地球科学与环境学报
地毬科學與環境學報
지구과학여배경학보
JOURNAL OF EARTH SCIENCES AND ENVIRONMENT
2014年
4期
1-15
,共15页
张连昌%代堰锫%王长乐%刘利%朱明田
張連昌%代堰锫%王長樂%劉利%硃明田
장련창%대언부%왕장악%류리%주명전
条带状铁建造%太古宙%物质来源%形成机制%构造背景%鞍山-本溪地区%华北克拉通
條帶狀鐵建造%太古宙%物質來源%形成機製%構造揹景%鞍山-本溪地區%華北剋拉通
조대상철건조%태고주%물질래원%형성궤제%구조배경%안산-본계지구%화북극랍통
banded iron formations%Archean%material source%formation mechanism%tectonic setting%Anshan-Benxi area%North China Craton
前寒武纪条带状铁建造(BIFs)蕴含丰富的铁矿石资源,记录了早期地球演化的重要信息.鞍山—本溪地区发育巨量的太古宙 BIFs.鞍山—本溪地区 BIFs 由互层的硅铁条带组成,金属矿物以磁铁矿为主,含少量赤铁矿、黄铁矿及菱铁矿等.围岩与BIFs呈整合接触,具有变火山岩的岩石学特征及地球化学特征,表明BIFs属于阿尔戈玛型,其变火山岩围岩年龄可大致代表BIFs沉积时代.锆石U-Pb 年代学显示,鞍山—本溪地区至少发育约3.10 Ga及约2.55 Ga两期BIFs 沉积成矿事件,后者在华北克拉通广泛发育.鞍山—本溪地区 BIFs 地球化学具有以下特征:①低的TiO2与Al2 O3含量及高场强元素负异常,表明沉积过程中陆源碎屑物质加入量很少;②PAAS 标准化REE配分模式显示重稀土元素富集,La、Y 及 Eu 正异常,暗示 BIFs 沉积自海水与海底高温热液的混合溶液;③接近同时代亏损地幔的εNd (t)值(3.0~4.7),表明 Fe 可能来源于海底热液活动淋滤洋壳;④BIFs中仅发育少量黄铁矿,基本不显示 Ce负异常且富集铁的重同位素(δ(57 Fe)值为(0.13~2.73)×10-3),暗示古海洋整体处于低硫、缺氧环境,BIFs 的沉淀可能与富 Fe2+溶液遭遇环境突变有关.元素地球化学分析表明,大孤山与陈台沟围岩具有弧火山岩特征,南芬与歪头山围岩类似于弧后盆地玄武岩,因此,鞍山—本溪地区BIFs沉积于火山弧相关构造背景.
前寒武紀條帶狀鐵建造(BIFs)蘊含豐富的鐵礦石資源,記錄瞭早期地毬縯化的重要信息.鞍山—本溪地區髮育巨量的太古宙 BIFs.鞍山—本溪地區 BIFs 由互層的硅鐵條帶組成,金屬礦物以磁鐵礦為主,含少量赤鐵礦、黃鐵礦及蔆鐵礦等.圍巖與BIFs呈整閤接觸,具有變火山巖的巖石學特徵及地毬化學特徵,錶明BIFs屬于阿爾戈瑪型,其變火山巖圍巖年齡可大緻代錶BIFs沉積時代.鋯石U-Pb 年代學顯示,鞍山—本溪地區至少髮育約3.10 Ga及約2.55 Ga兩期BIFs 沉積成礦事件,後者在華北剋拉通廣汎髮育.鞍山—本溪地區 BIFs 地毬化學具有以下特徵:①低的TiO2與Al2 O3含量及高場彊元素負異常,錶明沉積過程中陸源碎屑物質加入量很少;②PAAS 標準化REE配分模式顯示重稀土元素富集,La、Y 及 Eu 正異常,暗示 BIFs 沉積自海水與海底高溫熱液的混閤溶液;③接近同時代虧損地幔的εNd (t)值(3.0~4.7),錶明 Fe 可能來源于海底熱液活動淋濾洋殼;④BIFs中僅髮育少量黃鐵礦,基本不顯示 Ce負異常且富集鐵的重同位素(δ(57 Fe)值為(0.13~2.73)×10-3),暗示古海洋整體處于低硫、缺氧環境,BIFs 的沉澱可能與富 Fe2+溶液遭遇環境突變有關.元素地毬化學分析錶明,大孤山與陳檯溝圍巖具有弧火山巖特徵,南芬與歪頭山圍巖類似于弧後盆地玄武巖,因此,鞍山—本溪地區BIFs沉積于火山弧相關構造揹景.
전한무기조대상철건조(BIFs)온함봉부적철광석자원,기록료조기지구연화적중요신식.안산—본계지구발육거량적태고주 BIFs.안산—본계지구 BIFs 유호층적규철조대조성,금속광물이자철광위주,함소량적철광、황철광급릉철광등.위암여BIFs정정합접촉,구유변화산암적암석학특정급지구화학특정,표명BIFs속우아이과마형,기변화산암위암년령가대치대표BIFs침적시대.고석U-Pb 년대학현시,안산—본계지구지소발육약3.10 Ga급약2.55 Ga량기BIFs 침적성광사건,후자재화북극랍통엄범발육.안산—본계지구 BIFs 지구화학구유이하특정:①저적TiO2여Al2 O3함량급고장강원소부이상,표명침적과정중륙원쇄설물질가입량흔소;②PAAS 표준화REE배분모식현시중희토원소부집,La、Y 급 Eu 정이상,암시 BIFs 침적자해수여해저고온열액적혼합용액;③접근동시대우손지만적εNd (t)치(3.0~4.7),표명 Fe 가능래원우해저열액활동림려양각;④BIFs중부발육소량황철광,기본불현시 Ce부이상차부집철적중동위소(δ(57 Fe)치위(0.13~2.73)×10-3),암시고해양정체처우저류、결양배경,BIFs 적침정가능여부 Fe2+용액조우배경돌변유관.원소지구화학분석표명,대고산여진태구위암구유호화산암특정,남분여왜두산위암유사우호후분지현무암,인차,안산—본계지구BIFs침적우화산호상관구조배경.
Precambrian banded iron formations (BIFs)contain large amounts of iron ores and record some important information about the evolution of early earth.Anshan-Benxi area has huge occurrences of Archean BIFs,which are helpful to enrich the theories of BIFs metallogenesis and advance the understanding of early evolution of North China Craton.These hosting rocks all have parallel occurrences to BIFs,and they show petrological and geochemical affinities with meta-volcanics.Therefore,the BIFs belong to the Algoma type and their formation ages can be reflected by the ages of wall rocks.It is proposed that there are at least two-stage BIFs deposition at about 3.10 Ga and about 2.55 Ga in Anshan-Benxi area,and the latter is widely distributed in North China Craton.The geochemical features of these BIFs include:①low concentrations of Al2 O3 ,TiO2 and high field strength elements,suggesting that terrigenous detrital materials contributed insignificantly to the chemical precipitation;②enrichment in heavy rare earth elements with positive La,Eu and Y anomalies on PAAS-normalized REE patterns,indicating their precipitation from marine seawater with a high-temperature hydrothermal component;③εNd (t)values (3.0-4.7 ) close to those of the coeval depleted mantle,implying that the iron is most likely derived from the leaching of oceanic crust by marine hydrothermal activities;④BIFs have only a few pyrites within them,and most of them show no Ce anomaly with enrichment ofδ(57 Fe)((0.13-2.73)×10-3 ), indicating that Archean ocean is in low abundances of S and O2 .It is proposed that the deposition of BIFs is associated with environment variation during the transport of Fe2+-rich solutions. Geochemical analyses show that Dagushan and Chentaigou wall rocks have the characteristics of arc volcanics,and Nanfen and Waitoushan rocks are similar to back-arc basin basalts.Therefore, the BIFs in Anshan-Benxi area are deposited in the volcanic arc setting.
