和太平洋构造域构造已经发生构造体制的转换,太平洋板块向西俯冲导致地壳加厚,加厚的基性下地壳物质发生熔融形成岩浆,并沿构造薄弱带上升,喷发形成该套粗面英安岩,可能代表了燕山运动B幕的岩浆事件。综合研究认为,华阳村组粗面英安岩与调查区内多金属成矿关系作用不大,由于形成了特殊的具有埃达克岩性质的岩石,势必引起下地壳的折沉作用,随着拆沉作用的持续进行,地壳减薄导致周围软流圈地幔上涌,含有Mo、Cu等成矿元素的岩浆沿着构造薄弱地带侵入就位,并在上升过程萃取了围岩中的Pb、Zn、Ag、Au等成矿元素,形成调查区内蟒岭含矿斑岩体、蟒岭西侧含矿小斑岩体以及同期的黄家沟-上铺子一带脉状铅锌银矿体。