4.7 Article

Mineralogical and geochemical characteristics of near-vent metalliferous sediments: Implications for hydrothermal processes along the southern Mid-Atlantic ridge (12°S-28°S)

Journal

ORE GEOLOGY REVIEWS
Volume 148, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.oregeorev.2022.105003

Keywords

Metalliferous sediments; Southern Mid-Atlantic Ridge (12 degrees S-28 degrees S); Mineralogy Rare earth elements; Hydrothermal mineralization

Funding

  1. China Ocean Mineral Resources R&D Association project [DY135-S2-2-03]
  2. National Natural Science Foundation of China [42106080]
  3. Shandong Province Natural Science Foundation [ZR2020QD074]
  4. Laboratory for Marine Geology, Qingdao National Laboratory for Marine Science and Technology [MGQNLM-KF201815]

Ask authors/readers for more resources

This study presents mineralogical and geochemical analyses of unconsolidated submarine surface sediments collected from different hydrothermal fields along the southern Mid-Atlantic Ridge. The results show that the formation of mineral deposits in these fields varies with temperature. The geochemical data indicate that hydrothermal materials are the main source of non-biological components in the sediments. The hydrothermal fields in question may have undergone phase separation, resulting in the formation of different types of sulfide-rich sediments. In the northern segment, sediment particles from plume fall-out are the primary source, while in the southern segment, hydrothermal materials are mainly derived from collapsed chimneys and debris precipitated from hydrothermal fluids.
In this study, we present mineralogical and geochemical analyses of 50 unconsolidated submarine surface sediments collected from separate locations within six active hydrothermal fields (Zouyu, Taij, Caifan, Deyin, Xunmei, and Tongguan) along the southern Mid-Atlantic Ridge (SMAR) at 12 degrees S-28 degrees S. The samples consisted of 33 metalliferous sediments (MS) and 17 non-metalliferous sediments (non-MS). The study area was divided into a northern segment that contained the Zouyu, Taij, Caifan, and Deyin hydrothermal fields and a southern segment containing the Xunmei and Tongguan hydrothermal fields. The presence of chalcopyrite, octahedral pyrite, and cubic pyrite without streaks on the surface of the sediments reflected a stable high temperature mineralization environment with a small temperature gradient in the Xunmei hydrothermal field. Cubic pyrite with growth striations co-existing with pentagonal dodecahedon-form pyrite indicated an unstable ore-forming environment with large temperature gradient in the early stage and a more stable ore-forming environment in the late stage in the Tongguan hydrothermal field. Major and trace element geochemistry data indicated that the most important material source for the abiogenic component of the sediments along SMAR 12 degrees S-28 degrees Swas hydrothermal materials, the second most important source was lithogenic components, and the third source was elements scavenged from seawater. The Xunmei and Tongguan hydrothermal fields may have recorded phase separation, a process that would have resulted in the formation of two separate hydrothermal fluids, thereby forming two types of sulfide-rich MS with rare earth element (REE) patterns with positive and absent Eu anomalies, respectively. The Si-Fe-Mn oxide-rich MS had positive Eu anomalies, which also indicated that these oxides in sediments were directly precipitated from initial hydrothermal fluids at high temperature. The chloriterich MS exhibited nearly flat REE patterns similar to the volcanic material-rich samples and mid-ocean ridge basalt (MORB), which reflected the origin of the hydrothermal alteration of volcanic materials. In the northern segment, most of the MS were derived from plume fall-out Fe oxide particles. In addition, the chlorite-rich MS was likely derived from hydrothermal alteration. In the southern segment, the hydrothermal materials in the MS were primarily derived from the collapse of sulfide-bearing chimneys and Si-Fe-Mn oxide debris directly precipitated from hydrothermal fluids.

Authors

I am an author on this paper
Click your name to claim this paper and add it to your profile.

Reviews

Primary Rating

4.7
Not enough ratings

Secondary Ratings

Novelty
-
Significance
-
Scientific rigor
-
Rate this paper

Recommended

No Data Available
No Data Available