Breakthrough development allows data to be collected from unseen parts of the ocean

The sensors are currently collecting data on Subsea7 vessels in the South Atlantic, Brazil, and further launches are planned in Norway and further afield including Australia.

BORAbox® will be part of the routine payload on commercial remotely operated vehicles (ROVs) and other infrastructure that work in areas of the oceans that are often inaccessible to scientists.

New development integrates novel sensor technology into routine offshore infrastructure and operations

BORAbox®, an integrated suite of sensors developed by NOC scientists, will measure an important aspect relating to the health of the ocean by establishing the total alkalinity – a measure of the water’s ability to resist a reduction in its pH level. 

The information gathered by the BORAbox® will feed into a global understanding of climate change and its impact on the oceans. As a result, the research will also be used to better predict how the oceans and weather systems will react over the coming decades.

This new technology allows us to dramatically increase our monitoring capabilities in areas of the ocean. By studying pH and alkalinity, we can dramatically inform future studies and help authorities around the world mitigate much more effectively the effects of climate change in the ocean.

BORAbox® will begin by monitoring temperature, salinity, depth, and the carbonate system. These are vital measurements in helping to monitor the wellbeing of the oceans. The data will be analysed by scientists where it will then be used to support further ocean observation studies and help to shape major global ocean health assessments. As the project expands with more launches from other locations, the new data represents a significant upgrade on what is presently available. Current observations may only span short distances and can often be out of date by the time it is accessible.

Data will improve the world’s understanding of changing CO₂ in the ocean, particularly in the deep sea

Around 25% of man-made CO₂ such as fossil fuel burning gets absorbed by the ocean which helps to regulate CO₂ in the atmosphere. However, too much CO₂ in the ocean can cause it to acidify and damage plant and animal habitats.

The BORA project highlights NOC’s commitment to working with key industry bodies to provide data to inform evidence-based policy, ensuring leaders are presented with the most accurate information about the state of the oceans.