The European Consortium for Ocean Research Drilling (ECORD) has issued a press release following the conclusion of its onshore sampling phase of sediment cores retrieved from deep below the sea floor during the IODP³-NSF Expedition 501 off the New England coast last year, an international scientific expedition previously reported on by the Project RESources in Coastal groundwater Under hydroclimatic Extremes (RESCUE).
Cristina Corradin (National Institute of Oceanography and Applied Geophysics – OGS), who is a researcher on RESCUE, a groundbreaking project funded by Water 4 All and co-funded by the European Union, was part of the international sampling team in Bremen.
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ECORD Press Release:
Bremen, Germany, February 4 2026
International team provides first detailed evidence of long-suspected hidden fresh water aquifers
For the first time, a science team directly documented and extensively sampled a freshened water system beneath the ocean floor. This major discovery comes from the initial analyses of sediment cores recovered during an international scientific expedition led by Co-Chief Scientists Professor Brandon Dugan (Colorado School of Mines, Golden, USA) and Professor Rebecca Robinson (Graduate School of Oceanography, University of Rhode Island, USA). The cores, retrieved from deep below the sea floor, are now being opened, analysed and sampled by the science team, during almost a month of intensive collaborative work at the University of Bremen. During January and February 2026 the expedition’s scientists are working side by side to uncover new insights into the formation, evolution, and significance of this newly documented subseafloor freshwater system.
The goal of this expedition went far beyond collecting sediment cores. Scientists also set out to sample the water stored within the sediments, including from sandy layers that act as aquifers and from clay layers that usually keep the water in place beneath the seafloor, known as aquitards. Although roughly 70 per cent of Earth’s surface is covered by water, significant volumes of water also move and are stored below ground. Many coastal communities depend on land-based aquifers for their freshwater supply. What fewer people realize is that, in many parts of the world these aquifers continue offshore, containing zones of freshened, slightly briny water beneath the ocean floor. Scientists have known these offshore systems existed since 1976, but they have remained virtually unexplored until now. During this expedition, the science team successfully documented and sampled freshened water within a zone nearly 200 metres thick below the seafloor.
Brandon Dugan: “We were excited to see that freshened water exists in multiple kinds of sediments – both marine and terrestrial. Freshened water in such different materials will help us understand the conditions that emplaced the water.” Further analyses that are conducted by the science team will help to find out where and especially when the water was placed here.
Rebecca Robinson: “The cores contain sediment with a wide range of composition and ages. It was surprising to see sediment, not rocks, throughout the section. The sediment has not yet transformed into rock – I did not expect to see that and it will be an interesting component of our future work.” In order to understand when and how the sediments were deposited, the science team is developing age models.
Shedding light on similar water aquifers around the world
The approach used during IODP³-NSF Expedition 501 will not only deepen understanding of offshore freshened groundwater systems off the coast of New England, but will also shed light on similar hidden water aquifers around the world. Because many coastal regions rely on groundwater for their freshwater supply, the expedition’s initial findings are highly relevant to society. The research will also reveal how nutrients such as nitrogen cycle through continental shelf sediments and how these processes influence the abundance and diversity of microbes living in these environments. These goals align closely with the 2050 Science Framework for Ocean Research Drilling – one of the foundations of the IODP³ scientific programme. Ultimately, the expedition’s research will help to decipher how sediments and fluids cycle through the Earth system and improve our knowledge about sea level changes and freshwater flow beneath the seabed along our coastal shelves. “The researchers will continue to work on and with the samples to decipher more – for example, to date the groundwater more accurately which is critical to advancing our knowledge,” adds Rebecca Robinson.
The expedition is a joint collaboration between the International Ocean Drilling Programme (IODP³) and the US National Science Foundation (NSF). The cores were retrieved during offshore operations between May and August 2025. For onshore operations the science team have met at the Bremen Core Repository, at MARUM – Center for Marine Environmental Sciences of the University of Bremen (Germany). “We greatly appreciate being able to conduct this advanced research at MARUM, supported by its world-class laboratories, exceptional facilities, and dedicated staff,” adds Brandon Dugan
The cores will be archived and made accessible for further scientific research for the scientific community after a one year-moratorium period. All expedition data will be open access in the IODP³ Mission Specific Platform (MSP) data portal in PANGAEA, and resulting outcomes will be published.
International approach
40 science team members from 13 nations (Australia, China, France, Germany, India, Italy, Japan, Netherlands, Portugal, Sweden, Switzerland, United Kingdom, USA) take part in this Mission Specific Platform expedition that consists of two phases: offshore and onshore operations. Offshore Operations has taken place between May and early August 2025.
The expedition is conducted by the European Consortium for Ocean Research Drilling (ECORD) as part of the International Ocean Drilling Programme (IODP³), funded by IODP³ and the US National Science Foundation (NSF).
More Information:
About the expedition – https://www.ecord.org/expedition501/
Scientific Prospectus – https://iodp3.org/documents/expedition-501-scientific-prospectus/
About the international research collaboration – https://iodp3.org/about/
About the European part of the program – https://www.ecord.org/
and Mission-Specific Platform expeditions – https://www.ecord.org/expeditions/msp/concept/
Frequently Asked Questions – https://expedition501.wordpress.com/2025/02/19/faq1/Offshore
Contact:
IODP³-NSF Expedition 501 Co-Chief Scientists:
Professor Brandon Dugan
Colorado School of Mines, Golden (USA)
Email: dugan@mines.edu
Professor Rebecca Robinson
Graduate School of Oceanography, University of Rhode Island (USA)
Email: rebecca_r@uri.edu
IODP³-NSF Expedition 501 Operations:
Dave McInroy
ECORD Science Operator
British Geological Survey (UK)
Email: dbm@bgs.ac.uk
ECORD Communications:
Ulrike Prange
ECORD Science Operator – Outreach and Media Relations
MARUM – Center for Marine Environmental Sciences
University of Bremen (Germany)
Email: uprange@marum.de
IODP3 Mission Statement
To advance scientific understanding of Earth’s processes and history by exploring and monitoring the subseafloor, unlocking insights into climate change, geohazards, the deep biosphere and Earth system evolution through international collaboration, cutting-edge technology, and open data sharing.
The International Ocean Drilling Programme (IODP³) is committed to fostering global scientific cooperation, building capacity across nations, and promoting responsible stewardship of our planet’s oceanic resources for the benefit of future generations.
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RESCUE aims to build knowledge on offshore and deep onshore low salinity aquifers in European coastal areas, to evaluate novel freshwater resources, and help secure a steady supply of water to both population and industry, in times of hydroclimatic extremes.
Led by the University of Trieste (UNITS), RESCUE’s objective is to help establish the foundations for the evaluation of new resources for local and regional policy makers, while the global applicability of the outputs will allow upscaling to Europe-wide or other large areas worldwide, where water is needed. The Consortium of the 36-month long project, which began in March 2024 and ends in February 2027, also includes Ruden AS, University of Derby (UoD) and University of Malta (UM).
