Missing Ocean Monitoring Instrument Found After Five Years At Sea
After going missing on Christmas Day five years ago, deep ocean
measuring equipment belonging to the UK’s National Oceanography Centre
(NOC) has just been found on a beach in Tasmania by a local resident
after making an incredible 14,000 km journey across the ocean.
In 2011, this deep-ocean lander instrument was deployed by NOC
scientists in the northern Drake Passage, which is a narrow section of
the ocean between South America and Antarctica. Measuring ocean bottom
pressure here helps provide information on the Antarctic Circumpolar
Current, which is the largest ocean current in the world. The instrument
was due to spend two years collecting data at a depth of 1100 metres,
before being recovered on Christmas Day in 2013 by a research expedition
on the Royal Research Ship (RRS) James Clark Ross, operated by British Antarctic Survey.
However it did not return to the surface as planned for reasons that
are not clear, possibly due to something getting tangled up with the
release mechanism.
After being presumed lost, the deep ocean instrument frame was
discovered washed up on a beach on the western tip of Tasmania. After
being made aware of the find, the manufacturers were able to use the
serial numbers on two of the sensors on the frame to trace the NOC as
the owners and contact them.
The instruments, frame and data sensors have now been removed from the
beach as a result of a collaboration between the finder of the
instrument, the NOC, the Commonwealth Scientific and Industrial Research
Organisation (CSIRO) and the Integrated Marine Observing System (IMOS)
based at the University of Tasmania, in Hobart. The process of removal
from the beach took several trips over a number of days, and the data
sensors have now been taken to CSIRO where a team have managed to
successfully recover some of the information. It is hoped that a
scientific analysis of the recovered data will soon provide further
insights into this remarkable journey.
This instrument was developed by a team of scientists and engineers at
the NOC to measure sea level by means of precision pressure sensors, as
well as monitoring salinity and temperature.
Professor Ed Hill, Executive Director of the NOC, said “Finding this
instrument is like an early Christmas present. The Antarctic Circumpolar
Currentis key to understanding the dynamics of the global ocean, so
these sustained observations are incredibly important. There is no
better place to make these observations than the narrow Drake Passage,
which is why this instrument was deployed there before it made its epic
journey to Tasmania.
The Antarctic Circumpolar Currentis three times bigger than the Gulf
Stream and connects all three major ocean basins, transporting heat and
carbon between them. In addition, it circulates around the whole of
Antarctica, keeping warm ocean waters away. This allows the Antarctic
continent to maintain its hugeice sheet.
The NOC’s sustained observing of the Antarctic Circumpolar Currentis an
important part of our on-going commitment to improve understanding of
future environmental change, as well as the relationship between oceans
and climate.”
Although the research project that this instrument was originally
deployed for has now finished, research and annual measurements along
the Drake Passage are continuing at the NOC. Currently they are
conducted as part of the Ocean Regulation of Climate by Heat and Carbon Sequestration and Transports
(ORCHESTRA) long term science programme. Funded by the Natural
Environmental Research Council (NERC), this programme aims to use
measurements of the Antarctic Circumpolar Current, alongside computer
simulations, to radically improve scientific understanding of the
circulation of the Southern Ocean and its role in the global climate.
This programme has a particular emphasis on the way the Southern Ocean
absorbs and stores heat and carbon.