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Showing posts with label lakes. Show all posts
Showing posts with label lakes. Show all posts

Friday, December 14, 2012

Shedd Aquarium Studies Invasive <b>Fish</b> Species Impacting the Great Lakes <b>...</b>

Contributing Editor Dr. Jordan Schaul interviews Shedd Aquarium researchers about the facility’s Great Lakes conservation research programs, which include studies on invasive species.

Nat Geo Archives

In the face of all the threats that challenge the Earth’s pelagic and coastal zones of fresh water, marine and brackish water bodies, Shedd Aquarium remains committed to the conservation of aquatic life wherever they exist. While some studies have required the deployment of staff and associates to far off places, others necessitate working in Shedd’s own backyard.

The Aquarium has deployed biologists to the coastal waters of Southeast Asia to study seahorses and to Bristol Bay, Alaska to conserve beluga whales, among other distant field sites. Shedd’s biologists are also working out of the Chicago-based aquarium. Shedd Aquarium’s president and CEO, Ted Beattie is very practical about conservation and has said that “conservation starts right here, in our own backyard.” Since Shedd’s campus literally sits right on the shore of Lake Michigan, the Aquarium has focused several initiatives on protecting the Great Lakes ecosystem.

The five Laurentian Great Lakes hold the largest supply of freshwater on Earth and unfortunately, the Great Lakes are in great trouble. The National Oceanic and Atmospheric Administration’s Great Lakes Environmental Research Laboratory cites several threats to Great Lakes basin and ecosystems. Threats directly affecting surface water and aquatic life in the lakes include small scale disturbances such as weather-induced erosion, water level changes associated with climate change, pollution, and invasive species of plants, micro-organisms and animals.

The Aquarium is most poised to address invasive species concerns, and they are also interested in contributing to the conservation of native species through other research and conservation measures. The eradication of invasive species and the protection of native species is the ultimate goal, but first the Aquarium and their partners must learn more about the basic biology of these exotic and native fisheries.

More than 180 non-native species have been introduced to the Great Lakes ecosystem since the early 1800's, from parasitic lampreys to the destructive zebra and quagga mussels. Among fish species that have found their way into these lakes, which comprise 21% of the Earth’s surface freshwater, 25 species have become established in the lakes.

In this first in a series post of posts discussing the Great Lakes Program at the Shedd Aquarium, I interview Senior Research Biologist Dr. Philip Willink. Dr. Willink is coordinating the invasive and migratory fish species studies.

Interview:

Jordan: In an effort to mitigate the detrimental impact of invasive fish species on the freshwater ecosystem, the Shedd has embarked on efforts to study the basic biology of the two invaders. The first is the weatherfish (Misgurnus anguillicaudatus), a popular cold water aquarium fish, which is suspected to have been introduced into Chicago waterways by well-intentioned hobbyists. The second is the highly aggressive round goby (Neogobius melanostomus), which following its introduction via the ballast water of cargo ships, became a popular prey item for the once threatened Lake Erie water snake. Can you elaborate on how these species became established in the Great Lakes and what you have learned about them thus far?

Philip: Weatherfish are originally from Southeast Asia, but have been moved around the world by the pet trade and through restaurants; they are a popular and hardy pet, and even a food source in some places. They first appeared on the north side of Chicago in the late 1980s, but remained largely unnoticed because they live along the bottom and will even burrow into mud to hide. Unbeknownst to people at the time, the weatherfish spread throughout the Chicago River and beyond. We aren’t sure what makes them able to thrive in the region, which is one reason whymore studies are needed.

We now find weatherfish in wetlands throughout the Chicago region. Because of their stealthy nature, their exact distribution and impact on native species is still unknown. To address this, we are studying what they eat, where they live, spawning behavior, and how they disperse into new areas.

Many invasive species arrive in the Great Lakes by attaching to gear or vehicles transported between bodies of water. The round goby was an unintentional hitchhiker that found a ride in the ballast tanks of freighters traveling from the Black Sea to the Great Lakes. They rapidly spread throughout the Great Lakes and their competition has devastated small benthic fishes. They are also unpopular with perch anglers because of their propensity for stealing bait.

However, there are drawbacks and benefits to the presence of round gobies in our lakes. As you mentioned, the comeback of the threatened Lake Erie water snake is largely attributable to their taste for round gobies, which make up most of their diet. Also, bass love to eat gobies, and bass numbers have exploded in parts of the Great Lakes, much to the delight of anglers. While round
gobies eat zebra mussels, another dangerous invasive species, they don’t eat enough to control the mussel population. These tradoffs highlight the complexity of invasions, and how much we still have to learn about the biology of these species.

Jordan: According to Shedd’s Great Lakes Program, the Aquarium’s science initiatives “develop and leverage crucial research partnerships with universities, agencies and other NGO’s.” Their research programs are designed to advance the understanding of aquatic wildlife and habitats of the Great Lakes and associated local water ways in order to develop “effective management strategies” for the region. Can you talk about some of the partnerships with regard to the coordination of these studies? What institutions are responsible for the different aspects of the invasive species research program?

Philip: The Great Lakes basin has a strong research community that is dedicated to stopping the introduction of invasive species and trying to eradicate, or at least mitigate the impacts of those that are already established. No one institution has the resources to do this alone, so institutions have to work together.

At Shedd, collaboration is key to the success of our programs. A single invasive species project around Lake Michigan may involve the U.S. Army Corps of Engineers for navigable waterways, the Illinois Department of Natural Resources for field surveys, Forest Preserve Districts and nongovernmental organizations for land access, and regional universities, such as Loyola University and Western Illinois University, that help conduct genetic analyses of specimens. Our combined expertise leads to the development of effective management strategies for Great Lakes wildlife and habitats—and of course, Shedd is always looking to partner with organizations that want to make a difference for the lakes.

Jordan: Can you summarize some of the project goals for the invasive species research. Are there fundamental differences in the ecology or behavior of the round goby and weatherfish that dictate the ways in which you will go about studying the two species?

Philip: The project goals are to gain a better understanding of their foraging, reproduction, and dispersal behaviors so we can create management plans that limit their impact on native ecosystems. “Limiting their impact” can mean eliminating them from a given area or preventing their spread to another place.

The most striking difference is their habitat preference: weatherfish live in wetlands, whereas round gobies live in streams or along rocky lake shores. This means each invasive species is interacting with a different cast of native species in a different ecological context. We are unable to automatically take what we learn from one invasive species and apply it to the other, except in a very general manner.

Each invasive species has its own unique suite of characteristics, so it’s critical for us to study them individually to increase the scientific community’s knowledge of their biology. For example, round gobies spread through streams, but the presence of a tall dam effectively halts their spread. On the other hand, weatherfish live in wetlands: technically, roadside ditches are wetlands. So weatherfish can use roadside ditches to move from watershed to watershed. The strategies we develop to control these two invasive species will be very different.

Jordan: A number of anthropogenic factors have lead to the decline of native fish species of the Great Lakes. Some of these factors have lead to the extirpation of migratory species like the Atlantic salmon. Can you talk about the migratory fish studies you are conducting at the Shedd?

Philip: The Great Lakes are rich in fish biodiversity, but we have a lot to learn. Basic biological and behavioral information about migratory fishes remains unknown, which makes it challenging to develop species management recommendations or to understand how activity on land could impact migration in the water. Shedd has a unique opportunity to study a fish migration that appears to be on the rebound.

The largest commercial fishery in the Great Lakes is the lake whitefish, Coregonus clupeaformis. Historically, lake whitefish spawned in the Great Lakes themselves, as well as some of the rivers flowing into the Great Lakes. But they were hard hit by overfishing, sea lamprey, dams, and logging that destroyed spawning grounds. Migratory spawning runs in rivers disappeared. Tighter regulations on the fishing industry, sea lamprey control efforts, and habitat restoration have resulted in an increase in whitefish numbers. Recently, biologists have noticed that whitefish are once again trying to migrate up rivers, attempting to reclaim territory that was once theirs.

We are studying why this behavior has re-emerged and how we can encourage it in order to stimulate this valuable native commercial fishery.  This work is another example of how partnerships can strengthen research: Shedd is working with the Center for Limnology at the University of Wisconsin-Madison, the Wisconsin Department of Natural Resources, the Michigan Department of Natural Resources, the U.S. Geological Survey-Great Lakes Science Center, and the University of Michigan Museum of Zoology. What we learn from this project will hopefully be applied to the spawning behaviors of other native species, like lake trout.


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Tuesday, July 31, 2012

Crumbliss Report: <b>Bass</b> and Panfish Late Afternoons on Polk Lakes

Capt. Craig Crumbliss of Winter Haven (nomotorguide@yahoo.com or 863-232-9719) has been fly fishing during what he calls the “golden hour,” casting topwater bugs on small lakes around Winter Haven and Lake Wales.

Here is his report for this week (unedited):

“It’s the middle of summer and if you can get out on the water very early or just before sunset you can still experience some great freshwater fly fishing.  It’s often referred to as the “golden hour”, that brief time before sunset when the wind calms down, birds are returning to their roost, and the fish that have been trying to rest in the cooler water move up to feed.

I’ve had several excellent evenings on some of the smaller lakes and ponds between Winter Haven and Lake Wales.  Starting around 7pm I’ve been fishing the western side shady spots and then moving around the lake as the sun gets lower and temperatures start to cool.  Any smaller topwater pattern has been enough to convince the panfish and smaller bass to bite.  White foam spiders, yellow Sprogs, and chartreuse Boogle Bugs have all been working well.  If the fish don’t seem as active you’ll want to try some subsurface patterns.  A large Hare’s Ear nymph trailed with a red San Juan worm has been an excellent combination when searching deeper water, with the San Juan worm hooking quite a few bass along with the bluegill and sunfish.

I hope you can find the time to get out on the water over the next week.”



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Sunday, July 1, 2012

SCV <b>Fishing</b> Report June 19th: Local Lakes And Saltwater Report

It's Tuesday and that means it's time for the Halibut Hal Fishing Report for
KHTS AM-1220:

Freshwater Report:

1)  Castaic Lake....Still a very good largemouth bass bite happening this past week; try the Lagoon, Necktie Canyon or Hawk's Nest for bass up to about five pounds.   If it's stripers you're after, then try the Buoy Line, Sharrons Rest or C-Point in the 40-60 foot depth.  There's also a good bluegill/crappie bite off the pier; use mealworms or small jigs.

2)  Pyramid Lake....Windy conditions continued this past week. When the winds do back off, catfish are biting both for shore anglers and boaters in the Coves, mostly on cut baits.  Black bass are still around and are biting in 5 - 15 foot depth of water.  Slow trout fishing prevails.

3)  Lake Piru....Also experienced lots of wind this past week.  Good bass fishing with many fish up to 4 pounds; try fishing with nightcrawlers in the Marina area.  Along the shorelines by Reasoner Cove is where you'll find both crappie and redear.

4)  Lake Cachuma....Fish early AM or late afternoon with live shad, for the best action on largemouth and smallmouth bass.  Try the Coves for both catfish and bluegill.  If you want trout action, try fishin  near the Dam with nightcrawlers.

Saltwater Report:

Landings from Long Beach to Marina Del Rey:
The "Gail Force" from L A Harbor Sportfishing nailed limits of calico bass and lost a couple yellowtail while fishing Catalina on Monday.  Meanwhile, the "Fortune" from 22nd Street Landing in San Pedro, on Father's Day, scored six yellowtail and lost a dozen more in the rocks/kelp and the anglers caught lots of calicos at Catalina Island.

Oxnard/Ventura Landings:
HOT BITE ALERT:  The "Mirage" is on the first day of a 2 day trip and, as of this morning, they already have boated 24 white seabass and 22 halibut!!!  The "Aloha Spirit", on Monday, returned to the dock with 22 white seabass, 6 halibut and 9 barracuda for 12 happy anglers.  There's plenty of candy bait (squid) in the bait tanks for the Oxnard fleet.  The water is getting warmer, the conditions continue to improve and the fishing is awesome!.....GO FISH!

....'til next Tuesday, this is Halibut Hal signing off for your Hometown Station, KHTS 1220AM.


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Monday, March 26, 2012

AGFC, helpers work to help aging lakes in Arkansas

HOPE – It is undeniable. Lakes in Arkansas are aging. Most are not as productive as they were in their young and glorious days.
The majority of the public lakes in Arkansas were built in the 1950s and 1960s, meaning today they are roughly a half-century in age. Nutrition and cover have declined. Siltation is a problem.
But some countermeasures are underway by the Arkansas Game and Fish Commission and by private citizens, often working hand in hand with the fisheries biologists.
One example with a solid history of success is the use of “cane condos,” the term used by AGFC biologist Drew Wilson of Hope. These are made in several forms, and the one most common stemmed from Lake Greeson, where fishing guide and outfitter Jerry Blake and his associates perfected the technique.
Blake often refers to “crappie condos,” and his group has built a reputation of leading people to good catches of crappie on Greeson, a U.S. Army Corps of Engineers lake near Murfreesboro in southwest Arkansas.
Their condo is a five-gallon bucket that is filled with quick-setting concrete, an eye-bolt put in the top then the bucket stuffed with shoots of river cane that may be 8, 10, 12 feet long. The condos are dropped at selected spots in the lake and charted with Global Positional System (GPS) markings.
Greeson was built in the 1950s. Other major southwest Arkansas lakes are Millwood (1960s), the Tri-Lakes of Gillham, Dierks and De Queen (1970s), Bois d’Arc (1950s) and Erling (1950s). These lakes differ in their makeup, but all have declined somewhat in fish production and now are benefiting from corrective measures that include the use of cane condos.
With age, a lake loses its underwater wood components, essential for fish nutrition and cover. Silt comes into the lakes, more in shallow lowland bodies of water than in the deep, clear lakes.
The weighted bunches of cane sunk into lakes helps with the cover needed by small and young fish as protection from predators. Greeson now has hundreds of the condos, and AGFC fisheries biologist Les Claybrook maintains a lake map with numerous yellow dots around the edges. Each dot represents a group of three cane condos.
Fishermen are catching crappie, bass, bream and catfish in these spots, and word is spreading that Greeson is again “hot” for fishing, somewhat like it was 50 years ago.
Wilson and Claybrook explained that the cane condos can be made in other configurations, too, and still another alternative that is low-cost is the wooden pallet triangle. Three discarded pallets are bolted or lashed together, a concrete block fastened for a weight, then the triangle is dropped into the water at a selected spot.
Horizontal condos or mats are made with concrete blocks, not cinder blocks, Wilson said. The latter are lighter in weight, and a bundle of cane is highly buoyant. The concrete blocks are laid on their sides, and the openings are stuffed with cane. The block and cane rigs can be stacked two or three deep then dumped into the water. This arrangement is more shallow than the upright condo, making it a choice for shallow waters.
With Greeson enjoying good fishing again, Millwood also is rebounding with fishing. Restrictions on black bass fishing were eased at the first of 2012. Better strings of crappie and bream are coming in, and catfish are so numerous that anglers can keep 30 a day – 10 channel catfish and 10 blue catfish in addition to the regular limit of 10 which can include flathead catfish. Bois d’Arc Lake is bouncing back as well after renovation work.
For detailed information on the state’s lakes and wildlife management areas, go to: http://www.agfc.com/resources/Pages/ResourcesMaps.aspx.


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