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Details of Award

NERC Reference : NE/D003245/1

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Attribution of climate change in the subtropical North Atlantic Ocean: exploiting tritium-helium data and adjoint sensitivity analyses

Grant Award

Principal Investigator:
Professor RG Williams, The University of Manchester, Earth Atmospheric and Env Sciences
Co-Investigator:
Dr CF Postlethwaite, National Oceanography Centre, Science and Technology
Co-Investigator:
Dr VM Roussenov, University of Liverpool, Earth, Ocean and Ecological Sciences
Co-Investigator:
Professor CJ Ballentine, University of Oxford, Earth Sciences
Grant held at:
The University of Manchester, Earth Atmospheric and Env Sciences
Science Area:
Marine
Atmospheric
Overall Classification:
Marine
Science Classification details
ENRIs:
Global Change
Science Topics:
Ocean Circulation
Ocean - Atmosphere Interact.
Biogeochemical Cycles
Climate & Climate Change
Abstract:
There is uncertainity in how the North Atlantic operates in the climate system in terms of its heat content and biological export of organic matter, which ultimately affects how the ocean uptakes excess carbon from the atmosphere. For example, over the last 50 years, there has been an increase in heat content in the subtropical North Atlantic, associated with an increase in volume of both upper thermocline water (18 to 24C) and cold thermocline waters (4 to 10C), but a decrease in other neighbouring temperature classes. This proposal aims to understand how the subtropical North Atlantic operates in the climate system by analysing tritium-helium observations along 36N and 25W across the basin. The inferred tritium-helium age provides a measure of the elapsed time since the water was last in contact with the atmosphere. The measurements of tritium-helium age will be used to understand: 1. How ventilation controls the observed changes in heat content in the subtropical North Atlantic; 2. To identify the rate of export of organic matter which is diagnosed indirectly from the rate of oxygen utilisation using the tritium-helium age. The reliability of the data signals will be assessed by comparying with a circulation model and its adjoint. The sensitivity of the climate change, the export of organic matter and cycling of nutrients, will then be understood by using the same model and its adjoint, which efficiently identifies the effect of changes in external forcing and model physics.
Period of Award:
13 Jul 2006 - 12 Jul 2010
Value:
£128,297 Split Award
(FY details)
Authorised funds only
NERC Reference:
NE/D003245/1
Grant Stage:
Completed
Scheme:
Standard Grants Pre FEC
Grant Status:
Closed
Programme:
Standard Grant

This grant award has a total value of £128,297  

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FDAB - Financial Details (Award breakdown by headings)

Total - StaffTotal - T&STotal - Other CostsTotal - Indirect Costs
£56,333£1,764£44,287£25,914

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