James Bradley

Affiliation: Queen Mary University of London
Address: []
Orcid: 0000-0003-3640-208X

Project: Develop a 1D biogeochemical-evolutionary model for deep sediments (8 datasets)

DatasetLatest Version DateCurrent State
Modeling bio-energetics for South Pacific Gyre marine sediment at site U1370

Role: Principal Investigator

2019-12-20Final no updates expected
Calculated power from the oxidation of necromass that is produced in marine sediment on a global scale.

Role: Principal Investigator

2019-12-20Final no updates expected
Calculated power from the oxidation of biomolecules with oxygen at South Pacific Gyre (hole U1370, IODP Expedition 329)

Role: Principal Investigator

2019-12-20Final no updates expected
Major catabolic pathway of organic carbon oxidation in Quaternary-age sediment quantified from bio-energetic modeling of subseafloor parameters on a 0.25°×0.25° resolution global grid

Role: Principal Investigator

2020-11-13Preliminary and in progress
Power produced by microbial POC degradation in Quaternary-age sediment quantified from bio-energetic modeling of subseafloor parameters on a 0.25°×0.25° resolution global grid

Role: Principal Investigator

2020-11-13Preliminary and in progress
Microbial power production per cell in Quaternary-age sediment quantified from bio-energetic modeling of subseafloor parameters on a 0.25°×0.25° resolution global grid

Role: Principal Investigator

2020-11-13Preliminary and in progress
Cell-specific power utilization (power per cell) in methanogenic, oxic, and sulfate-reducing sediments quantified from bio-energetic modeling of subseafloor parameters on a 0.25°×0.25° resolution global grid

Role: Principal Investigator

2020-11-13Preliminary and in progress
POC concentration at the sediment water interface quantified from bio-energetic modeling on a 0.25°×0.25° resolution global grid

Role: Principal Investigator

2020-11-13Preliminary and in progress