The "moment of discovery" - The location where 'chemosynthetic' shrimp and tubeworms were observed together for what scientists believe is the 1st time in the world. These animals, relying on symbiotic chemosynthetic bacteria, derive energy from chemical processes occurring at hydrothermal vents or seeps on the seafloor, unlike most other life on Earth which relies upon energy from the sun and is termed photosynthetic life.
High resolution (Credit: N.O.A.A. Okeanos Explorer Program, MCR Expedition 2011, NOAA-OER)
Ocean explorers on N.O.A.A. Ship Okeanos Explorer observed 2 species of marine life scientists believe have never before been seen together at a hydrothermal vent - chemosynthetic shrimp and tubeworms. They also observed the 1st known live tubeworms ever seen at a hydrothermal vent in Atlantic waters. The discoveries were made August 5-15 during an expedition to the Mid-Cayman Rise south of Grand Cayman Island in the Caribbean.
"On the very 1st ROV, or remotely-operated vehicle, dive, we observed abundant shrimp of a species different in appearance from other Mid-Atlantic Ridge species," said Professor Paul Tyler, Ph.D., a marine biologist from the University of Southampton in the United Kingdom who was aboard Okeanos Explorer. "These shrimp had characteristics previously seen only on shrimp containing chemosynthetic bacteria, and we identified them as such."
Close-up images showing the discovery: the top-right and bottom-left images show close-up views of the location hosting chemosynthetic tubeworms (T) and shrimp (S) containing chemosynthetic bacteria. The numerous small conical animals are gastropods (marine snails) that also appear to be associated with vent activity.
High resolution (Credit: N.O.A.A. Okeanos Explorer Program, MCR Expedition 2011, NOAA-OER)
"During the ROV's 2nd dive, we were witness to the 1st discovery of a live hydrothermal tubeworm in the Atlantic," said expedition Science Lead Chris German, Ph.D., chief scientist for the National Deep Submergence Facility at the Woods Hole Oceanographic Institution in Massachusetts. "I will take that home as my personal key discovery moment for the cruise."
The 2 discoveries blended into what German described as an even more remarkable discovery. "Not only did we see extensive tube worm communities of differing sizes and shapes across the length and breadth of a large hydrothermal vent field, but we observed for the 1st time anywhere, chemosynthetic shrimp and tubeworms inhabiting the same hydrothermal site," he said.
"The significance of these observations is that the iconic symbol of Pacific vents is the tubeworm, while the iconic symbol of Atlantic vents is the vent shrimp," added Tyler. "To find both together has important implications for the evolution of vent communities in the Caribbean as the Atlantic became separated from the Pacific some 5 million years ago."
Chemosynthetic tubeworms and shrimp are unlike most other life on Earth that are photosynthetic - relying on energy from the sun. These new hydrothermal animals, by contrast, exist on the deep and dark ocean floor where no sunlight penetrates. They derive energy instead, from chemicals that rise in the hot water of hydrothermal vents making them chemosynthetic.
Chemosynthetic bacteria living inside the tubeworms derive energy from chemicals emitted in the hot water of hydrothermal vents. This was the 1st live tubeworm seen at a hydrothermal vent location in Atlantic waters. The observation occurred during an expedition aboard N.O.A.A. Ship Okeanos Explorer conducted in August 2011.
High resolution (Credit: N.O.A.A. Okeanos Explorer Program, MCR Expedition 2011, NOAA-OER)
Tubeworms rising 6 feet from the seafloor were 1st discovered in 1977 next to hydrothermal vents in Pacific waters at the Galapagos near where the underwater tectonic plates spread. Since then, smaller tubeworms have been found at seafloor cold seeps in the Gulf of Mexico, but until this discovery, have not been observed at vents in the Atlantic.
The expedition team used a new model of telepresence-enabled ocean exploration. Few scientists and a larger number of technicians were aboard the ship, however most of the scientists were on watch or on call ashore at a network of Exploration Command Centers that are connected to the ship's sensors, systems and people in near-real time by satellite and high-speed Internet. Scientists ashore participated from centers at the University of Rhode Island and Woods Hole, and other scientists in California, Pennsylvania, Germany, Canada, Portugal and the United Kingdom participated via live video feeds and some through online instant messaging. They played a key role by identifying biological, chemical and geological features shown in ROV images or revealed in data from ocean sensors thousands of miles away.
"From the Mid-Cayman Rise, we used telepresence technology to send data including live video from the seafloor to scientists in many locations ashore where they interacted with scientists and technicians on the ship," said Kelley Elliott, NOAA's Office of Ocean Exploration and Research expedition coordinator. "This new exploration model allows scientists from different disciplines to participate from anywhere in the world no matter the location of the ship and allows the public to experience the excitement of exploration in real time."
The science team at the Exploration Command Center in Rhode Island watching video streaming from N.O.A.A. Ship Okeanos Explorer at the Mid-Cayman Rise. The console and intercom system is on the left of the image and scientists also communicated with each other, both on land and aboard ship through instant messaging.
High resolution (Credit: N.O.A.A. Okeanos Explorer Program, MCR Expedition 2011, NOAA-OER)
This expedition builds on and is collaborative with an on-going N.A.S.A. plan that in 2009 provided the 1st evidence that hydrothermal sites were awaiting discovery on the Mid-Cayman Rise. Those predictions were confirmed in 2010 with a United Kingdom expedition that obtained the 1st images of the hydrothermal vents. This 2011 expedition is also proving invaluable to a planned follow-on National Science Foundation mission in January 2012 and a United Kingdom mission early in 2013 that will focus on detailed sampling at and around many of the sites discovered during this mission.
NOAA's partners in the expedition included the University of Rhode Island; Woods Hole Oceanographic Institution; University of Southampton, National Oceanography Centre, Southampton in the United Kingdom; University of Wyoming; Duke University Marine Lab; Marine Biological Laboratory; University Corporation for Atmospheric Research; and the University of New Hampshire.
N.O.A.A. Ship Okeanos Explorer is operated, managed and maintained by NOAA's Office of Marine and Aviation Operations, which includes commissioned officers of the N.O.A.A. Corps and civilian wage mariners. N.O.A.A. OER owns and is responsible for operating and managing the cutting-edge ocean exploration systems on the vessel. It is the only federal ship dedicated to systematic exploration of the planet's largely unknown ocean.
Observing ten years of ocean exploration, N.O.A.A. OER uses state-of-the-art technology to explore Earth's largely unknown ocean in all its dimensions for the purpose of discovery and the advancement of knowledge. Expeditions are chronicled at oceanexplorer.noaa.gov, with images and logs from sea.
NOAA's mission is to understand and predict changes in the Earth's environment, from the depths of the ocean to the surface of the sun, and to conserve and manage our coastal and marine resources. Join us on Facebook, Twitter and our other social media channels.
