CORDIS Project
Funding breakdown and partner intelligence are Premium
Sign in and upgrade to Premium for EU contribution totals, consortium analytics, OpenAlex research context, and AI summaries. · 0 consortium intelligence fields visible of 1
Start free • Cancel anytime • 14-day refund guarantee
This research focuses on the role of aerobic methane oxidation in the marine methane cycle, aiming to develop new proxies for studying its historical impact. It involves experiments and calibrations to better understand methane cycling in various marine environments.
Methane, a key greenhouse gas, is cycled by microorganisms via two pathways, aerobically and anaerobically.
Research on themarine methane cycle has mainly concentrated on anaerobic processes.
Recent biomarker work has provided compellingevidence that aerobic methane oxidation (AMO) can play a more significant role in cycling methane emitted from sediments thanpreviously considered. AMO, however, is not well studied requiring novel proxies that can be applied to the sedimentary record.
Agroup of…
UNIVERSITY OF NEWCASTLE UPON TYNE
Partner organizations (coordinator is shown above), with normalized type and CORDIS activity type. Guests see up to 4 partners.
Similar projects, consortium collaboration history, frequent partners, and OpenAlex research context.
Guests see up to 5 EuroSciVoc fields.
Guests see up to 5 topics.