| Press Release

The Artic in Transition

UK and Germany combine forces to fund crucial Arctic science

For the first time, the UK and Germany have joined forces to investigate the impact of climate change on the Arctic Ocean.
The UK’s Natural Environment Research Council (NERC) and Germany’s Federal Ministry of Education and Research (BMBF) have jointly invested almost £8 million in 12 new projects to carry out crucial research in one of the most inhospitable regions on the planet. The new projects start today and join the existing NERC Changing Arctic Ocean research programme, which aims to better understand – and predict – changes to the Arctic marine environment and ecosystems.
Two of the projects also involve scientists from the Helmholtz-Zentrum Geesthacht (HZG).

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Measuring the thickness of sea ice in the Arctic Ocean using ice drills. The research ship in the background is the RV Polarstern, a German icebreaker from the Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research. Photo: Stefan Hendricks, Alfred Wegener Institute, Germany

Climate change is having obvious and severe impacts in the Polar Regions. The Arctic is currently warming at more than double the rate of other parts of the globe, causing unprecedented change to the region’s ocean environment. The Arctic Ocean’s ecosystem is especially sensitive to warming because of its reliance on sea ice, from the algae that grow on its underside to polar bears that hunt and live on its surface. The accelerated melting of sea ice threatens the existence of the animals, plants and microbes that rely on it.

Any reduction in sea ice habitat will affect the entire food chain, including some of the most productive commercial fishing grounds in the world. Scientists don’t yet understand how these impacts are going to unfold. They need more data and improved computer models to predict the consequences. With cutting-edge science from 32 UK and German research organisations, the NERC Changing Arctic Ocean programme is helping to address these challenges.

International Arctic Research

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Sampling of biodiversity in a melt pond on Arctic Ocean sea ice. Photo: Mar Fernandez, Alfred-Wegener-Institut

UK Science Minister Sam Gyimah said: "I am proud the UK is leading the way in tackling harmful climate change and today’s announcement means world-class researchers from both the UK and Germany will now be doing vitally important work to understand changes to marine life in the Arctic Ocean.
“Through our modern Industrial Strategy we have committed to investing 2.4% of GDP on research and development to help tackle major global challenges like climate change, ensuring a better world for future generations."

Federal Research Minister Anja Karliczek emphasizes the particular importance of international cooperation in Arctic research: “What is happening in the Arctic strongly impacts global climate and therefore also us in Europe. We need research on the fast and profound changes occurring in the Arctic climate because these changes affect us all. That is why we are launching this important Arctic research collaboration with the UK and hosting the 2nd Arctic Science Ministerial in Berlin in October of this year. Together with science ministers from across the world and representatives of Arctic Indigenous peoples, we will discuss the great societal challenges facing the Arctic.” Furthermore, the MOSAiC expedition will be launched in the autumn of 2019: Under the leadership of the Alfred Wegener Institute, the German research vessel Polarstern will be lodged in Arctic sea ice for a year in order to drift with the ice across the central Arctic. This unique expedition will also involve scientists engaged in German-British collaboration.

Understanding the Arctic

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The Royal Research Ship (RRS) James Clark Ross is a supply and research ship operated by the British Antarctic Survey, and named after the English explorer James Clark Ross (1800-1862). Photo: British Antarctic Survey (https://www.bas.ac.uk/)

Professor David Thomas, Bangor University, is the Chair of the Programme’s Advisory Group and explains the role of international Arctic research in the programme: “International collaboration is essential to understand how the Arctic Ocean is responding to climate change. This concerted effort from the UK and Germany, together with other international partners such as Norway, Canada and South Korea, will combine resources, for example by deploying both countries’ polar research ships, and pooling the knowledge and expertise of scientists in both countries. “With unprecedented warming in the Arctic, this crucial research will lift the lid on the impact of climate change on the region’s marine life, and help understand how these changes could impact us closer to home.”

Twelve Research Projects

The 12 research projects span many of the effects of warming on the Arctic Ocean’s ecosystem. The disappearance of sea ice is one of the major drivers of change to the ecosystem (project Eco-Light). For example, the rapid melting of sea ice increases the release of chemical pollutants and plastic debris that are detrimental to marine life (project EISPAC) and exposes the ocean’s surface to the atmosphere to release climate-sensitive gases (project PETRA).

EISPAC
Eispac

How are nutrients, persistent organic pollutants, and microplastics distributed throughout the Arctic? How are these substances released by melting ice? And how many of them are in the water column? These are the questions that the researchers at HZG involved in the project known as EISPAC (“Effects of ice stressors and pollutants on the Arctic marine cryosphere”) are hoping to answer. The scientists would like to know how many of these substances find their way into Arctic systems – in this case, into the ice sheets and into the water – and how they influence the Artic food web. They are also investigating how these substances change in and on the ice.

This will involve several trips on the German research vessel POLARSTERN, which is used by the researchers to collect water and ice samples. Afterwards, the samples will be analysed in labs in Germany and in the UK and the data evaluated.

“The Arctic is incredibly exciting because it’s changing so fast, and because there’s hardly any direct human influence. We still don’t know very much about the factors that influence nutrient cycles there, as this region is very difficult to study. That’s why EISPAC is a great chance for us to better understand the system,” says Dr Kirstin Dähnke, lead investigator of the EISPAC project on the German side. Dähnke conducts her research at HZG in the Institute of Coastal Research’s Aquatic Nutrients department.

HZG Involvement
Dr. Kirstin Dähnke (Lead Investigator)
Prof. Dr. Ralf Ebinghaus
Dr. Tina Sanders
Dr. Zhiyong Xie

Involved institutions
CEFAS
Lancester University
University of East Anglia

Contact

Dr. Kirstin Dähnke

Biogeochemistry in Coastal Seas, Institute of Coastal Research

Helmholtz-Zentrum Geesthacht,
Centre for Materials and Coastal Research

Phone: +49 (0)4152 87-1865

E-mail contact

Sea ice retreat will also alter ocean circulation patterns in a manner that may potentially enhance the delivery of essential nutrients from the Atlantic and the Pacific and from deeper Arctic waters (projects APEAR and PEANUTS). This determines how well micro-organisms, that form the base of the Arctic food chain, can grow in the sun-lit surface waters (project Micro-ARC) or on the underside of sea ice (project Diatom-ARCTIC). Any change to where, when and how available these micro-organisms are will impact the food chain, with consequences for the very productive fishing grounds in the Arctic Ocean (projects Coldfish and MiMeMo).

MiMeMo
Mimemo

How do the consequences of climate change affect the food web in the Arctic? To find out, researchers are using computers to develop mathematical models to analyse life in the Arctic ecosystem, from the smallest organisms, microbes, to the largest life forms, the so-called megafauna. “The effects of climate change are particularly noticeable in the Arctic. The fact that the ice continues to recede due to global warming is causing fundamental changes in both the spatial and the temporal patterns of the Arctic ecosystem, as well as the composition of its food web,” says Dr Ute Daewel, principle investigator of the MiMeMo project at HZG. Dr Daewel is a scientist working at the Institute of Coastal Research in the Matter Transport and Ecosystem Dynamics department. She continues, “So with MiMeMo, our goal is to thoroughly investigate these changes using model simulations adapted for this purpose. We also hope to understand how significant the economic and societal impact of these changes will be.”

HZG Involvementg
Dr. Ute Daewel (Lead Investigator)
Prof. Dr. Corinna Schrum
Dr. Richard Hofmeister

Involved institutions
University of St. Andrews
University of Strathclyde

Contact

Dr. Ute Daewel

System Analysis and Modelling, Institute of Coastal Research

Helmholtz-Zentrum Geesthacht,
Centre for Materials and Coastal Research

Phone: +49 (0)4152 87-2821

E-mail contact
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The Arctic marine ecosystem is not isolated from changes happening on land. Warming of the Arctic region is already causing permafrost regions to thaw and freshwater runoff to the Arctic Ocean to increase. The soil nutrients and toxins released on thawing enter the Arctic Ocean and shift the nutrient balance in seawater necessary for biological productivity, as well as increasing rates of greenhouse gas emissions and ocean acidification (project CACOON). Rising temperatures are also encouraging migration of new species to the Arctic with the challenge of adjusting their biological clocks to Arctic day-lengths (project CHASE), and may cause northward displacement of Arctic species (project LOMVIA).

The Changing Arctic Ocean programme started in February 2017 with four large research projects (ARISE, Arctic PRIZE, ChAOS, DIAPOD) funded by NERC. These projects have more than 80 scientists from 18 UK research institutions. As of today, the complement of a further 12 projects co-funded by NERC and BMBF increases the programme to over 170 scientists working at 32 organisations, based in both Germany and the UK. An essential component of successful work in the Arctic is international collaboration. The programme’s scientists are working closely with Arctic teams in 15 other countries to meet the programme’s objectives. The outcomes of the programme will contribute to improving predictions of change in the Arctic of benefit to decision making at levels ranging from indigenous populations to international policy.

These new projects will carry out research complementary to the existing four projects to fulfil the scientific objectives of the programme. They are called APEAR, CACOON, CHASE, Coldfish, Diatom-ARCTIC, Eco-Light, EISPAC, LOMVIA, Micro-ARC, MiMeMo, PEANUTS, and PETRA. Full descriptions of each project are available on the Changing Arctic Ocean website (www.changing-arctic-ocean.ac.uk).

NERC


NERC is the UK's main agency for funding and managing research, training and knowledge exchange in the environmental sciences. Our work covers the full range of atmospheric, Earth, biological, terrestrial and aquatic science, from the deep oceans to the upper atmosphere and from the poles to the equator. We coordinate some of the world's most exciting research projects, tackling major issues such as climate change, environmental influences on human health, the genetic make-up of life on Earth, and much more. NERC is part of UK Research & Innovation, a non-departmental public body funded by a grant-in-aid from the UK government.
http://www.nerc.ac.uk/

Federal Ministry of Education and Research


The Federal Ministry of Education and Research (BMBF) coordinates the national marine research programme "MARE:N - Coastal, Marine and Polar Research for Sustainability" under the umbrella of the Research for Sustainable Development Framework Programme (FONA). MARE:N has formulated new joint objectives for future research funding in the coastal, marine and polar regions. The BMBF operates the German research fleet, including the research vessels POLARSTERN, SONNE, METEOR, MARIA S. MERIAN, and another twelve mid-sized and small vessels, which provide crucial information for international climate and ocean predictions. As a result, the fleet supports planning efforts for our society´s future well-being and is an integral part of the FONA programme.
https://www.bmbf.de/en/index.html