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Fieldwork

Life in the Abyss



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It was the broad extent of mussels covering the seafloor that immediately struck scientists as remarkable. A bright orange crab scuttled over the bed of mussels, and a rockling fish rested in a small crevice between clusters of shells. Nearby, seep-associated shrimps (alvinocarids) swam around the actively venting and bubbling methane at several crevices and cracks in the seafloor.

A lithodid crab seen on a bed of deep-sea mussels
Above: A lithodid crab seen on a bed of deep-sea mussels living near a gas seep 1,600 meters below the surface of the Atlantic Ocean. Image courtesy of Deepwater Canyons 2013 – Pathways to the Abyss expedition, NOAA Office of Exploration (NOAA-OER)/Bureau of Ocean Energy Management (BOEM)/USGS. [larger version]

This was the scene first glimpsed by humans on May 8, 2013, at one of only a few gas seeps known to exist on the U.S. Atlantic outer continental shelf north of Cape Hatteras. Roughly a mile below the ocean surface, the seep is located just south of Norfolk Canyon, one of several deepwater canyons found about 70 miles or more east of Virginia and Maryland. Scientists encountered it while on an expedition aboard the National Oceanic and Atmospheric Administration (NOAA) Ship Ronald H. Brown, as they explored the floor of the canyon with Woods Hole Oceanographic Institute’s remotely operated vehicle (ROV) named Jason 2.

The team was working on Deepwater Atlantic Canyons, a project jointly funded by the U.S. Geological Survey (USGS), Bureau of Ocean Energy Management (BOEM), and NOAA. They decided to search out this location after the NOAA Ship Okeanos Explorer mapped the seafloor in the vicinity of Norfolk Canyon last November with multibeam sonar. Sonar is used to identify possible hard-bottom habitats, which are often “hotspots” of deep-sea life. At this site, a trail of continuous bubbles rising from the seafloor to the ocean surface provided a tell-tale sign of a gas seep (http://www.noaanews.noaa.gov/stories2012/20121219_gas_seeps.html) and raised questions about whether it supported a living community.

A vast new community

Visually, the community was dominated by Bathymodiolus mussels (https://deepwatercanyons.wordpress.com/2013/05/18/mussel-identification-or-a-bathymodiolin-mussel-by-any-name/), a type of mussel known from cold seeps and hydrothermal vents that harbor symbiotic bacteria in their gills that convert seeping chemicals to food. These bacteria were so dense they formed “mats”—a dense, dull gray carpet visible amongst the mussels. The clusters of Bathymodiolus mussels included different sizes, suggesting there may be both adults and juveniles present. The full spatial extent of the community has not been estimated, but initial observations suggest it is among the largest known cold seep-supported communities in U.S. waters.

Methane gas bubbles rise from the seafloor Remotely operated vehicle Jason 2 sampling a sea urchin in a deep-sea mussel community
Above Left: Methane gas bubbles rise from the seafloor—this type of activity, originally noticed by NOAA Ship Okeanos Explorer in 2012 on a multibeam sonar survey, is what led scientists to the area. Image courtesy of Deepwater Canyons 2013 – Pathways to the Abyss expedition, NOAA-OER/BOEM/USGS. [larger version]

Above Right: Remotely operated vehicle Jason 2 sampling a sea urchin in a deep-sea mussel community found near a gas seep on the U.S. outer continental shelf. Image courtesy of Deepwater Canyons 2013 – Pathways to the Abyss expedition, NOAA-OER/BOEM/USGS. [larger version]

At cold seeps, fluids and gases such as methane are emitted from the seafloor. Not all gas seeps support living communities, making the May 8th discovery a novel find. Unlike familiar terrestrial food webs based on the sun’s energy, seeps can support food webs based on chemical energy—known as “chemosynthetic” communities. To investigate this one, scientists collected samples of the mussels and smaller animals on the seafloor, as well as the long filaments of bacteria attached to them. In two dives with the ROV, they collected samples from active and inactive areas of the seep region—including water samples, living and dead mussel shells, bacterial mats, and invertebrates. They are still sorting and identifying the samples, and it is not yet clear whether all these species are known to science.

Scientists also took cores of nearby mud, which hosts small, hard-to-see invertebrate animals that are an important part of deep-sea food chains, to conduct tests that help them link different parts of the food web together. Next, researchers trawled nearby for fish and other life forms that live in proximity to the seep site. The data will help them piece together the site’s food web and test the extent to which methane, sulfur, and other energy sources support life in and around the seep.

Several species known from other cold seeps appear to be absent. Missing from view were the large tubeworm colonies and deep-sea clams (vesicomyids) known to occur at other seeps, including Atlantic seeps found in even deeper water offshore of the Carolinas at Cape Fear and Blake Ridge Diapirs. Microbial life at this seep site may also differ as much as the more visible life forms. Preliminary analysis of samples collected last summer from nearby Baltimore Canyon suggests that the bacterial mats of Atlantic deep-water canyon seeps may be different from those found in the Gulf of Mexico.

Mile-deep mission

The May 2013 expedition—dubbed “Pathways to the Abyss”—included a multi-organizational science team. The team included researchers from BOEM; NOAA; USGS; University of North Carolina at Wilmington; Florida State University; CSA Ocean Sciences, Inc.; Woods Hole Oceanographic Institution; Texas A&M University; Netherlands Institute of Sea Research; Oregon Institute of Marine Biology; University of Rhode Island; University of Louisiana at Lafayette; and Bangor University.

NOAA Ship Ronald H. Brown
Above: National Oceanic and Atmospheric Administration (NOAA) Ship Ronald H. Brown. Image courtesy of Walt Gurley, Deepwater Canyons 2013 Expedition, NOAA-OER/BOEM/USGS. (From http://deepwatercanyons.wordpress.com/) [larger version]

Most of the team members (see list at http://oceanexplorer.noaa.gov/explorations/13midatlantic/background/explorers/explorers.html) have worked on deep-sea ecosystems in the Gulf of Mexico (http://pubs.usgs.gov/of/2012/1032/), where their partnership won them an award from the National Ocean Partnership Program (http://soundwaves.usgs.gov/2012/12/awards.html). Collaboration is an important way to lower the costs of such challenging scientific discoveries—challenges so difficult they have been compared to space exploration—by allowing scientists to leverage resources and skills. They also share intimately in the process of scientific discovery with complementary scientific expertise. Scientists on board oversee separate, yet closely intertwined, studies that enable them to piece together the complex ecology of these unique deep-sea chemosynthetic ecosystems from the jigsaw puzzle of individual research questions.

The USGS mission on this expedition is to advance understanding of the Nation’s deep-sea ecosystems—including the mysterious new community found this month. Four USGS scientists—Amanda Demopoulos, Christina Kellogg, Cheryl Morrison, and Nancy Prouty—are heading up projects on this expedition looking at life in sediments, food-web connectivity, microbial ecology (http://pubs.usgs.gov/fs/2011/3102/), genetic connectivity, and paleobiology.

By comparing the communities from the recent discovery to other seeps, scientists will be able to place this new community into a broader ecological context. Bacterial mats and sediments can all provide important information about the source of energy in these food webs. Mussel shells can be used to analyze how past environmental conditions and energy sources have changed or fluctuated over time, while their soft tissues can be used to genetically identify species and their bacterial symbionts. One critical question is whether—and how—they are related to those found elsewhere in the Atlantic and Gulf of Mexico. These studies will strengthen our understanding of how life in these communities survives, reproduces, disperses, and interacts with other communities in the deep sea. This provides information on their sustainability and resilience to disturbances that can be used by decision-makers to develop future policies for their management.

Read daily logs from the expedition at these two websites:
http://oceanexplorer.noaa.gov/explorations/13midatlantic/
http://deepwatercanyons.wordpress.com/

[The expedition team observed a fascinating array of deep-sea creatures and communities, many of them described in the logs cited above. One of those logs is reprinted in this issue, in the article “Coral Gardens: Forests of the Deep, Mission Log, May 11, 2013,” http://soundwaves.usgs.gov/2013/06/fieldwork3.html.]


Related Sound Waves Stories
USGS Scientists on Team Honored by Excellence in Partnering Award
Nov. / Dec. 2012
Coral Gardens: Forests of the Deep
May / June 2013
Scientists Cruise Deep into Coral Ecosystems
December 2009

Related Websites
Life in the Abyss
USGS Blogs
NOAA explorers discover deepwater gas seeps off U.S. Atlantic coast
NOAA
Mussel Identification, or A Bathymodiolin mussel by any name…
North Carolina Museum of Natural Sciences
Deepwater Canyons 2013: Explorers
NOAA Ocean Explorer
Deepwater Program Open-File Report 2012-1032
USGS
Microbial Ecology of Deep-Water Mid-Atlantic Canyons
USGS

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in this issue:

Research
cover story:
BOBSled Underwater Camera Records HD Video of Seafloor

Study Shows Sea Turtles Benefit from Protected Areas

Fieldwork
Seafloor Sampling off Massachusetts

Life in the Abyss

Coral Gardens: Forests of the Deep - Mission Log

Meetings
Spring 2013 Monterey Bay Marine GIS User Group Meeting

Awards
U.S. Extended Continental Shelf Project Team Receives Superior Honor Awards

USGS a Big Winner in National Association of Government Communicators Awards

Publications May / June 2013 Publications

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