Theme I - Field Investigations
The RPL team will unravel feedbacks between hydrological, geochemical and biological processes that give rise to habitability during low-temperature W/R interactions by conducting studies in serpentinizing systems.
Low-temperature serpentinizing systems field sites
There are 3 sites that the RPL team have identified as excellent Astrobiological targets for investigation of ecosystems supported by water-rock interactions, the Coast Range Ophiolite CROMO in California, the Samail Ophiolite in Oman, and the Atlantis Massif, 15 km from the Mid-Atlantic Ridge. These 3 sites are focused around the theme of low-temperature 鈥淪erpentinization鈥. RPL NAI members are also conducting fieldwork in other complementary water/rock hosted ecosystems such as Yellowstone National Park, Great Salt Lake, Robertson Glacier, Edgar Mine Classroom.
The RPL team is using these sites as collaborative test-beds for efforts in life-detection and biosignature formation for the entire NAI community.
CROMO
Continental tectonic m茅lange including peridotite
Peridotite Environment to be accessed: Shallow cores and wells (20m) accessing pH 7 to pH 12.7 water. Temperature 13-18掳C
Water/Rock ratio: High water fluxes: large inputs & high permeability
Gas Characteristics: Comparatively low (nM) H2 concentrations, high (mM) CH4
Oman
Continental intact peridotite (km deep)
Peridotite Environment to be accessed: Deep (300m) cores and wells accessing pH 8 to 12.5 waters along a reaction path. Temperature ~40-50掳C
Water/Rock ratio: Low water fluxes: low inputs and high storativity
Gas Characteristics: Moderate (碌M) H2 and (碌M) CH4 concentrations; low flux of oxidants such as HCO3- and SO42-
Atlantis Massif
Submarine, slow spreading mid ocean ridge
Peridotite Environment to be accessed: Core recovery from 10-12 sites. Temperature ~40-90掳C
Water/Rock ratio: High water fluxes: channelized fluid flow?
Gas Characteristics: High (mM) H2 and greater flux of oxidants such as HCO3- and SO42-