Scientists discover new species in one of world's deepest ocean trenches
Scientists investigating in one of the world鈥檚 deepest ocean trenches -- previously thought to be void of fish -- have discovered an entirely new species.
The findings by a team of marine biologists from Aberdeen, Tokyo and New Zealand, have shed new light on life in the deepest places on Earth and the global distribution of fish in our oceans.
The expedition to the Peru-Chile trench in the South East Pacific Ocean revealed a new species of snailfish living at 7000m, never before caught or captured on camera.
Mass groupings of cusk-eels and large crustacean scavengers were also discovered living at these depths for the first time.
During the 3 week expedition on the research vessel Sonne, the team of scientists employed state-of-the-art deep-sea imaging technology, including an ultra-deep free-falling baited camera system, to take a total of 6000 images between 4500 and 8000 metres deep within the trench.
The expedition is the seventh to take place as part of HADEEP 鈥 a collaborative research project between the University of Aberdeen鈥檚 Oceanlab and the University of Tokyo鈥檚 Ocean Research Institute, with support from New Zealand鈥檚 National Institute of Water and Atmospheric research institute (NIWA).
The HADEEP team has been investigating extreme depths across the globe for 3 years. Their findings to date have included capturing the world鈥檚 deepest fish on camera for the first time.
These latest discoveries provide a new insight into the depths at which fish survive and the diversity of populations which could exist in the deepest points of oceans across the globe.
Dr Alan Jamieson from the University of Aberdeen鈥檚 Oceanlab, who led the expedition said: 鈥淥ur findings, which revealed diverse and abundant species at depths previously thought to be void of fish, will prompt a rethink into marine populations at extreme depths.
鈥淭his expedition was prompted by our findings in 2008 and 2009 off Japan and New Zealand where we discovered new species of snailfish known as Liparids - inhabiting trenches off Japan and New Zealand at depths of approximately 7000m 鈥 with each trench hosting its own unique species of the fish.
鈥淭o test whether these species would be found in all trenches, we repeated our experiments on the other side of the Pacific Ocean off Peru and Chile, some 6000 miles from our last observations.
鈥淲hat we found was that indeed there was another unique species of snailfish living at 7000m 鈥 entirely new to science, which had never been caught or seen before.
鈥淎 species of cusk-eel - known as Ophidiids - also gathered at our camera and began a feeding frenzy that lasted 22 hours - the entire duration of the deployment.
鈥淔urther research needs to be conducted to decipher whether this is also an entirely new species of cusk-eel that we have discovered.
鈥淥ur investigations also revealed a species of crustacean scavengers - known as amphipods - which we previously did not know existed at these depths in such great numbers.
鈥淭hese are large shrimp-like creatures of which one particular group, called Eurythenes, were generally far larger and occurred much deeper in this trench than has ever been found before.鈥
Dr Niamh Kilgallen, an amphipod expert from NIWA said:鈥漈he sheer abundance of these big amphipods was overwhelming, particularly at 7000 and 8000m, which is much deeper than they have been found in any other trench. It begs the question of why and how they can live so deep in this trench but not in any other.鈥
Dr Toyonobu Fujii, a deep-sea fish expert from the University of Aberdeen said 鈥淗ow deep fish can live has long been an intriguing question and the results from this expedition has provided deeper insight into our understanding of the global distribution of fish in the oceans.鈥
Dr Jamieson added: 鈥淭hese findings prompt a re-evaluation of the diversity and abundance of life at extreme depths. Furthermore, it is now apparent that each of the deep trenches across the globe hosts a unique assembly of animals which can differ greatly from trench to trench. The immense isolation of each trench draws parallels with island evolution theory popularised by Darwin鈥檚 finches.鈥
Provided by University of Aberdeen
