Abstract The stratiform Mn-carbonate ore from the Gaoyan deposit occurs within terrigenous-sedimentary rocks of the upper part of the Ediacaran Doushantuo Formation and is characterized by rhodochrosite spherulites. Here we… Click to show full abstract
Abstract The stratiform Mn-carbonate ore from the Gaoyan deposit occurs within terrigenous-sedimentary rocks of the upper part of the Ediacaran Doushantuo Formation and is characterized by rhodochrosite spherulites. Here we examine the effect of depositional environment and hydrothermal contribution based on new petrographical, mineralogical and geochemical data to shed light on major controls on formation of sedimentary Mn mineralization. The significant geochemical characteristics such as high Mn/Fe ratios (average 32.07), high Ba content (average 1940.9 ppm), positive Eu anomalies (average 1.38) and low REE contents (average 51 ppm) reveal a hydrothermal source. Meanwhile, 87Sr/86Sr ratios of Mn ores are substantially higher than those of carbonate wall rocks and contemporaneous seawater, indicating mixing of radiogenic Sr from the Mn-rich hydrothermal extraction from underlying sediments. This explanation is supported by a positive linear correlation between 87Sr/86Sr ratios and Eu anomalies. The slightly positive Ce anomaly of most Mn carbonate ore samples is mirrored in the negative Ce anomaly of black shale, while different Ce anomalies provide evidence that Mn redox cycling took place across a sub-oxic to anoxic/euxinic water interface. The euxinic conditions, as evidenced by the co-occurrence of fine-grained disseminated pyrite to framboidal aggregates (average diameters
               
Click one of the above tabs to view related content.