Science News

Scientists Will Spend Christmas in the Southern Ocean for Climate Research

On December 2, National Oceanography Centre (NOC) scientists, engineers and crew will embark on a research expedition that will see them spend Christmas and New Year sailing through remote waters in the Southern Ocean on board RRS Discovery.

This is part of an exciting project, led by the NOC, to understand the role of this notoriously rough part of the ocean in taking up and storing carbon from the atmosphere. The team will largely be focusing on studying the seasonal growth of tiny marine plants, called phytoplankton.

Annual phytoplankton growth equals that of all land plants combined. Without life in the sea, carbon dioxide concentrations in the atmosphere would be 50% higher. The festive season in the northern hemisphere is actually mid-summer in this rarely visited part of the ocean, so marine plants will be blooming.

Importantly, when these plants die, the carbon held within them moves deeper into the ocean, some in the stomachs of crustaceans and fish that eat them, or by sinking as ‘marine snow’. This expedition aims to address some of the uncertainty around how this process happens. In particular, they will be looking at the consequences of phytoplankton becoming starved of nutrients as their population outstrips supply. This can change the variety and health of species present, affecting how quickly marine snow sinks

NOC scientist and CUSTARD project lead, Dr Adrian Martin, said “The movement of carbon into the ocean is particularly important in the Southern Ocean, since it is effectively a ‘motorway junction’ for ocean currents. Which motorway the carbon enters determines how long it will remain ‘locked’ away in the ocean. If shallow, maybe a year or less, if deep, possibly hundreds years or longer.”

The information collection during this expedition will be complemented with year-round data from two marine robotic vehicles called ‘gliders’, as well as a moored buoy provided by a US Ocean Observatories Initiative. This enables the study of seasonal change, similar to observation of meadows flowering and dying over the year, even during the winter months with Southern Ocean waves as high as a four-storey house.

This expedition is part of the CUSTARD (Carbon Uptake and Seasonal Traits in Remineralisation Depth) project, which studies the ‘biological carbon pump’. CUSTARD is funded by the Natural Environmental Research Council (NERC), and forms part of the NOC’s commitment to furthering knowledge about the relationship between the oceans and climate.

CUSTARD is part of the NERC Role Of the Southern ocean in the Earth System (ROSES) programme, and involves collaborators from the Universities of Southampton, Plymouth, East Anglia and Oxford, and the British Antarctic Survey (BAS) in the UK, as well as the Max Planck Institute for Meteorology in Germany and Woods Hole Oceanographic Institute (WHOI) in US. In addition, the project is also assisted by the US National Science Foundation (NSF) through the US Ocean Observatories Initiative. 

Once the expedition begins, scientists on board will be blogging about their research, and Christmas at sea. A link to the blog can be found here.

You can also follow the expeditions progress on twitter using #CUSTARDcruise

Story by the National Oceanography Centre

Latest Issue

Image
The Blue Carbon Story

The Blue Carbon Story

By Kerrylee Rogers and Neil Saintilan

How to Protect the Bering Strait

How to Protect the Bering Strait

By Elena Agarkova Belov and Alexander Moiseev

Our Partners

Frontiers in Marine Science
American Academy of Underwater Sciences
UNESCO

ECO Magazine is a marine science publication committed to bringing scientists and professionals the latest ground-breaking research, industry news, and job opportunities from around the world.

Newsletter Signup

Please type your full name.

Please type your full name.

Invalid email address.

All emails include an unsubscribe link. You may opt-out at any time. Clicking subscribe confirms your acceptance of our privacy policy.