中国地质
中國地質
중국지질
CHINESE GEOLOGY
2014年
5期
1554-1564
,共11页
杨毅%多吉%刘鸿飞%张金树%王立强%张志%胡正华
楊毅%多吉%劉鴻飛%張金樹%王立彊%張誌%鬍正華
양의%다길%류홍비%장금수%왕립강%장지%호정화
Re-Os同位素%成矿时代%列廷冈铁多金属矿%林周盆地%冈底斯成矿带
Re-Os同位素%成礦時代%列廷岡鐵多金屬礦%林週盆地%岡底斯成礦帶
Re-Os동위소%성광시대%렬정강철다금속광%림주분지%강저사성광대
Re-Os isotope%metallogenic epoch%Lietinggang iron polymetallic deposit%Lhunzhub Basin%Gangdise metallogenic belt
提列廷冈铁多金属矿床不仅是西藏林周盆地已发现的众多铁多金属矿床中工业价值、找矿远景最好的矿床之一,而且是冈底斯成矿带Fe、Cu、Mo、Pb、Zn等多矿化元素组合的典型代表。本次研究利用辉钼矿Re-Os同位素年代学测试方法,对列廷冈矿床8件辉钼矿进行了精确定年,首次明确了矿床成矿时代。测试结果表明,辉钼矿模式年龄为(60.97±0.92) Ma~(63.19±0.93) Ma,等时线年龄为(62.28±0.66) Ma (MSWD=0.74),矿床形成于古新世,与印度-亚洲大陆主碰撞阶段在冈底斯成矿作用有关。矿床辉钼矿Re含量变化于0.54×10-6~84.72×10-6,指示矿床成矿物质来源主要为壳幔混源。列廷冈矿床成矿时代和成矿物质来源的厘定,对于区域上开展古新世铁多金属矿床的找矿预测具有十分重要的意义。
提列廷岡鐵多金屬礦床不僅是西藏林週盆地已髮現的衆多鐵多金屬礦床中工業價值、找礦遠景最好的礦床之一,而且是岡底斯成礦帶Fe、Cu、Mo、Pb、Zn等多礦化元素組閤的典型代錶。本次研究利用輝鉬礦Re-Os同位素年代學測試方法,對列廷岡礦床8件輝鉬礦進行瞭精確定年,首次明確瞭礦床成礦時代。測試結果錶明,輝鉬礦模式年齡為(60.97±0.92) Ma~(63.19±0.93) Ma,等時線年齡為(62.28±0.66) Ma (MSWD=0.74),礦床形成于古新世,與印度-亞洲大陸主踫撞階段在岡底斯成礦作用有關。礦床輝鉬礦Re含量變化于0.54×10-6~84.72×10-6,指示礦床成礦物質來源主要為殼幔混源。列廷岡礦床成礦時代和成礦物質來源的釐定,對于區域上開展古新世鐵多金屬礦床的找礦預測具有十分重要的意義。
제렬정강철다금속광상불부시서장림주분지이발현적음다철다금속광상중공업개치、조광원경최호적광상지일,이차시강저사성광대Fe、Cu、Mo、Pb、Zn등다광화원소조합적전형대표。본차연구이용휘목광Re-Os동위소년대학측시방법,대렬정강광상8건휘목광진행료정학정년,수차명학료광상성광시대。측시결과표명,휘목광모식년령위(60.97±0.92) Ma~(63.19±0.93) Ma,등시선년령위(62.28±0.66) Ma (MSWD=0.74),광상형성우고신세,여인도-아주대륙주팽당계단재강저사성광작용유관。광상휘목광Re함량변화우0.54×10-6~84.72×10-6,지시광상성광물질래원주요위각만혼원。렬정강광상성광시대화성광물질래원적전정,대우구역상개전고신세철다금속광상적조광예측구유십분중요적의의。
Among lots of polymetallic deposits, the Lietinggang deposit in the Lhunzhub Basin of Tibet is one of the deposits with best industrial value and exploration prospect. It is a typical deposit where Fe, Cu, Mo, Pb and Zn have been found. High precision Re-Os dating was conducted for 10 molybdenite samples for determining the mineralization age of the Lietingang deposit. It is for the first time that the high precision mineralization age of the deposit has been obtained. The test result indicates that the Re-Os model ages vary in the range of (60.97+0.92) Ma-(63.19+0.93) Ma, and the isochron age is (62.28+0.66) Ma, with MSWD being 0.74. During the main Indosinian collision period in the Gangdise belt, the deposit was formed in the Paleocene. The Re values of 8 pieces of molybdenite are mainly concentrated in the range of 0.54 × 10-6-84.72 × 10-6. The sources of the ore-forming materials were mainly from the Earth's mantle and crust. The determination of the ore-forming epoch and metallogenic material of the Lietinggang deposit is of great significance for the regional ore-prospecting prognosis of early Paleocene iron-polymetallic deposits.