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Wellington study could improve worldwide access to coastal freshwater

NIWA

For the first time, NIWA used several techniques to the Waiwhetu Aquifer. This is a reservoir of drinking water that lies beneath the Hutt Valley and Wellington Harbour, and it releases freshwater from deep under the seabed via natural springs.

NIWA Marine Geoscientist Dr Joshu Mountjoy designed the study. He said it was motivated by the lack of knowledge about large coastal aquifers around New Zealand, with Wellington Harbour being the perfect test site.

“Up to 70% of Wellington’s drinking water comes from the Waiwhetu Aquifer. A lot of work has been done over the years to understand where the aquifers are and where the freshwater is, but until now, we didn’t know where in the seabed the freshwater was leaking through.

“Due to Wellington’s vulnerability to earthquakes, ensuring access to drinking water is a priority in case a source is cut off or damaged, and the Waiwhetu Aquifer is a critical resource for our resilience,” said Dr Mountjoy.

Natural freshwater springs are located in the ocean as well as on land. They provide a window into submarine aquifers but finding them is challenging.

To bypass costly drilling, NIWA showed that other techniques can be harnessed to track ocean-based freshwater springs and sample the water, helping scientists to understand a huge amount about submarine aquifers.

“We used every tool we had available to understand the nature of these natural springs, including acoustic measurements, seafloor samples, remotely operated vehicles, and seawater sampling. We wanted to see which techniques worked best with a mind to apply them to other locations in the future,” said Dr Mountjoy.

Through many novel methods, NIWA recorded video footage and acoustic soundings of freshwater flowing out of various pockmarks in the Harbour. There are several hundred of these, the largest of which are over 100m across.

“We managed to create a detailed map of freshwater springs in the Harbour, which will be important for managing the aquifer as a drinking water resource for Wellington.

“We can start applying the techniques we used here to find freshwater leaking out of other aquifers, such as in Marlborough, Canterbury, and Hawke’s Bay. These are barely understood beyond the coastline but are vitally important.

“We are at the beginning of understanding offshore groundwater systems around the world, which that might be the most important resource some countries have. The implications are huge, especially for drought prone and water scarce areas,” said Dr Mountjoy.

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