Scientists
Use Ocean Listening Curtains to Track Tagged
Animals
HALIFAX, Nova Scotia, Canada, July 3,
2006 (ENS) -
Ocean scientists from around the world have
plans to surgically insert electronic tags into
thousands of ocean animals and follow them with
extensive arrays of acoustic receivers on the
sea floor. Deployed in all major oceans, the
receivers will scan the tags the way bar codes
on products are scanned at a store check-out.
Winding up a four day conference at at
Dalhousie University on Friday, the scientists
of the Canadian-led Ocean Tracking Network said
they plan an interconnected network of receivers
that spans 14 ocean regions - in the Arctic and
Southern Oceans, the Indian Ocean, the Atlantic,
the Mediterranean, and the Pacific.
"Every fish, every pelagic animal is a
submarine and we have much to learn by
electronically harvesting information about
their movements," says professor of biology
Dr. Ron O'Dor, who heads the Dalhousie based
Ocean Tracking Network, which hosted the
meeting. "Today we know less about our
marine life - how these animals live, where they
go - than we know about the back side of the
moon."
Tags implanted in the animals' abdomens send
out unique signals, which are picked up by
receivers placed on the ocean floor. (Photo
courtesy POST)
D'Or also serves as a senior scientist with the
10 year long Census of Marine Life. Through
2010, scientists worldwide will work to quantify
what is known, unknown, and what may never be
known about the world's oceans. More than 1,000
scientists from 70 countries are involved in the
Census
of Marine Life, of which the Ocean Tracking
Network is a part.
"Revolutionary new technologies open the
path not just to smarter fisheries management,
to better sea life conservation measures, and to
the potential of abundant and sustainable stocks
of commercial fish, they will also provide
scientists with a massive increase in
observations of rapidly shifting marine
conditions in this era of climate change,"
says D'Or.
The global research network aims to address
problems such as climate change, ocean modeling
and marine living resource management using
listening curtain technology.
The scientists are implanting the tagging
devices, ranging in size from an almond to a AA
battery, in fish and marine mammals. As the
animals move, the tags collect and report
information on their location and on the water
temperatures, salinity and light conditions they
encounter at various depths and locations.
Depending on the type of tag used, the data
is captured when an animal surfaces, sending the
archived data to a satellite, or when it passes
one of many acoustic receivers arrayed on the
ocean floor along the coastal shelf. Or the data
can be read when an animal is caught again.
A pilot array has been demonstrated by the
Pacific Ocean Shelf Tracking (POST) Project
based in Vancouver, British Columbia, working
since 2004 as part of the Census of Marine Life.
The acoustic receivers used in POST's
2004/2005 demonstration phase are lined up ready
to be deployed in the northern Strait of
Georgia, British Columbia. Each unit is equipped
with a flotation device, acoustic modem and
acoustic receiver (Photo courtesy POST)
Currently, the POST array stretches more than
1,750 kilometers (1,087 miles), from Oregon
through British Columbia to north of the Alaskan
panhandle.
The project has shown the Pacific migration
routes of young wild salmon from U.S. and
Canadian rivers. Knowing their usual travels
along marine highways helps authorities
determine when fisheries should be open or
closed to conserve endangered fish populations.
Gerry Kristianson, who chairs the POST
Management Board, says the group's vision is the
creation of "a permanent ocean telemetry
system along the Pacific coast of North
America" to serve as an open science
platform for users from governments,
universities and other agencies in Canada and
the United States.
Other scientists from around the world
attending the conference have placed tags on a
wide variety of fish species, including
sturgeon, halibut, sharks and tunas.
Researchers with the Tagging of Pacific
Pelagics (TOPP) Project based in California have
been tracking large open ocean animals with tags
that report in via satellite whenever the
animals surface.
Jointly run by Stanford's Hopkins Marine Lab,
the University of California, Santa Cruz's Long
Marine Laboratory, NOAA's Pacific Fisheries
Ecosystems Lab, and the Monterey Bay Aquarium,
TOPP also includes team members from several
countries.
Members of the Yurok Tribal Fisheries
Program in Klamath River in California release
tagged a green sturgeon that was later detected
by POST listening arrays. (Photo courtesy
POST)
TOPP scientists have tracked about 2,000
individual Pacific Ocean animals spanning 21 top
predator species, including whales, tuna,
elephant seals, seabirds, sea turtles and
sharks.
In the newly created Northwestern Hawaiian
Islands Marine National Monument, animals tagged
in the TOPP project are sending back data that
can be read online. Visit:
http://las.pfeg.noaa.gov/TOPP_recent/index.html
to see the locations of tagged mako, salmon and
blue sharks, elephant seals and California sea
lions, leatherback and loggerhead sea turtles,
and black-footed albatross.
"Tiny microprocessors and sophisticated
remote sensing systems now make it possible for
scientists to explore the vast reaches of the
open ocean from the perspective of the marine
animals, whose extraordinary travels make them
highly effective oceanographers," says the
project's principal investigator, Professor
Barbara Block of Stanford University.
Scientists with the POST project explain that
they take care to ensure that the animals do not
suffer during the surgical procedure that
implants the tags.
Surgery takes place at on-site "field
hospitals," they explain. Each is a
portable surgical unit, constructed to be
compact and transportable without compromising
surgery quality.
The surgical units include surgical tools, a
surgery table, air supply, temperature and
oxygen meters, sedative and anaesthetic baths,
holding and recovery tanks, and reference
manuals for surgical procedures.
A scientist implants a tag into an
anaesthetized steelhead trout smolt. (Photo
courtesy POST)
Fish are first calmed with a pre-operative
sedative to reduce handling stress, and then
fully anaesthetized with an approved anaesthetic.
Aerated anaesthetic water is continually pumped
over the fish's gills throughout surgery, and a
paper towel moistened with a synthetic mucus
solution protects its eyes from UV light. The
surgery cradle, made of a soft, skin-like
neoprene and coated with the synthetic mucus
solution to preserve the mucous barrier on the
fish's skin, supports the fish during surgery.
Following surgery, fish are kept in a
darkened holding tank and released at dusk to
reduce the risk of predation. Hatchery-reared
smolts can be tagged any time prior to release.
Staff are trained to ensure high survival in
these very small smolts, and the highest
standards of animal care are emphasized to
ensure ethical treatment of the animals tagged,
according to a POST statement.
The scientific results from the studies on
these animals could be compromised if the
highest standards of animal care are not
maintained in order to minimize stress or
suffering. As tags are expensive, high survival
is important for economic reasons.
The Ocean Tracking Network says funding
sought from Canada of roughly US$32 million to
supply the Canadian array technology would
potentially leverage total spending by all
partners estimated at US$150 million for ship
time, tagging, data harvesting and
interpretation.
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