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 project investigates the role of ammonia-oxidizing microorganisms in the nitrogen cycle, which is crucial for agriculture and climate. It aims to enhance our understanding of these microorganisms and their impact on nitrogen turnover in soil ecosystems, ultimately contributing to a balanced global nitrogen cycle.
The global nitrogen cycle is of fundamental importance for our climate as well as agriculture, and both are facing significant threats due to environmental change.
Anthropogenic input of synthetic ammonia-based fertilisers has a profound impact on the nitrogen cycle.
Most soil ecosystems globally are nitrogen limited, necessitating ammonia-based fertiliser to achieve sufficient crop yield to feed the world’s growing population.
However, circa 70% of fertiliser is lost through the activity of amm…
Partner organizations (coordinator is shown above), with normalized type and CORDIS activity type. Guests see up to 4 partners.
United Kingdom, Norwich
Type: University / higher education
Activity type: Higher or Secondary Education Establishments
SME: No
Similar projects, consortium collaboration history, frequent partners, and OpenAlex research context.
Guests see up to 5 EuroSciVoc fields.
Guests see up to 5 topics.
Guests see up to 5 keywords.