Radiatively Active Gases from the North Atlantic RegiOn and Climate Change (RAGNARoCC)

The exchange of natural and man-made gases between the ocean and the atmosphere has profound implications for our environment. The speed of the gas transference, however, known as the kinetics of gas exchange, is currently poorly understood. This lack of knowledge limits the ability of numerical models to assess on-going global change and predict future climate. The RAGNARoCC project seeks to address the fundamental processes that control how fast gases are being exchanged and increase our understanding in this under-researched area.

The knowledge gained from this project can be utilised by environmental scientists and engineers who can apply RAGNARoCC’s measured rates of air-sea gas transfer to predict atmospheric pollutant deposition to, or toxin emission from, aqueous environments. Knowing how fast an exchange occurs is also critical for informing both the general public and policy makers, who play central roles in the preservation of the natural environment and the mitigation of climate change.

Within this project our scientists will investigate concentrations and fluxes of greenhouse gases in the North Atlantic by direct shipboard measurements and Earth Observation extrapolations over time and space.

This project has been completed

Key information

Funder: Natural Environment Research Council (NERC)

Project start date: July 2013

Project end date: June 2017

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Dr Vassilis Kitidis
Senior Scientist in Marine Biogeochemistry

Other participants

Dr Gennadi Lessin, Dr Peter Land, Ian Brown, Professor Philip Nightingale

Introduction to the RAGNARoCC project

Radiatively Active Gases from the North Atlantic Region and Climate Change (RAGNARoCC, www.greenhouse-gases.org.uk/projects/rag­­narocc) is a project that is investigating the amount and variability of sources and sinks of greenhouse gases from the North Atlantic.