Uncharted territory

Doctors Phil Hosegood and Kate Adams' research trip to one of the most diverse and abundant ecosystems on the planet, the Chagos Archipelago
Image courtesy of Daniel Fernando, Manta Trust

Uncharted territory

Doctors Phil Hosegood and Kate Adams' research trip to one of the most diverse and abundant ecosystems on the planet, the Chagos Archipelago
Image courtesy of Daniel Fernando, Manta Trust

Five hundred kilometres south of the Maldives, in the heart of British Indian Ocean territory, youñޙll find the Chagos Archipelago.

Home to the largest ñޘno-takeñޙ Marine Protected Area in the world, spanning an area the size of France, it is famed for the pristine coral reefs that fringe the 60 or so islands and a diverse marine ecosystem, most notably the sharks and rays that provide the National Geographic glamour. But very little is known about the oceanography of the region and the reasons it supports such an abundance of marine life.

So when two academics in the School of Biological and Marine Sciences were presented with an opportunity through the Marine Institute to join a select group of scientists on a research trip funded by the Bertarelli Foundation and the Foreign and Commonwealth Office, they were only too happy to sign up.

ñޜAt the risk of cliché, this was a once-in-a-lifetime opportunity to visit an uncharted territory and be the first to collect a continuous time-series of measurements,ñޝ said Dr Phil Hosegood, Lecturer in Physical Oceanography. ñޜWe know so very little about the oceanography of this pristine environment, so this was a chance to begin to build an understanding of how physical processes like ocean currents are contributing to one of the most diverse and abundant ecosystems on the planet.ñޝ

Phil, and Dr Kate Adams, a postdoctoral researcher who joined the University from Oregon State in October 2014, flew out in January to join 12 scientists from a new Chagosfocused research consortium represented by a range of international organisations such as the Zoological Society of London and the University of Western Australia ñޓ each researching a different scientific discipline, from acoustic mapping of zooplankton to manta ray tagging. They then departed from the United Statesñޙ military base Diego Garcia on their ñޘresearch vesselñޙ ñޓ the patrol ship that monitors the area for illegal fishing.

ñޜThe biggest challenge was that the ship was not designed for research,ñޝ said Kate. ñޜPhil and I were working underneath the exhaust stacks and next to the welding table, so we were dealing with 40 degree heat and having to wear ear plugs.ñޝ
ñޜIt was nothing that a few ratchet clamps and cable ties couldnñޙt fix,ñޝ added Phil. ñޜAnd while it was certainly a challenge to work around so many other people, we often had the run of the ship at night and received tremendous support from the shipñޙs crew.ñޝ

Itñޙs wonderful that researchers from the Marine Institute in ñ, a city of which I have fond memories, were able to join this expedition.

Weñޙre delighted that Phil and Kate are both furthering our knowledge of Chagos ñޓ one of the worldñޙs most incredible places ñޓ and helping to protect the oceans for future generations.
Ernesto Bertarelli, Chair of the Bertarelli Foundation
Doctor Phil Hosegood and Doctor Kate Adams, Marine Institute researchers who took part in a research trip to the Chagos Archipelago.

While collecting measurements throughout the archipelago, they were especially interested in the edge of a seamount, a 100-metre deep area where previous measurements have shown huge aggregations of fish and an abundance of sharks. They deployed a range of sensors and acoustic devices to measure water currents, temperature, salinity and turbulence to identify the processes responsible for creating such a rich and abundant ecosystem over the seamount.

This included a Minibat ñޓ a vehicle towed behind the boat that undulates between the surface and a programmed depth ñޓ which helped them look for evidence of periodic ñޘup-wellingsñޙ of cold, nutrient-rich water from the deep ocean onto the seamount plateau, where the sunlight might trigger photosynthesis and plankton blooms. They also used the holographic camera designed by colleague Dr Alex Nimmo-Smith to visualise zooplankton in the water, the results of which provided insight on the feeding habits of the manta rays.

"We had the opportunity to get into the water and help the Manta Trust with the tagging and filming that they were doing,ñޝ said Kate. ñޜThey successfully tagged five, and added 26 to their index through photo identification. And swimming with mantas was a truly awesome experience. They seemed completely unfazed by our presence and were sometimes just an armñޙs reach away. The mantas would emerge from the deep water, swim to within a metre or two of the surface, then roll backwards and continue rolling like this over and over again while they filtered the plankton.ñޝ

And it was not just manta rays that they had a close encounter with ñޓ there were some other, toothier species as well.

ñޜBeing with sharks was great from my perspective,ñޝ said Phil. ñޜIñޙd never swum with them before but I approached it as though I was dealing with a dog ñޓ donñޙt be nervous and if in doubt, swim hard at them to scare them off!ñޝ

They also had the opportunity to visit some of the islands and learn more about their history, including seeing the remains of buildings used by the Chagossians before they were ñޘevacuatedñޙ in the 1970s and relocated thousands of miles away. As is the policy for such cruises, a Chagossian descendant was on the trip with them.

ñޜIt was very eerie,ñޝ said Phil. ñޜThe buildings are still there, slowly being reclaimed by nature, and housing only these huge coconut crabs. Hopefully the body of work that comes out of this trip ñޓ and weñޙre currently writing a number of research papers ñޓ will go towards developing a better understanding of the impact of the MPA, so that the future of the islands can at least be discussed in a more informed manner from an ecological perspective.ñޝ

Phil is now writing proposals to NERC to undertake further research in the Indian Ocean, and following the success of this expedition, the marine physics teamñޙs capability will be part of discussions on how ñ University can support a long-term international programme of research in Chagos.