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    四川盆地东南缘中上寒武统白云岩地球化学特征及成因机制

    The characteristics and genetic mechanism of middle-upper Cambrian dolomite on the southeast margin of Sichuan Basin

    • 摘要: 提要:以系统的岩石学及中上寒武统3条剖面地球化学特征对比分析为基础,认为中上寒武统白云岩主要形成于埋藏早期高盐度卤水的渗透回流交代作用,次为混合水交代成因,其主要依据体现在:①中上寒武统白云岩及灰岩Sr/Ba总体较高,仅少量数据点Sr/Ba小于1;②灰岩Na、K含量较高,灰岩Na含量高于淡水成因的美国Wisconsin中奥陶统Mifflm Member灰岩以及美国Tennessee东部Tongling地区上奥陶统灰岩,白云岩Na含量与开宁盆地巴洼阶地潮上萨布哈白云岩中Na含量相近;③m值反映出灰岩为海水沉积环境,白云岩为与潟湖相关的沉积环境;④B校值反映出该区白云岩及灰岩主要形成于咸水—半咸水沉积环境,局部受淡水作用影响。该区白云岩化过程中Sr有明显带出现象,Na、K可能也有带出现象。

       

      Abstract: Abstract: Based on petrological and geochemical analysis of middle-upper Cambrian dolomite in three different profiles, the authors hold that the dolomite was mainly formed by brine reflux dolomitization in the early bury period, together with mixing water replacement. The evidence obtained is as follows: ① the ratios of Sr/Ba in dolomite and calcite are high, with only a few data being lower than 1; ② the values of Na and K are high in calcite, the content of Na in calcite is higher than that of middle Ordovician Mifflm Member calcite in Wisconsin and that of upper-Ordovician calcite in Tongling of eastern Tennessee characterized by fresh water origin, and the content of Na in dolomite is equal to that of Sabkha dolomite in Barbwire terrace of Canning basin; ③ the values of m suggest that the calcite was in a seawater sedimentary environment, and the dolomite was in a lagoon sedimentary environment; ④ the values of revised B show that the calcite and dolomite were formed in salt and semi-salt water, partly affected by fresh water. The Sr values were impoverished during the dolomitization, and Na and K might also have been impoverished in this process.

       

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