• The picture shows a coral landscape in the Red Sea. The corals are reddish-brown in colour and are only a few meters below the surface.

    Colorful coral diversity in the Red Sea. Anna Roik / annaroik.org

  • The picture shows microfossils (foraminifera) which look like colourful stones.

    Microfossils such as these foraminifera provide clues as to how biodiversity has changed in the past. MARUM − Zentrum für Marine Umweltwissenschaften, Universität Bremen

New concept for the protection of marine biodiversity

Climate change also affects the oceans. But how can the marine life affected by it be protected beyond the scope of national jurisdiction? A new consortium of researchers including scientists from Oldenburg is investigating this.

Man-made climate change knows no limits. The AGELESS Consortium explores the question of how marine life affected by climate change can be protected in the ocean beyond the areas of national jurisdiction. The interdisciplinary team of scientists from the University of Oldenburg, the Helmholtz Institute for Functional Marine Biodiversity at the University of Oldenburg, MARUM – Center for Marine Environmental Sciences at the University of Bremen and the Friedrich-Alexander-Universität Erlangen-Nürnberg is funded by the Federal Ministry of Education and Research with 2.5 million euro over three years.

 

The open ocean, which, for the most part, lies outside of national jurisdictions is just as severely impacted by climate change as are Nationally regulated coastal waters. With the new international Agreement on Biodiversity of Areas Beyond National Jurisdiction (BBNJ), a framework for nature conservation and the regulation of interventions in the international waters of the open ocean has been under development since 2023. But how can anything be protected in areas outside of national jurisdiction? How can marine protected areas be managed in a rapidly changing ocean?

This is where the AGELESS project comes in, as a continuation and expansion of the already successful cooperation between the University of Oldenburg and the MARUM – Center for Marine Environmental Sciences at the University of Bremen: Partners at the Helmholtz Institute for Functional Marine Biodiversity at the University of Oldenburg (HIFMB) and at the Friedrich-Alexander-Universität Erlangen-Nürnberg (FAU) have joined the project. Researchers from Oldenburg and Bremen have already been engaged with the themes of the BBNJ agreement as part of the work of the German Research Foundation's Senate Commission on Fundamental Issues of Biological Diversity. They have also carried out fundamental research using palaeoecological data as part of the Cluster of Excellence “The Ocean Floor – Earth's Uncharted Interface”, thus contributing to our understanding of the current rapidly changing biodiversity in the sea.

Tiny fossils provide a glimpse into the history of the oceans

The study of tiny microfossils that are deposited on the ocean floor over decades and millennia allows a unique glimpse into the history of the oceans and their inhabitants. Based on the ways in which fossil communities have spread, the researchers are able to understand how individual species and even entire ecosystems have reacted to environmental changes in the past. AGELESS wants to use such data from the past to develop concepts for protecting the ocean of tomorrow. This makes the project complementary to the research of the Cluster of Excellence. In addition to paleoclimate research and paleoecology studies, scientists will incorporate aspects of theoretical ecology, nature-conservation planning, and governance research.

Geological knowledge can be applied in the cause of environmental protection

“Such a combination of professional disciplines is unique and forward-looking,” says the coordinator of the consortium, Professor Michal Kucera from Bremen. “Cooperation crossing the traditional boundaries of specialty fields will make it possible to directly apply insights from the geological past to our efforts toward environmental protection.”

The project is designed to be interdisciplinary and transdisciplinary. The resulting data and models that reflect how biodiversity has changed in response to climate change will be presented in such a way as to provide comprehensible information for political decision-makers.

The Federal Ministry of Education and Research (BMBF) is funding the project with 2.5 million euros over a three-year period beginning in September 2024. During this time, the researchers will compile large datasets, involve experts and stakeholders, analyze time series of planktonic microfossils response to past ocean change and develop models based on this data. From this fundamental knowledge they will make concrete suggestions on how biodiversity in the high seas can be effectively protected in times of climate change.

“We are using a Co-design approach and have already contacted international and national interest groups,” explains Professor Helmut Hillebrand of the Institute for Chemistry and Biology of the Marine Environment at the University of Oldenburg. Co-design is a participatory process in which stakeholders are involved in the project from the beginning in order to refine the research questions and define possible products in dialog workshops. “A total of four projects on this topic will be funded by the BMBF. Employing a joint dialog strategy, these will ensure that the results of the project can have an impact.”

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