Given the fact that many sections of slow-spreading ridges are at water depths greater than 3000 m, the submarine hydrothermalism at 5°S on the Mid Atlantic Ridge (MAR) with extreme fluxes of heat, metals and unique rare earth element chemistry (REE) is of general significance for oceanic element budgets. Transport-reaction processes in these high-pressure (p) / high-temperature (T) hydrothermal systems are poorly constrained. We propose (1) experiments under p-T-conditions similar to those at MAR 5°S for the study of seawater-rock interaction and resulting element partitioning as well as (2) of time-resolved rock alteration and generation of secondary minerals and (3) subsequent modelling of time-integrated changes of fluid and rock chemistry. The starting materials will be natural Atlantic Deep Water reacting with unaltered gabbroic fragments from IODP Hole U1309D (gabbro: 1020 m bsl, Olivine-gabbro: ~1050 m bsl, troctolite: ~1125 m bsl; only experiments with gabbro were performed in the first period of funding). In addition, a systematic study of elemental composition and REE pattern of secondary mineral assemblages of recovered basaltic and gabbroic samples from IODP Site U1309D will - together with other data from the literature - help to better interpret our experimental findings and understand the natural alteration processes of oceanic crust. In summary, our experimentally derived water-rock partitioning behaviour of transition metals and REE as well as the modelling will add to our knowledge of seawater-rock interaction processes and will improve our understanding of transport reactions and element fluxes during ascent in hydrothermal systems that run at extreme temperatures and great water depths.

DFG Programme Infrastructure Priority Programmes

Subproject of SPP 527:  Bereich Infrastruktur - "International Ocean Discovery Program" (IODP)

Participating Persons Dr. Oliver Beermann; Dr. Carl-Dieter Garbe-Schönberg