BIOPOLE

Biogeochemical processes and ecosystem function in changing polar systems and their global impacts (BIOPOLE)

Start date
1 April, 2022
End date
31 March, 2027

Overview

Climate change is proceeding faster at the poles than any other region, with sea-ice retreating, glaciers melting and biotic communities being invaded by sub-polar species. These changes are affecting how nutrients that support marine life are supplied and processed in these environments. There is a clear urgency to understand the full ecosystem level implications of these changes not only for the polar regions themselves but for the wider Earth system with which it is intimately connected.

Project BIOPOLE will quantify the dependence of the Earth system, and humanity, on the natural supply and global redistribution of polar nutrients. The project will link many of the major environmental research institutes in the UK, who will work with national and international partners to research nutrient supply and ecosystem processes at both poles.

Nutrients, such as nitrogen (N) and phosphorus (P), are not evenly distributed across the global ocean but are in excess in the polar regions from where they are exported to lower latitudes by ocean circulation. Living matter is produced through combining N, P and carbon (C) (and other minor elements) in a ratio that is more or less the same across the global ocean. This ratio principally reflects the availability of these elements in the environment. However, the ratios found in the polar regions are substantially different. This is because, firstly, nutrients are supplied to the polar oceans in large quantities from a number of sources (glaciers, sea-ice, water-mass transport and rivers), and secondly, many of the ways these nutrients are processed by polar ocean ecosystems (through primary production, consumption, behaviour and decay) are relatively unique. This generates a nutrient surplus that drives much of the productivity of other oceans.

The pressing issue is that rapid climatic change at the poles is potentially changing the supply of nutrients and the processing capacity of its ecosystems. This threatens not only the marine food stocks on which humanity depends but biological drawdown of C into the oceans that helps regulate atmospheric CO2. Our ability to fully characterise and predict this threat is limited by inadequate representation of polar biogeochemical and ecosystem processes in Earth System Models (ESMs).

BIOPOLE will combine data collection, novel analyses and computer simulations to radically improve our ability to measure, understand and predict how nutrient supply and ecosystem processing in the polar regions will be affected by climate change. BIOPOLE will further identify and quantify the wider global impacts on ocean productivity. Data collection will be carried out at both poles in order to address the full Earth system perspective of this problem. It will involve expeditions on land and sea in order to trace the nutrients from their sources and determine their relative prevalence in the open ocean environment. It will use the latest experimental and observational techniques to study elemental processing by the unique polar biotic communities. It will include the use of novel autonomous technologies and unmanned vehicles to collect data over much longer periods and much greater areas than can be achieved by ships alone.

Informed by the new understanding generated by these observational campaigns, BIOPOLE will propose and integrate improvements to ESMs. These improvements will be used alongside other modelling approaches to better quantify the role that that polar oceans play in global oceanic primary productivity and fish biomass, from which future trends will be better predicted.

Direct outputs from the ocean resulting from ocean productivity have been valued at $6.9trn, while that of the capacity of the oceans to absorb C is $4.3trn. The uncertainty in how climate change will impact these roles is large and needs further scientific and economic evaluation. BIOPOLE will help to address this pressing challenge for both science and society.

Funders and Participants

BIOPOLE is funded by the Natural Environment Research Council (NERC), part of UK Research and Innovation (UKRI), under the National Capability Science Multi-Centre award scheme (NC-SM2). The scheme is designed to enable a more ambitious, integrated approach to research challenges that require large-scale, long-timeline insights and more than any one National Capability (NC) provider can deliver alone. The scheme aims to bring skill sets and expertise together, to meet national science needs through more coherent and resilient delivery across NC providers and to increase NC science returns by generating new science opportunities that leverage additional benefits via other funding streams.

BIOPOLE is made up of five NC providers:

  • British Antarctic Survey (BAS)
  • National Oceanography Centre (NOC)
  • UK Centre for Ecology and Hydrology (UKCEH)
  • British Geological Survey (BGS)
  • Centre for Polar Observation and Modelling (CPOM)

BIOPOLE will address three major questions:

  1. What physical, chemical and biological processes modify nutrient balance en route from source to polar ocean ecosystem, and what are their sensitivities to climate change?
  2. What is the influence of ecosystem processes on nutrient balance and movement of carbon to depth in the polar oceans, and how may these change in the future?
  3. How may this movement of carbon to depth and the export of nutrients change in the future and what impacts will this have on global ocean fish stocks and the global carbon cycle?

 

 

A person smiling for the camera

Emma Boland

Ocean Adjoint Modeller

Polar Oceans team

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Alexander Brearley

Independent Research Fellow

Polar Oceans team

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Amanda Burson

Pelagic Ecologist

Ecosystems team

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Sophie Fielding

Zooplankton Ecologist

Ecosystems team

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Jennifer Freer

Marine Ecosystems Modeller

Ecosystems team

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Simeon Hill

Marine and Fisheries Ecologist

Ecosystems team

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Nadine Johnston

Marine Ecologist

Ecosystems team

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Dave Munday

Physical Oceanographer

Polar Oceans team

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Sally Thorpe

Ecological Modeller

Ecosystems team

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Hugh Venables

RaTS Project Manager

Polar Oceans team

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Emma Young

Ocean and Biophysical Modeller

Polar Oceans team

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Ruta Hamilton

Post - Award Programme Manager

Research Development and Support team

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Laura Taylor

PhD Student

External Collaborators

Adrian Martin – NOC centre lead (WP3 co-lead)

Bryan Spears – CEH centre lead (WP1 co-lead)

Dan Mayor – University of Exeter (WP2 executive adviser)

Stuart Painter – NOC (WP2 co-lead)

Melanie Lang – BGS centre lead

Andrew Shepherd – CPOM centre lead


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