It
started on the Blackstone River in 1714
US Geological Survey
 |
More than 300 years later and not
far from the original fish passage site there on the river, U.S. Geological
Survey researchers have been working with dam operators and other cooperators
to expand scientific understanding of the effects these barriers and dams can
have on migratory fish, and what can be done to maximize their chance to travel
freely up and down rivers, to and from oceans.
It’s a scene happening throughout
the U.S., with the USGS providing science to help build and maintain healthy
fish populations, and with them, healthier ecosystems.
The fish passage research the USGS conducts provides critical information that helps build fish passages that enable key species to get past dams, navigate waterways and complete migration cycles.
These specially designed structures enable fish to bypass blocked waterways, giving migratory fish access to key spawning areas, nurseries and other crucial habitats.
The fish passage research the USGS conducts provides critical information that helps build fish passages that enable key species to get past dams, navigate waterways and complete migration cycles.
These specially designed structures enable fish to bypass blocked waterways, giving migratory fish access to key spawning areas, nurseries and other crucial habitats.
When migratory fish are able to use
effectively designed fish passages, it strengthens inland and ocean ecosystems,
fishing communities, and enhances conservation efforts of these important fish.
This is significant because traveling fish are ecologically and economically important in the oceans where many species spend most of their adult lives, and in the freshwater habitats where a majority are born and reproduce.
This is significant because traveling fish are ecologically and economically important in the oceans where many species spend most of their adult lives, and in the freshwater habitats where a majority are born and reproduce.
The spawning seasons of migratory fish attract saltwater and freshwater anglers, supporting a sport fishing community that made nearly 63 million recreational fishing trips in 2016, adding tens of billions of dollars to local economies. Healthy populations of these fish in the ocean are also important for U.S. commercial fishing, which had a $51 billion sales impact on the U.S. economy in 2015 while also providing food to millions of people around the world.
Why Are Migratory Fish Important?
In addition to the value of
migratory fish to sport and commercial fishing, and as a vital staple for human
consumption, these fish are also ecologically important to ocean and stream
environments.
“As a core component of healthy streams and oceans, migratory fish play crucial roles in stable ecosystems for a lot of different reasons,” said Ted Castro-Santos, a Research Ecologist at the USGS Leetown Science Center. “The fact they are a major food source for so many different species is probably one of their most important roles.”
Adult migratory fish bring nutrients
with them into fresh water habitats where many of these fish become prey to
other fish, birds and animals. The fish that are able to make it to upstream
spawning grounds and successfully reproduce become part of a spawning cycle
that can potentially create trillions of eggs each season.
These fish eggs can nourish almost
every level of the food web and even with the eggs’ high attrition rate,
millions of baby fish may hatch each season. The juvenile fish are also a major
food source in fresh water habitats until they grow large enough to attempt
their own journey to ocean waters, where they become part of ocean food chains
and complete the migration cycle started by their parents.
But the delicate balance of these
migration cycles has been disrupted as dams and barriers block waterways across
the nation and cut off many migratory fish from their ancestral spawning areas.
How Does USGS Fish Passage Research
Help?
To help migratory fish travel up and
down waterways, USGS scientists conduct research on fish behavior and use this
knowledge to design and develop new and improved fish passages, as well as work
with states and other partners to identify the best locations for fish passages
to be installed. Ongoing fish passage research conducted by the USGS is
important since man-made barriers, which can slow or prevent migration, have
played a role in the shrinking fish populations.
“Over time, it has been observed
that man-made barriers have been one of the major stressors leading to
population declines for many migratory fish species,” said Tom O’Connell, USGS
Leetown Science Center director. “Effective fish passages are a key component
needed to restore migratory fish populations to healthy levels.”
The USGS research helps not only
species recovery, but also state resource managers and dam operators since new
and improved fish passage techniques can be more cost effective, allow more
fish to complete migration, and require less time or water usage, which can
save operators money.
Thinking Like a Fish
In order to design structures
migratory fish can find and use, it is important to understand what drives them
and how they interact with man-made barriers. USGS scientists study migratory
fish to better understand fish behaviors so scientists and engineers can use
this knowledge to create more effective fish passages.
Since the size, usage and design of
dams and barriers can change over time, creating effective fish passages is a
constant challenge. USGS scientists must understand why some fish successfully
use fish passages to bypass a barrier and others don’t.
“We have a tremendous diversity of
fish species out there and current techniques are only allowing for a fraction
of them to pass barriers,” Castro-Santos said. “Researching new ways to improve
designs and get fish past barriers will help everything connected to these
ecosystems.”
USGS experts evaluate dam designs,
barrier uses, cooperator management efforts and fish behavior to create
tailored fish passages that vary as needed across the nation. Studies of some
older fish passage designs found a significant percentage of migratory fish
failed to use them, often because they couldn’t find the entrances to the
structures, Castro-Santos said.
This knowledge led to the development of new techniques to draw fish into passage entrances, such as altering water-flow rates in the passage to match what a target species prefers, simulating certain noises that can entice fish to swim toward the passage, and using pheromones to attract fish.
This knowledge led to the development of new techniques to draw fish into passage entrances, such as altering water-flow rates in the passage to match what a target species prefers, simulating certain noises that can entice fish to swim toward the passage, and using pheromones to attract fish.
While most fish passages are used to
help fish get past manmade barriers to complete their migratory cycles, experts
also believe one potential use for fish passage research is to limit the spread
of invasive species up or downstream. As the USGS continues to research new and
improved ways of getting native fish upstream, scientists will also be looking
for ways that prevent invasive fish from utilizing those same fish
passages.
One Size Doesn’t Fit
All
Barriers come in all shapes and
sizes, and there are dozens of different species of fish affected by them, so a
single fish passage solution will not work for all fish in all locations.
“Scientists have learned a great
deal over the past several decades when it comes to fish nature and fish
passage design,” O’Connell said. “Most species need passages that are designed
for their unique physical traits.”
For instance, most migratory fish
face problems with barriers when they are heading downstream out to sea, such
as getting caught in power generating turbines, which results in many fish
kills each year.
This is especially true for American eels because they spend most of their adult lives in fresh water and travel out to sea for spawning, which is the opposite of most migratory fishes’ movement pattern and could require solutions that might not work for other fish species.
This is especially true for American eels because they spend most of their adult lives in fresh water and travel out to sea for spawning, which is the opposite of most migratory fishes’ movement pattern and could require solutions that might not work for other fish species.
“Because of the complexity and needs
of so many different migratory fish there is a tremendous amount of work left
to be done to improve passage for the whole range of species,” Castro-Santos said.
Why Not Just Remove the Dams?
In light of some of the problems
caused by man-made barriers, there has been growing interest around the world
in dam removal.
However, most dams provide significant services for society like energy production, flood control and water retention for reservoirs, so removing every dam is not a viable option. Designing effective fish passages is one of the best ways to balance human needs while also supporting ecosystems and migratory fish.
However, most dams provide significant services for society like energy production, flood control and water retention for reservoirs, so removing every dam is not a viable option. Designing effective fish passages is one of the best ways to balance human needs while also supporting ecosystems and migratory fish.
“In the future, it is likely that more
dams will be built around the world, not less,” said Mona Khalil, USGS Energy
and Wildlife program specialist. “So it is more important than ever to continue
studying migratory fish, so the best techniques and fish passage designs can be
used to help them complete their migratory cycles.”
Casto-Santos believes fish passage
research will have lasting benefits.
“Hopefully new science and fish
passage designs will increase fish passage effectiveness,” Castro-Santos said.
“Restoring access to upstream habitats is important -- and not just to the
fish, but to the streams, the rivers and ocean ecosystems these fish live in,
and the communities, fisherman and world populations that rely on migratory
fish.”
