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Iron Biogeochemistry in the high latitude North Atlantic - Irminger Basin Iron Study (IBIS)

Funding

Funding was provided by NERC, in the form of four standard (full Economic Cost - fEC) grants with a total value of £528,607. The project was a study of the iron (Fe) biogeochemistry in the high latitude North Atlantic, with the results providing a better understanding of the role that nutrients like iron play in the growth of phytoplankton cells in the ocean. The gathered data were intended to help computer modellers to design improved climate models that would allow for better predictions of the extent of climate change over the next hundreds of years.

Project dates - 21 June 2007 to 08 November 2013.

Background

With the rise in carbon dioxide concentrations throughout the world, the importance of carbon-ingesting marine plants, such as phytoplankton is becoming more important. As phytoplankton take up atmospheric carbon dioxide, they are helping to reduce the atmospheric concentration. Recently it has been discovered that the phytoplankton in many of the world's oceans are lacking in iron. For example, in the Southern Ocean, phytoplankton cell growth is limited by very low iron concentrations. Thus, they do not remove as much carbon dioxide as they could. Recent studies have suggested that iron may even play a role in the phytoplankton growth in the high latitude North Atlantic, which was thought to be iron replete.

Objectives

The main objective of this project was to study the iron biogeochemistry of the high latitude North Atlantic, assess whether community productivity in parts of the high latitude North Atlantic was iron limited following the annual spring bloom, and to determine the factors which lead to this situation. This project studied whether iron was limiting phytoplankton growth in the study area, by undertaking two cruises and taking samples of water, sedimenting material, and atmospheric dust and rain. The project also directly investigated whether iron is limiting the growth of phytoplankton in water samples from the study area.

Participants

• University of Southampton, School of Ocean and Earth Science.
• University of Liverpool, Earth Surface Dynamics.
• University of Essex, Biological Sciences.
• University of East Anglia, Environmental Sciences.

• Prof. Eric Achterberg, University of Southampton, School of Ocean and Earth Science (Principal Investigator)
• Dr. Gary Fones, University of Portsmouth, School of Earth and Environmental Sciences
• Dr. Richard Sanders, National Oceanography Centre, Science and Technology
• Dr. Christopher Mark Moore, University of Southampton, School of Ocean and Earth Science
• Prof. Richard Geider University of Essex, Biological Sciences
• Prof. Tim Jickells, University of East Anglia, Environmental Sciences
• Prof. Ric Williams, University of Liverpool, Earth, Ocean and Ecological Sciences

Methodology

• Took samples of water, sediments, atmospheric dust and rain.
• Calculated the supply ratios of iron (Fe) to nitrogen (N), phosphorus (P) and carbon (C) to the surface oceans and in sedimenting material.
• Calculated the oceanic transfers of these elements using models.
• Assessed whether iron was limiting phytoplankton growth using both models and water samples analysis.

More information can be found within the Gateway to Research website.

Fieldwork

Two research cruises

• RRS Discovery D350 - 26 April 2010 to 09 May 2010. Departed from Govan, UK and arrived in Reykjavík, Iceland. Study area: North Atlantic Ocean - Irminger and Iceland Basins. Principal Scientist: Dr. Mark Moore, University of Southampton.
• RRS Discovery D354 - 10 July 2010 to 11 August 2010. Departed from Avonmouth, UK and arrived in Birkenhead, UK. Study area: North Atlantic Ocean - Iceland and Irminger Basins. Principal Scientist: Prof. Eric Achterberg, University of Southampton.

Instrumentation

• Stainless Steel CTD rosette
• Titanium CTD rosette
• VM ADCP 75 kHz
• VM ADCP 150 kHz
• Stand Alone Pump Systems (SAPS)
• PELAGRA - Neutrally Buoyant Sediment Traps
• Trace metal clean tow fish
• Seasoar with CTD, fluorometer and Laser Optical Plankton Counter (LOPC)
• Zooplankton nets
• Underway - Navigation, surface and meteorology