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  • A snowy egret (Egretta thula) flys away with a fish in its mouth after diving for the fish in the Gatorland alligator breeding marsh and bird sanctuary near Orlando, Florida. The bird sanctuary is the largest and most easily accessible wild wading bird rookery in east central Florida. Snowy egrets were hunted almost to extinction for its plumage, used by the fashion industry, in the 1800’s. The Aududon Society was formed during this period to push for protection for the birds from the fashion industry.
    Snowy egret fishing.jpg
  • A bald eagle (Haliaeetus leucocephalus) drags a chum salmon (Oncorhynchus keta) onto the gravel bar of the Chilkat River in the Alaska Chilkat Bald Eagle Preserve near Haines, Alaska. During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle dragging fish.jpg
  • A bald eagle (Haliaeetus leucocephalus) drags a chum salmon (Oncorhynchus keta) onto the gravel bar of the Chilkat River in the Alaska Chilkat Bald Eagle Preserve near Haines, Alaska. During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle dragging fish.jpg
  • A bald eagle (Haliaeetus leucocephalus) flies away with the head of a salmon carcass over the Chilkat River in the Alaska Chilkat Bald Eagle Preserve near Haines, Alaska. During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Eagle flying with fish head.jpg
  • A bald eagle (Haliaeetus leucocephalus) drags a chum salmon (Oncorhynchus keta) onto the gravel bar of the Chilkat River in the Alaska Chilkat Bald Eagle Preserve near Haines, Alaska. During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world. EDITORS NOTE: Image is a cropped version of Image ID I0000C8fO92kKcJE.
    Bald eagle dragging fish.jpg
  • A bald eagle (Haliaeetus leucocephalus) flies with the remains of a salmon carcass above the Chilkat River in the Alaska Chilkat Bald Eagle Preserve near Haines, Alaska. During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle with fish tail.jpg
  • A bald eagle (Haliaeetus leucocephalus) drags a chum salmon (Oncorhynchus keta) onto the gravel bar of the Chilkat River in the Alaska Chilkat Bald Eagle Preserve near Haines, Alaska. During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle dragging fish.jpg
  • A bald eagle (Haliaeetus leucocephalus) feeds on a salmon in the Chilkat River in the Alaska Chilkat Bald Eagle Preserve near Haines, Alaska. During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle with fish in river.jpg
  • A bald eagle (Haliaeetus leucocephalus) flies away with the head of a salmon carcass over the Chilkat River in the Alaska Chilkat Bald Eagle Preserve near Haines, Alaska. During late fall, bald eagles congregate along the Chilkat River in the Alaska Chilkat Bald Eagle Preserve to feed on salmon in what is believed to be the largest gathering of bald eagles in the world.
    Bald eagle flying with fish.jpg
  • Salt Creek pupfish also known as Death Valley pupfish are only found in the Salt Creek drainage of Death Valley National Park. Pictured in this image are a male (top) and a female (bottom) during spring mating season in Salt Creek. During mating season, the male and female fish do a quivering, side-by-side dance that results in fertilized eggs. <br />
<br />
The fish, listed as endangered, are thought to have been part of the fish that inhabited in Lake Manly which dried up during the last Ice age. The fish can survive in water four times more saline than ocean water, and in temperatures from 116 °F to freezing.<br />
<br />
Death Valley National Park, located in eastern California near the border with Nevada is one of the hottest spots on earth, holding the hottest recorded air temperature of 134 °F. The Park also is location of the lowest spot in North America, 282 feet below sea level at the vast salt flats at Badwater Basin. At 3.4 million acres, the park is the largest national park in the contiguous United States. Death Valley National Park sits between the Panamint Range on the west  and Amargosa Range on the east.
    Salt Creek Pupfish mating.jpg
  • Salt Creek pupfish also known as Death Valley pupfish are only found in the Salt Creek drainage of Death Valley National Park. Pictured in this image are a male (top) and a female (bottom) during spring mating season in Salt Creek. During mating season, the male and female fish do a quivering, side-by-side dance that results in fertilized eggs. <br />
<br />
The fish, listed as endangered, are thought to have been part of the fish that inhabited in Lake Manly which dried up during the last Ice age. The fish can survive in water four times more saline than ocean water, and in temperatures from 116 °F to freezing.<br />
<br />
Death Valley National Park, located in eastern California near the border with Nevada is one of the hottest spots on earth, holding the hottest recorded air temperature of 134 °F. The Park also is location of the lowest spot in North America, 282 feet below sea level at the vast salt flats at Badwater Basin. At 3.4 million acres, the park is the largest national park in the contiguous United States. Death Valley National Park sits between the Panamint Range on the west  and Amargosa Range on the east.
    Salt Creek Pupfish mating-2.jpg
  • David Campbell (left), and Dylan Burbank fish technicians for the non-profit Northern Southeast Regional Aquaculture Association, Inc. (NSRAA), carry coolers of roe and milt from chum salmon captured on the man-made spawning channel of Herman Creek located near Haines, Alaska.  <br />
<br />
NSRAA built the channel to collect wild broodstock by harvesting spawning female and male salmon for their eggs and milt to artificially spawn wild chum salmon. The eggs are fertilized with milt and placed in stream-side incubation boxes on Herman Creek and the Klehini River. In 2014, 2.4 million eggs were seeded into these incubation boxes. The 2013 incubation box survival rate was 90%. Without the artificial spawning, natural survival is said to be only 10%.<br />
<br />
As the bumper sticker touts, Alaskan fisherman are proud that fish from Alaska are not farmed fish. At the incubation boxes the eggs will be fertilized with the milt and then placed in the incubation boxes. Over the winter the fertilized eggs will develop into fry. The incubation process is 100% natural. Fry are not fed. Once they are big enough, the fish leave the incubation boxes on their own.<br />
<br />
Based in Sitka, Alaska, NSRAA conducts salmon enhancement projects in northern southeast Alaska. It is funded through a salmon enhancement tax (of three percent) and cost-recovery income. NSRAA also produces sockeye, chinook, and coho salmon.<br />
<br />
Male chum salmon return to Herman Creek to spawn with female chum salmon during the fall chum salmon run. The chum salmon return to freshwater Herman Creek, tributary of the Klehini River after living three to five years in the saltwater ocean. Spawning only once, chum salmon die approximately two weeks after they spawn. <br />
<br />
Chilkat River and Klehini River chum salmon are the primary food source for one of the largest gatherings of bald eagles in the world. Each fall, bald eagles congregate in the Alaska Chilkat Bald Eagle Preserve.
    NSRAA chum salmon artificial spawnin...jpg
  • David Campbell (left) and Dylan Burbank, fish technicians for the non-profit Northern Southeast Regional Aquaculture Association, Inc. (NSRAA), harvest chum salmon at a temporary weir located on the man-made spawning channel of Herman Creek near Haines, Alaska. Captured fish are killed with small bats.<br />
<br />
NSRAA built the channel to collect wild broodstock by harvesting spawning female and male salmon for their eggs and milt to artificially spawn wild chum salmon. The eggs are fertilized with milt and placed in stream-side incubation boxes on Herman Creek and the Klehini River. In 2014, 2.4 million eggs were seeded into these incubation boxes. The 2013 incubation box survival rate was 90%. Without the artificial spawning, natural survival is said to be only 10%.<br />
<br />
Based in Sitka, Alaska, NSRAA conducts salmon enhancement projects in northern southeast Alaska. It is funded through a salmon enhancement tax (of three percent) and cost-recovery income. NSRAA also produces sockeye, chinook, and coho salmon.<br />
<br />
Male chum salmon return to Herman Creek to spawn with female chum salmon during the fall chum salmon run. The chum salmon return to freshwater Herman Creek, tributary of the Klehini River after living three to five years in the saltwater ocean. Spawning only once, chum salmon die approximately two weeks after they spawn. <br />
<br />
Chilkat River and Klehini River chum salmon are the primary food source for one of the largest gatherings of bald eagles in the world. Each fall, bald eagles congregate in the Alaska Chilkat Bald Eagle Preserve.
    NSRAA chum salmon artificial spawnin...jpg
  • A dead male salmon lies in the special spawning channel of Herman Creek near Haines after being harvested for its milt by fish technicians with the nonprofit Northern Southeast Regional Aquaculture Association, Inc. (NSRAA). NSRAA built the channel to collect wild broodstock by harvesting spawning female and male salmon for their eggs and milt. In the background, another wild chum salmon powers his way up the creek to spawn. Because the salmon would have died in the creek had it spawned, the NSRAA fish technicians return harvested fish to the creek for bears and other animals to eat just as they would have done had the fish died naturally.<br />
<br />
These salmon are returning to freshwater Herman Creek after three to five years in the saltwater ocean. Spawning only once, chum salmon die approximately two weeks after they spawn. Both sexes of adult chum salmon change colors and appearance upon returning to freshwater. Unlike male sockeye salmon which turn bright red for spawning, male chum salmon change color to an olive green with purple and green vertical stripes. These vertical stripes are not as noticeable in females, who also have a dark horizontal band. Both male and female chum salmon develop hooked snout (type) and large canine teeth. These features in female salmon are less pronounced. <br />
<br />
Herman Creek is a tributary of the Klehini River and is only 10 miles downstream of the area currently being explored as a potential site of a copper and zinc mine. The exploration is being conducted by Constantine Metal Resources Ltd. of Vancouver, British Columbia along with investment partner Dowa Metals & Mining Co., Ltd. of Japan. Some local residents and environmental groups are concerned that a mine might threaten the area’s salmon. Of particular concern is copper and other heavy metals, found in mine waste, leaching into the Klehini River and the Chilkat River further downstream. Copper and heavy metals are toxic to salmon and bald eagles.
    Chum salmon -2.jpg
  • Dylan Burbank (left) and David Campbell, fish technicians for the non-profit Northern Southeast Regional Aquaculture Association, Inc. (NSRAA), begin to harvest chum salmon captured on the man-made spawning channel of Herman Creek near Haines, Alaska.<br />
<br />
NSRAA built the channel to collect wild broodstock by harvesting spawning female and male salmon for their eggs and milt to artificially spawn wild chum salmon. The eggs are fertilized with milt and placed in stream-side incubation boxes on Herman Creek and the Klehini River. In 2014, 2.4 million eggs were seeded into these incubation boxes. The 2013 incubation box survival rate was 90%. Without the artificial spawning, natural survival is said to be only 10%.<br />
<br />
Based in Sitka, Alaska, NSRAA conducts salmon enhancement projects in northern southeast Alaska. It is funded through a salmon enhancement tax (of three percent) and cost-recovery income. NSRAA also produces sockeye, chinook, and coho salmon.<br />
<br />
Male chum salmon return to Herman Creek to spawn with female chum salmon during the fall chum salmon run. The chum salmon return to freshwater Herman Creek, tributary of the Klehini River after living three to five years in the saltwater ocean. Spawning only once, chum salmon die approximately two weeks after they spawn. <br />
<br />
Chilkat River and Klehini River chum salmon are the primary food source for one of the largest gatherings of bald eagles in the world. Each fall, bald eagles congregate in the Alaska Chilkat Bald Eagle Preserve.
    NSRAA chum salmon artificial spawnin...jpg
  • Dylan Burbank, a fish technician for the non-profit Northern Southeast Regional Aquaculture Association, Inc. (NSRAA), tosses a chum salmon ready for sorting and processing at a temporary weir located the man-made spawning channel of Herman Creek near Haines, Alaska.<br />
<br />
NSRAA built the channel to collect wild broodstock by harvesting spawning female and male salmon for their eggs and milt to artificially spawn wild chum salmon. The eggs are fertilized with milt and placed in stream-side incubation boxes on Herman Creek and the Klehini River. In 2014, 2.4 million eggs were seeded into these incubation boxes. The 2013 incubation box survival rate was 90%. Without the artificial spawning, natural survival is said to be only 10%.<br />
<br />
Based in Sitka, Alaska, NSRAA conducts salmon enhancement projects in northern southeast Alaska. It is funded through a salmon enhancement tax (of three percent) and cost-recovery income. NSRAA also produces sockeye, chinook, and coho salmon.<br />
<br />
Male chum salmon return to Herman Creek to spawn with female chum salmon during the fall chum salmon run. The chum salmon return to freshwater Herman Creek, tributary of the Klehini River after living three to five years in the saltwater ocean. Spawning only once, chum salmon die approximately two weeks after they spawn. <br />
<br />
Chilkat River and Klehini River chum salmon are the primary food source for one of the largest gatherings of bald eagles in the world. Each fall, bald eagles congregate in the Alaska Chilkat Bald Eagle Preserve.
    NSRAA chum salmon artificial spawnin...jpg
  • Dylan Burbank (left) and David Campbell, fish technicians for the non-profit Northern Southeast Regional Aquaculture Association, Inc. (NSRAA), use a large net to catch chum salmon trapped in a temporary weir located on the man-made spawning channel of Herman Creek near Haines, Alaska.<br />
<br />
NSRAA built the channel to collect wild broodstock by harvesting spawning female and male salmon for their eggs and milt to artificially spawn wild chum salmon. The eggs are fertilized with milt and placed in stream-side incubation boxes on Herman Creek and the Klehini River. In 2014, 2.4 million eggs were seeded into these incubation boxes. The 2013 incubation box survival rate was 90%. Without the artificial spawning, natural survival is said to be only 10%.<br />
<br />
Based in Sitka, Alaska, NSRAA conducts salmon enhancement projects in northern southeast Alaska. It is funded through a salmon enhancement tax (of three percent) and cost-recovery income. NSRAA also produces sockeye, chinook, and coho salmon.<br />
<br />
Male chum salmon return to Herman Creek to spawn with female chum salmon during the fall chum salmon run. The chum salmon return to freshwater Herman Creek, tributary of the Klehini River after living three to five years in the saltwater ocean. Spawning only once, chum salmon die approximately two weeks after they spawn. <br />
<br />
Chilkat River and Klehini River chum salmon are the primary food source for one of the largest gatherings of bald eagles in the world. Each fall, bald eagles congregate in the Alaska Chilkat Bald Eagle Preserve.
    NSRAA chum salmon artificial spawnin...jpg
  • David Campbell (left) and Dylan Burbank, fish technicians for the non-profit Northern Southeast Regional Aquaculture Association, Inc. (NSRAA), use a large net to catch chum salmon trapped in a temporary weir located on the man-made spawning channel of Herman Creek near Haines, Alaska.<br />
<br />
NSRAA built the channel to collect wild broodstock by harvesting spawning female and male salmon for their eggs and milt to artificially spawn wild chum salmon. The eggs are fertilized with milt and placed in stream-side incubation boxes on Herman Creek and the Klehini River. In 2014, 2.4 million eggs were seeded into these incubation boxes. The 2013 incubation box survival rate was 90%. Without the artificial spawning, natural survival is said to be only 10%.<br />
<br />
Based in Sitka, Alaska, NSRAA conducts salmon enhancement projects in northern southeast Alaska. It is funded through a salmon enhancement tax (of three percent) and cost-recovery income. NSRAA also produces sockeye, chinook, and coho salmon.<br />
<br />
Male chum salmon return to Herman Creek to spawn with female chum salmon during the fall chum salmon run. The chum salmon return to freshwater Herman Creek, tributary of the Klehini River after living three to five years in the saltwater ocean. Spawning only once, chum salmon die approximately two weeks after they spawn. <br />
<br />
Chilkat River and Klehini River chum salmon are the primary food source for one of the largest gatherings of bald eagles in the world. Each fall, bald eagles congregate in the Alaska Chilkat Bald Eagle Preserve.
    NSRAA chum salmon artificial spawnin...jpg
  • A juvenile bald eagle swoops down on trumpeter swans and other waterfowl in the Snow Goose Pond Complex at Loess Bluffs NWR (formerly known as Squaw Creek). Loess Bluffs  is a wildlife refuge managed by the U.S. Fish and Wildlife Service. The 7,440-acre refuge, located in northwest Missouri is known for the migrating waterfowl, particularly Snow Geese. Fall and Spring migration can bring millions of Snow Geese to the refuge. Also, bald eagles and an occasional golden eagle pass through the area during the fall and winter months. <br />
<br />
The 10-mile auto tour around the waterways and marshes of the refuge is an excellent way to spot birds of prey, waterfowl, beavers, otters, and muskrats.
    Bald eagle attacking swans.jpg
  • Fish technicians for the non-profit Northern Southeast Regional Aquaculture Association, Inc. (NSRAA), place the fertilized chum salmon eggs onto a bed of loosely ground chunks of plastic in the incubation boxes. The boxes are located on the man-made spawning channel of Herman Creek near Haines, Alaska.<br />
<br />
The incubation boxes have a steady flow of fresh water from Herman Creek flowing through them. Over the winter the fertilized eggs will develop into fry. The incubation process is 100% natural. Fry are not fed. Once they are big enough, the fish leave the incubation boxes on their own.<br />
<br />
In 2014, 2.4 million eggs were seeded into these incubation boxes. The 2013 incubation box survival rate was 90%. Without the artificial spawning, natural survival is said to be only 10%.<br />
<br />
Based in Sitka, Alaska, NSRAA conducts salmon enhancement projects in northern southeast Alaska. It is funded through a salmon enhancement tax (of three percent) and cost-recovery income. NSRAA also produces sockeye, chinook, and coho salmon.<br />
<br />
Male chum salmon return to Herman Creek to spawn with female chum salmon during the fall chum salmon run. The chum salmon return to freshwater Herman Creek, tributary of the Klehini River after living three to five years in the saltwater ocean. Spawning only once, chum salmon die approximately two weeks after they spawn. <br />
<br />
Chilkat River and Klehini River chum salmon are the primary food source for one of the largest gatherings of bald eagles in the world. Each fall, bald eagles congregate in the Alaska Chilkat Bald Eagle Preserve.
    NSRAA chum salmon artificial spawnin...jpg
  • Sunset over the Cattail Pool at Loess Bluffs NWR (formerly known as Squaw Creek). Loess Bluffs is a wildlife refuge managed by the U.S. Fish and Wildlife Service. The 7,440-acre refuge, located in northwest Missouri is known for the migrating waterfowl, particularly Snow Geese. Fall and Spring migration can bring millions of Snow Geese to the refuge. Also, bald eagles and an occasional golden eagle pass through the area during the fall and winter months. <br />
<br />
The 10-mile auto tour around the waterways and marshes of the refuge is an excellent way to spot birds of prey, waterfowl, beavers, otters, and muskrats.
    Sunset at Loess Bluffs NWR-2.jpg
  • Lani Hotch in her smokehouse located in the Tlingit village of Klukwan near Haines, Alaska. Hotch is smoking hooligan as part of a traditional fish camp class that she teaches.
    Lani Hotch in her smokehouse.jpg
  • David Campbell, a fish technician for the non-profit Northern Southeast Regional Aquaculture Association, Inc. (NSRAA), gently pours the fertilized eggs onto a bed of loosely ground chunks of plastic in the incubation boxes. The boxes are located on the man-made spawning channel of Herman Creek near Haines, Alaska.<br />
<br />
The incubation boxes have a steady flow of fresh water from Herman Creek flowing through them. Over the winter the fertilized eggs will develop into fry. The incubation process is 100% natural. Fry are not fed. Once they are big enough, the fish leave the incubation boxes on their own.<br />
<br />
In 2014, 2.4 million eggs were seeded into these incubation boxes. The 2013 incubation box survival rate was 90%. Without the artificial spawning, natural survival is said to be only 10%.<br />
<br />
Based in Sitka, Alaska, NSRAA conducts salmon enhancement projects in northern southeast Alaska. It is funded through a salmon enhancement tax (of three percent) and cost-recovery income. NSRAA also produces sockeye, chinook, and coho salmon.<br />
<br />
Male chum salmon return to Herman Creek to spawn with female chum salmon during the fall chum salmon run. The chum salmon return to freshwater Herman Creek, tributary of the Klehini River after living three to five years in the saltwater ocean. Spawning only once, chum salmon die approximately two weeks after they spawn. <br />
<br />
Chilkat River and Klehini River chum salmon are the primary food source for one of the largest gatherings of bald eagles in the world. Each fall, bald eagles congregate in the Alaska Chilkat Bald Eagle Preserve.
    NSRAA chum salmon artificial spawnin...jpg
  • Dylan Burbank a fish technician for the non-profit Northern Southeast Regional Aquaculture Association, Inc. (NSRAA), prepares to fertilize chum salmon roe collected from chum salmon captured at the man-made spawning channels at Herman Creek, located near Haines, Alaska.  <br />
<br />
In 2014, 2.4 million eggs were seeded into these incubation boxes. The 2013 incubation box survival rate was 90%. Without the artificial spawning, natural survival is said to be only 10%.<br />
<br />
After mixing the roe with the milt, the roe is placed in the incubation boxes over a bed of loosely ground chunks of plastic. The incubation boxes have a steady flow of fresh water from Herman Creek flowing through them. Over the winter the fertilized eggs will develop into fry. The incubation process is 100% natural. Fry are not fed. Once they are big enough, the fish leave the incubation boxes on their own.<br />
<br />
Based in Sitka, Alaska, NSRAA conducts salmon enhancement projects in northern southeast Alaska. It is funded through a salmon enhancement tax (of three percent) and cost-recovery income. NSRAA also produces sockeye, chinook, and coho salmon.<br />
<br />
Male chum salmon return to Herman Creek to spawn with female chum salmon during the fall chum salmon run. The chum salmon return to freshwater Herman Creek, tributary of the Klehini River after living three to five years in the saltwater ocean. Spawning only once, chum salmon die approximately two weeks after they spawn. <br />
<br />
Chilkat River and Klehini River chum salmon are the primary food source for one of the largest gatherings of bald eagles in the world. Each fall, bald eagles congregate in the Alaska Chilkat Bald Eagle Preserve.
    NSRAA chum salmon artificial spawnin...jpg
  • Dylan Burbank (right), and David Campbell, fish technicians for the non-profit Northern Southeast Regional Aquaculture Association, Inc. (NSRAA), measure and record the weight of eggs collected from chum salmon captured at the man-made spawning channels at Herman Creek, located near Haines, Alaska.  <br />
<br />
In 2014, 2.4 million eggs were seeded into these incubation boxes. The 2013 incubation box survival rate was 90%. Without the artificial spawning, natural survival is said to be only 10%.<br />
<br />
Weighing the eggs is the way the technicians determine how many eggs are placed in the incubation boxes. After weighing, the eggs will be fertilized with the milt and then placed in the incubation boxes. Over the winter the fertilized eggs will develop into fry. The incubation process is 100% natural. Fry are not fed. Once they are big enough, the fish leave the incubation boxes on their own.<br />
<br />
The shotgun is kept handy for protection from bears.<br />
<br />
Based in Sitka, Alaska, NSRAA conducts salmon enhancement projects in northern southeast Alaska. It is funded through a salmon enhancement tax (of three percent) and cost-recovery income. NSRAA also produces sockeye, chinook, and coho salmon.<br />
<br />
Male chum salmon return to Herman Creek to spawn with female chum salmon during the fall chum salmon run. The chum salmon return to freshwater Herman Creek, tributary of the Klehini River after living three to five years in the saltwater ocean. Spawning only once, chum salmon die approximately two weeks after they spawn. <br />
<br />
Chilkat River and Klehini River chum salmon are the primary food source for one of the largest gatherings of bald eagles in the world. Each fall, bald eagles congregate in the Alaska Chilkat Bald Eagle Preserve.
    NSRAA chum salmon artificial spawnin...jpg
  • David Campbell (left) and Dylan Burbank, fish technicians for the non-profit Northern Southeast Regional Aquaculture Association, Inc. (NSRAA), use a large net to catch chum salmon in a man-made spawning channel near Herman Creek located near Haines, Alaska. <br />
<br />
NSRAA built the channel to collect wild broodstock by harvesting spawning female and male salmon for their eggs and milt to artificially spawn wild chum salmon. The eggs are fertilized with milt and placed in stream-side incubation boxes on Herman Creek and the Klehini River. In 2014, 2.4 million eggs were seeded into these incubation boxes. The 2013 incubation box survival rate was 90%. Without the artificial spawning, natural survival is said to be only 10%.<br />
<br />
Based in Sitka, Alaska, NSRAA conducts salmon enhancement projects in northern southeast Alaska. It is funded through a salmon enhancement tax (of three percent) and cost-recovery income. NSRAA also produces sockeye, chinook, and coho salmon.<br />
<br />
Male chum salmon return to Herman Creek to spawn with female chum salmon during the fall chum salmon run. The chum salmon return to freshwater Herman Creek, tributary of the Klehini River after living three to five years in the saltwater ocean. Spawning only once, chum salmon die approximately two weeks after they spawn. <br />
<br />
Chilkat River and Klehini River chum salmon are the primary food source for one of the largest gatherings of bald eagles in the world. Each fall, bald eagles congregate in the Alaska Chilkat Bald Eagle Preserve.
    NSRAA chum salmon artificial spawnin...jpg
  • Snow and ice on the Snow Goose Pool Complex at Loess Bluffs NWR (formerly known as Squaw Creek). Loess Bluffs is a wildlife refuge managed by the U.S. Fish and Wildlife Service. The 7,440-acre refuge, located in northwest Missouri is known for the migrating waterfowl, particularly Snow Geese. Fall and Spring migration can bring millions of Snow Geese to the refuge. Also, bald eagles and an occasional golden eagle pass through the area during the fall and winter months. <br />
<br />
The 10-mile auto tour around the waterways and marshes of the refuge is an excellent way to spot birds of prey, waterfowl, beavers, otters, and muskrats.
    Pond scene, Loess Bluffs NWR-2.jpg
  • An injured coyote makes his way across the frozen and snow covered pond of the Snow Goose Complex at Loess Bluffs NWR (formerly known as Squaw Creek). Loess Bluffs is a wildlife refuge managed by the U.S. Fish and Wildlife Service. The 7,440-acre refuge, located in northwest Missouri is known for the migrating waterfowl, particularly Snow Geese. Fall and Spring migration can bring millions of Snow Geese to the refuge. Also, bald eagles and an occasional golden eagle pass through the area during the fall and winter months. <br />
<br />
The 10-mile auto tour around the waterways and marshes of the refuge is an excellent way to spot birds of prey, waterfowl, beavers, otters, and muskrats.
    Coyote at Loess Bluffs-2.jpg
  • A juvenile bald eagle surveys the Pelican Pool at Loess Bluffs NWR (formerly known as Squaw Creek). Loess Bluffs is a wildlife refuge managed by the U.S. Fish and Wildlife Service. The 7,440-acre refuge, located in northwest Missouri is known for the migrating waterfowl, particularly Snow Geese. Fall and Spring migration can bring millions of Snow Geese to the refuge. Also, bald eagles and an occasional golden eagle pass through the area during the fall and winter months. <br />
<br />
The 10-mile auto tour around the waterways and marshes of the refuge is an excellent way to spot birds of prey, waterfowl, beavers, otters, and muskrats.
    Juvenile bald eagle.jpg
  • Dylan Burbank, a fish technician for the non-profit Northern Southeast Regional Aquaculture Association, Inc. (NSRAA), rinses fertilized roe with freshwater from Herman Creek prior to putting the roe in the incubation boxes located on the man-made spawning channel of Herman Creek near Haines, Alaska.<br />
<br />
The roe are placed in the incubation boxes over a bed of loosely ground chunks of plastic. The incubation boxes have a steady flow of fresh water from Herman Creek flowing through them. Over the winter the fertilized eggs will develop into fry. The incubation process is 100% natural. Fry are not fed. Once they are big enough, the fish leave the incubation boxes on their own.<br />
<br />
The non-profit Northern Southeast Regional Aquaculture Association, Inc. (NSRAA), fertilizes chum salmon roe with milt collected from chum salmon captured at the special spawning channels at Herman Creek located near Haines, Alaska.  <br />
<br />
In 2014, 2.4 million eggs were seeded into these incubation boxes. The 2013 incubation box survival rate was 90%. Without the artificial spawning, natural survival is said to be only 10%.<br />
<br />
Based in Sitka, Alaska, NSRAA conducts salmon enhancement projects in northern southeast Alaska. It is funded through a salmon enhancement tax (of three percent) and cost-recovery income. NSRAA also produces sockeye, chinook, and coho salmon.<br />
<br />
Male chum salmon return to Herman Creek to spawn with female chum salmon during the fall chum salmon run. The chum salmon return to freshwater Herman Creek, tributary of the Klehini River after living three to five years in the saltwater ocean. Spawning only once, chum salmon die approximately two weeks after they spawn. <br />
<br />
Chilkat River and Klehini River chum salmon are the primary food source for one of the largest gatherings of bald eagles in the world. Each fall, bald eagles congregate in the Alaska Chilkat Bald Eagle Preserve.
    NSRAA chum salmon artificial spawnin...jpg
  • Dylan Burbank a fish technician for the non-profit Northern Southeast Regional Aquaculture Association, Inc. (NSRAA), fertilizes chum salmon roe with milt collected from chum salmon captured at the man-made spawning channels at Herman Creek, located near Haines, Alaska.  <br />
<br />
In 2014, 2.4 million eggs were seeded into these incubation boxes. The 2013 incubation box survival rate was 90%. Without the artificial spawning, natural survival is said to be only 10%.<br />
<br />
After mixing the roe with the milt, the roe is placed in the incubation boxes over a bed of loosely ground chunks of plastic. The incubation boxes have a steady flow of fresh water from Herman Creek flowing through them. Over the winter the fertilized eggs will develop into fry. The incubation process is 100% natural. Fry are not fed. Once they are big enough, the fish leave the incubation boxes on their own.<br />
<br />
Based in Sitka, Alaska, NSRAA conducts salmon enhancement projects in northern southeast Alaska. It is funded through a salmon enhancement tax (of three percent) and cost-recovery income. NSRAA also produces sockeye, chinook, and coho salmon.<br />
<br />
Male chum salmon return to Herman Creek to spawn with female chum salmon during the fall chum salmon run. The chum salmon return to freshwater Herman Creek, tributary of the Klehini River after living three to five years in the saltwater ocean. Spawning only once, chum salmon die approximately two weeks after they spawn. <br />
<br />
Chilkat River and Klehini River chum salmon are the primary food source for one of the largest gatherings of bald eagles in the world. Each fall, bald eagles congregate in the Alaska Chilkat Bald Eagle Preserve.
    NSRAA chum salmon artificial spawnin...jpg
  • Dylan Burbank (right), and David Campbell, fish technicians for the non-profit Northern Southeast Regional Aquaculture Association, Inc. (NSRAA), measure and record the weight of eggs collected from chum salmon captured at the man-made spawning channels at Herman Creek, located near Haines, Alaska.  <br />
<br />
In 2014, 2.4 million eggs were seeded into these incubation boxes. The 2013 incubation box survival rate was 90%. Without the artificial spawning, natural survival is said to be only 10%.<br />
<br />
Weighing the eggs is the way technicians determine how many eggs are placed in the incubation boxes. After weighing, the eggs will be fertilized with the milt and then placed in the incubation boxes. Over the winter the fertilized eggs will develop into fry. The incubation process is 100% natural. Fry are not fed. Once they are big enough, the fish leave the incubation boxes on their own.<br />
<br />
Based in Sitka, Alaska, NSRAA conducts salmon enhancement projects in northern southeast Alaska. It is funded through a salmon enhancement tax (of three percent) and cost-recovery income. NSRAA also produces sockeye, chinook, and coho salmon.<br />
<br />
Male chum salmon return to Herman Creek to spawn with female chum salmon during the fall chum salmon run. The chum salmon return to freshwater Herman Creek, tributary of the Klehini River after living three to five years in the saltwater ocean. Spawning only once, chum salmon die approximately two weeks after they spawn. <br />
<br />
Chilkat River and Klehini River chum salmon are the primary food source for one of the largest gatherings of bald eagles in the world. Each fall, bald eagles congregate in the Alaska Chilkat Bald Eagle Preserve.
    NSRAA chum salmon artificial spawnin...jpg
  • Dylan Burbank (holding fish) and David Campbell, fish technicians for the non-profit Northern Southeast Regional Aquaculture Association, Inc. (NSRAA), collect milt from a male chum salmon at a man-made spawning channel near Herman Creek located near Haines, Alaska.<br />
<br />
NSRAA built the channel to collect wild broodstock by harvesting spawning female and male salmon for their eggs and milt to artificially spawn wild chum salmon. The eggs are fertilized with milt and placed in stream-side incubation boxes on Herman Creek and the Klehini River. In 2014, 2.4 million eggs were seeded into these incubation boxes. The 2013 incubation box survival rate was 90%. Without the artificial spawning, natural survival is said to be only 10%.<br />
<br />
Based in Sitka, Alaska, NSRAA conducts salmon enhancement projects in northern southeast Alaska. It is funded through a salmon enhancement tax (of three percent) and cost-recovery income. NSRAA also produces sockeye, chinook, and coho salmon.<br />
<br />
Male chum salmon return to Herman Creek to spawn with female chum salmon during the fall chum salmon run. The chum salmon return to freshwater Herman Creek, tributary of the Klehini River after living three to five years in the saltwater ocean. Spawning only once, chum salmon die approximately two weeks after they spawn. <br />
<br />
Chilkat River and Klehini River chum salmon are the primary food source for one of the largest gatherings of bald eagles in the world. Each fall, bald eagles congregate in the Alaska Chilkat Bald Eagle Preserve.
    NSRAA chum salmon artificial spawnin...jpg
  • Dylan Burbank, fish technician for the non-profit Northern Southeast Regional Aquaculture Association, Inc. (NSRAA), displays an example of bad roe from a female chum salmon captured on the man-made spawning channel of Herman Creek located near Haines, Alaska.  <br />
<br />
NSRAA built the channel to collect wild broodstock by harvesting spawning female and male salmon for their eggs and milt to artificially spawn wild chum salmon. The eggs are fertilized with milt and placed in stream-side incubation boxes on Herman Creek and the Klehini River. In 2014, 2.4 million eggs were seeded into these incubation boxes. The 2013 incubation box survival rate was 90%. Without the artificial spawning, natural survival is said to be only 10%.<br />
<br />
It is important to remove bad eggs to keep the fish healthy while in the incubation boxes.<br />
<br />
Based in Sitka, Alaska, NSRAA conducts salmon enhancement projects in northern southeast Alaska. It is funded through a salmon enhancement tax (of three percent) and cost-recovery income. NSRAA also produces sockeye, chinook, and coho salmon.<br />
<br />
Male chum salmon return to Herman Creek to spawn with female chum salmon during the fall chum salmon run. The chum salmon return to freshwater Herman Creek, tributary of the Klehini River after living three to five years in the saltwater ocean. Spawning only once, chum salmon die approximately two weeks after they spawn. <br />
<br />
Chilkat River and Klehini River chum salmon are the primary food source for one of the largest gatherings of bald eagles in the world. Each fall, bald eagles congregate in the Alaska Chilkat Bald Eagle Preserve.
    NSRAA chum salmon artificial spawnin...jpg
  • David Campbell (left) and Dylan Burbank, fish technicians for the non-profit Northern Southeast Regional Aquaculture Association, Inc. (NSRAA), inspect roe from a female chum salmon captured on the man-made spawning channel of Herman Creek located near Haines, Alaska.  <br />
<br />
NSRAA built the channel to collect wild broodstock by harvesting spawning female and male salmon for their eggs and milt to artificially spawn wild chum salmon. The eggs are fertilized with milt and placed in stream-side incubation boxes on Herman Creek and the Klehini River. In 2014, 2.4 million eggs were seeded into these incubation boxes. The 2013 incubation box survival rate was 90%. Without the artificial spawning, natural survival is said to be only 10%.<br />
<br />
It is important to remove bad eggs to keep the fish healthy while in the incubation boxes.<br />
<br />
Based in Sitka, Alaska, NSRAA conducts salmon enhancement projects in northern southeast Alaska. It is funded through a salmon enhancement tax (of three percent) and cost-recovery income. NSRAA also produces sockeye, chinook, and coho salmon.<br />
<br />
Male chum salmon return to Herman Creek to spawn with female chum salmon during the fall chum salmon run. The chum salmon return to freshwater Herman Creek, tributary of the Klehini River after living three to five years in the saltwater ocean. Spawning only once, chum salmon die approximately two weeks after they spawn. <br />
<br />
Chilkat River and Klehini River chum salmon are the primary food source for one of the largest gatherings of bald eagles in the world. Each fall, bald eagles congregate in the Alaska Chilkat Bald Eagle Preserve.
    NSRAA chum salmon artificial spawnin...jpg
  • A grizzly bear catches a salmon in the Chilkoot River at the Chilkoot Lake State Recreation Site near Haines, Alaska.<br />
<br />
The Chilkoot River outlet of Chilkoot Lake offers some of the best salmon fishing in Southeast Alaska. Four salmon runs are an open invitation for bears to feast on the spawning salmon. At times, the Chilkoot River Corridor has some of the highest bear activity in the state. The Chilkoot River corridor area is extremely narrow with room for an equally narrow road with few pullouts for tourists and fisherman causing traffic and congestion. This creates a serious conflict between humans and bears.<br />
<br />
Care must be taken by visitors to the area to protect themselves and the bears. Bear and human conflicts have been increasing in recent years to the point that a special human free zone was established to give bears access to the river. In addition a bear viewing platform is under development to provide a safer location for visitors to view bears feeding in the river. The area is part of the Chilkoot Lake State Recreational Site located near Haines, Alaska at the head of the Lutak Inlet in the Lynn Canal.<br />
<br />
The Chilkoot River ranks second in popularity for Southeast Alaska freshwater sports fishing. The area is also an important cultural area for the Tlingit people and site of a culture camp.
    Grizzly bear fishing on Chilkoot Riv...jpg
  • A pair of bald eagles perched in a tree near an eagle nest overlooking the Cattail Pool at Loess Bluffs NWR (formerly known as Squaw Creek). Loess Bluffs is a wildlife refuge managed by the U.S. Fish and Wildlife Service. The 7,440-acre refuge, located in northwest Missouri is known for the migrating waterfowl, particularly Snow Geese. Fall and Spring migration can bring millions of Snow Geese to the refuge. Also, bald eagles and an occasional golden eagle pass through the area during the fall and winter months. <br />
<br />
The 10-mile auto tour around the waterways and marshes of the refuge is an excellent way to spot birds of prey, waterfowl, beavers, otters, and muskrats.
    Pair of bald eagles with setting moo...jpg
  • A pair of bald eagles perched in a tree overlooking the Cattail Pool at Loess Bluffs NWR (formerly known as Squaw Creek). Loess Bluffs is a wildlife refuge managed by the U.S. Fish and Wildlife Service. The 7,440-acre refuge, located in northwest Missouri is known for the migrating waterfowl, particularly Snow Geese. Fall and Spring migration can bring millions of Snow Geese to the refuge. Also, bald eagles and an occasional golden eagle pass through the area during the fall and winter months. <br />
<br />
The 10-mile auto tour around the waterways and marshes of the refuge is an excellent way to spot birds of prey, waterfowl, beavers, otters, and muskrats.
    Pair of bald eagles with setting moo...jpg
  • Sunrise over the Pelican Pool at Loess Bluffs NWR (formerly known as Squaw Creek). Loess Bluffs is a wildlife refuge managed by the U.S. Fish and Wildlife Service. The 7,440-acre refuge, located in northwest Missouri is known for the migrating waterfowl, particularly Snow Geese. Fall and Spring migration can bring millions of Snow Geese to the refuge. Also, bald eagles and an occasional golden eagle pass through the area during the fall and winter months. <br />
<br />
The 10-mile auto tour around the waterways and marshes of the refuge is an excellent way to spot birds of prey, waterfowl, beavers, otters, and muskrats.
    Pond scene, Loess Bluffs NWR.jpg
  • A bald eagle awaits sunrise as the moon sets at Loess Bluffs NWR (formerly known as Squaw Creek). Loess Bluffs is a wildlife refuge managed by the U.S. Fish and Wildlife Service. The 7,440-acre refuge, located in northwest Missouri is known for the migrating waterfowl, particularly Snow Geese. Fall and Spring migration can bring millions of Snow Geese to the refuge. Also, bald eagles and an occasional golden eagle pass through the area during the fall and winter months. <br />
<br />
The 10-mile auto tour around the waterways and marshes of the refuge is an excellent way to spot birds of prey, waterfowl, beavers, otters, and muskrats.
    Bald eagle with setting moon.jpg
  • An injured coyote makes his way across the frozen and snow covered pond of the Snow Goose Complex at Loess Bluffs NWR (formerly known as Squaw Creek). Loess Bluffs is a wildlife refuge managed by the U.S. Fish and Wildlife Service. The 7,440-acre refuge, located in northwest Missouri is known for the migrating waterfowl, particularly Snow Geese. Fall and Spring migration can bring millions of Snow Geese to the refuge. Also, bald eagles and an occasional golden eagle pass through the area during the fall and winter months. <br />
<br />
The 10-mile auto tour around the waterways and marshes of the refuge is an excellent way to spot birds of prey, waterfowl, beavers, otters, and muskrats.
    Coyote at Loess Bluffs-3.jpg
  • A small creek is partially frozen in the North Woods section of the Loess Bluffs NWR (formerly known as Squaw Creek). Loess Bluffs is a wildlife refuge managed by the U.S. Fish and Wildlife Service. The 7,440-acre refuge, located in northwest Missouri is known for the migrating waterfowl, particularly Snow Geese. Fall and Spring migration can bring millions of Snow Geese to the refuge. Also, bald eagles and an occasional golden eagle pass through the area during the fall and winter months. <br />
<br />
The 10-mile auto tour around the waterways and marshes of the refuge is an excellent way to spot birds of prey, waterfowl, beavers, otters, and muskrats.
    North Woods creek.jpg
  • A juvenile bald eagle flys past a bald eagle nest at Loess Bluffs NWR (formerly known as Squaw Creek). Loess Bluffs is a wildlife refuge managed by the U.S. Fish and Wildlife Service. The 7,440-acre refuge, located in northwest Missouri is known for the migrating waterfowl, particularly Snow Geese. Fall and Spring migration can bring millions of Snow Geese to the refuge. Also, bald eagles and an occasional golden eagle pass through the area during the fall and winter months. <br />
<br />
The 10-mile auto tour around the waterways and marshes of the refuge is an excellent way to spot birds of prey, waterfowl, beavers, otters, and muskrats.
    Bald eagle flying by eagle nest.jpg
  • Sunset over the Cattail Pool at Loess Bluffs NWR (formerly known as Squaw Creek). Loess Bluffs is a wildlife refuge managed by the U.S. Fish and Wildlife Service. The 7,440-acre refuge, located in northwest Missouri is known for the migrating waterfowl, particularly Snow Geese. Fall and Spring migration can bring millions of Snow Geese to the refuge. Also, bald eagles and an occasional golden eagle pass through the area during the fall and winter months. <br />
<br />
The 10-mile auto tour around the waterways and marshes of the refuge is an excellent way to spot birds of prey, waterfowl, beavers, otters, and muskrats.
    Sunset at Loess Bluffs NWR.jpg
  • A juvenile bald eagle feeds on the remains of waterfowl in the Pelican Pool at the Loess Bluffs NWR (formerly known as Squaw Creek). Loess Bluffs is a wildlife refuge managed by the U.S. Fish and Wildlife Service. The 7,440-acre refuge, located in northwest Missouri is known for the migrating waterfowl, particularly Snow Geese. Fall and Spring migration can bring millions of Snow Geese to the refuge. Also, bald eagles and an occasional golden eagle pass through the area during the fall and winter months. <br />
<br />
The 10-mile auto tour around the waterways and marshes of the refuge is an excellent way to spot birds of prey, waterfowl, beavers, otters, and muskrats.
    Juvenile bald eagle feeding.jpg
  • Dylan Burbank, a fish technician for the non-profit Northern Southeast Regional Aquaculture Association, Inc. (NSRAA), gently pours the fertilized eggs onto a bed of loosely ground chunks of plastic in the incubation boxes. The boxes are located on the man-made spawning channel of Herman Creek near Haines, Alaska.<br />
<br />
The incubation boxes have a steady flow of fresh water from Herman Creek flowing through them. Over the winter the fertilized eggs will develop into fry. The incubation process is 100% natural. Fry are not fed. Once they are big enough, the fish leave the incubation boxes on their own.<br />
<br />
In 2014, 2.4 million eggs were seeded into these incubation boxes. The 2013 incubation box survival rate was 90%. Without the artificial spawning, natural survival is said to be only 10%.<br />
<br />
Based in Sitka, Alaska, NSRAA conducts salmon enhancement projects in northern southeast Alaska. It is funded through a salmon enhancement tax (of three percent) and cost-recovery income. NSRAA also produces sockeye, chinook, and coho salmon.<br />
<br />
Male chum salmon return to Herman Creek to spawn with female chum salmon during the fall chum salmon run. The chum salmon return to freshwater Herman Creek, tributary of the Klehini River after living three to five years in the saltwater ocean. Spawning only once, chum salmon die approximately two weeks after they spawn. <br />
<br />
Chilkat River and Klehini River chum salmon are the primary food source for one of the largest gatherings of bald eagles in the world. Each fall, bald eagles congregate in the Alaska Chilkat Bald Eagle Preserve.
    NSRAA chum salmon artificial spawnin...jpg
  • David Campbell, a fish technician for the non-profit Northern Southeast Regional Aquaculture Association, Inc. (NSRAA), gently pours the fertilized eggs onto a bed of loosely ground chunks of plastic in the incubation boxes. The boxes are located on the man-made spawning channel of Herman Creek near Haines, Alaska.<br />
<br />
The incubation boxes have a steady flow of fresh water from Herman Creek flowing through them. Over the winter the fertilized eggs will develop into fry. The incubation process is 100% natural. Fry are not fed. Once they are big enough, the fish leave the incubation boxes on their own.<br />
<br />
In 2014, 2.4 million eggs were seeded into these incubation boxes. The 2013 incubation box survival rate was 90%. Without the artificial spawning, natural survival is said to be only 10%.<br />
<br />
Based in Sitka, Alaska, NSRAA conducts salmon enhancement projects in northern southeast Alaska. It is funded through a salmon enhancement tax (of three percent) and cost-recovery income. NSRAA also produces sockeye, chinook, and coho salmon.<br />
<br />
Male chum salmon return to Herman Creek to spawn with female chum salmon during the fall chum salmon run. The chum salmon return to freshwater Herman Creek, tributary of the Klehini River after living three to five years in the saltwater ocean. Spawning only once, chum salmon die approximately two weeks after they spawn. <br />
<br />
Chilkat River and Klehini River chum salmon are the primary food source for one of the largest gatherings of bald eagles in the world. Each fall, bald eagles congregate in the Alaska Chilkat Bald Eagle Preserve.
    NSRAA chum salmon artificial spawnin...jpg
  • Some of the tools used by the fish technicians for the non-profit Northern Southeast Regional Aquaculture Association, Inc. (NSRAA) while working at a man-made spawning channel near Herman Creek located near Haines, Alaska.  <br />
<br />
NSRAA built the channel to collect wild broodstock by harvesting spawning female and male salmon for their eggs and milt to artificially spawn wild chum salmon. The eggs are fertilized with milt and placed in stream-side incubation boxes on Herman Creek and the Klehini River. In 2014, 2.4 million eggs were seeded into these incubation boxes. The 2013 incubation box survival rate was 90%. Without the artificial spawning, natural survival is said to be only 10%.<br />
<br />
Roe and milt is transported in coolers to the incubation boxes where the roe will be fertilized with milt. Pew sticks are used to handle fish carcasses and the shotgun is for protection from bears.<br />
<br />
Based in Sitka, Alaska, NSRAA conducts salmon enhancement projects in northern southeast Alaska. It is funded through a salmon enhancement tax (of three percent) and cost-recovery income. NSRAA also produces sockeye, chinook, and coho salmon.<br />
<br />
Male chum salmon return to Herman Creek to spawn with female chum salmon during the fall chum salmon run. The chum salmon return to freshwater Herman Creek, tributary of the Klehini River after living three to five years in the saltwater ocean. Spawning only once, chum salmon die approximately two weeks after they spawn. <br />
<br />
Chilkat River and Klehini River chum salmon are the primary food source for one of the largest gatherings of bald eagles in the world. Each fall, bald eagles congregate in the Alaska Chilkat Bald Eagle Preserve.
    NSRAA chum salmon artificial spawnin...jpg
  • Dylan Burbank, fish technician for the non-profit Northern Southeast Regional Aquaculture Association, Inc. (NSRAA), displays examples of healthy roe from a female chum salmon captured on the man-made spawning channel of Herman Creek located near Haines, Alaska.  <br />
<br />
NSRAA built the channel to collect wild broodstock by harvesting spawning female and male salmon for their eggs and milt to artificially spawn wild chum salmon. The eggs are fertilized with milt and placed in stream-side incubation boxes on Herman Creek and the Klehini River. In 2014, 2.4 million eggs were seeded into these incubation boxes. The 2013 incubation box survival rate was 90%. Without the artificial spawning, natural survival is said to be only 10%.<br />
<br />
It is important to remove bad eggs to keep the fish healthy while in the incubation boxes.<br />
<br />
Based in Sitka, Alaska, NSRAA conducts salmon enhancement projects in northern southeast Alaska. It is funded through a salmon enhancement tax (of three percent) and cost-recovery income. NSRAA also produces sockeye, chinook, and coho salmon.<br />
<br />
Male chum salmon return to Herman Creek to spawn with female chum salmon during the fall chum salmon run. The chum salmon return to freshwater Herman Creek, tributary of the Klehini River after living three to five years in the saltwater ocean. Spawning only once, chum salmon die approximately two weeks after they spawn. <br />
<br />
Chilkat River and Klehini River chum salmon are the primary food source for one of the largest gatherings of bald eagles in the world. Each fall, bald eagles congregate in the Alaska Chilkat Bald Eagle Preserve.
    NSRAA chum salmon artificial spawnin...jpg
  • Dylan Burbank (left) and David Campbell, fish technicians for the non-profit Northern Southeast Regional Aquaculture Association, Inc. (NSRAA), inspect roe from a female chum salmon captured on the man-made spawning channel of Herman Creek located near Haines, Alaska.  <br />
<br />
NSRAA built the channel to collect wild broodstock by harvesting spawning female and male salmon for their eggs and milt to artificially spawn wild chum salmon. The eggs are fertilized with milt and placed in stream-side incubation boxes on Herman Creek and the Klehini River. In 2014, 2.4 million eggs were seeded into these incubation boxes. The 2013 incubation box survival rate was 90%. Without the artificial spawning, natural survival is said to be only 10%.<br />
<br />
It is important to remove bad eggs to keep the fish healthy while in the incubation boxes.<br />
<br />
Based in Sitka, Alaska, NSRAA conducts salmon enhancement projects in northern southeast Alaska. It is funded through a salmon enhancement tax (of three percent) and cost-recovery income. NSRAA also produces sockeye, chinook, and coho salmon.<br />
<br />
Male chum salmon return to Herman Creek to spawn with female chum salmon during the fall chum salmon run. The chum salmon return to freshwater Herman Creek, tributary of the Klehini River after living three to five years in the saltwater ocean. Spawning only once, chum salmon die approximately two weeks after they spawn. <br />
<br />
Chilkat River and Klehini River chum salmon are the primary food source for one of the largest gatherings of bald eagles in the world. Each fall, bald eagles congregate in the Alaska Chilkat Bald Eagle Preserve.
    NSRAA chum salmon artificial spawnin...jpg
  • Dylan Burbank (left) and David Campbell, fish technicians for the non-profit Northern Southeast Regional Aquaculture Association, Inc. (NSRAA), use a large net to catch chum salmon in a man-made spawning channel near Herman Creek located near Haines, Alaska. <br />
<br />
NSRAA built the channel to collect wild broodstock by harvesting spawning female and male salmon for their eggs and milt to artificially spawn wild chum salmon. The eggs are fertilized with milt and placed in stream-side incubation boxes on Herman Creek and the Klehini River. In 2014, 2.4 million eggs were seeded into these incubation boxes. The 2013 incubation box survival rate was 90%. Without the artificial spawning, natural survival is said to be only 10%.<br />
<br />
Based in Sitka, Alaska, NSRAA conducts salmon enhancement projects in northern southeast Alaska. It is funded through a salmon enhancement tax (of three percent) and cost-recovery income. NSRAA also produces sockeye, chinook, and coho salmon.<br />
<br />
Male chum salmon return to Herman Creek to spawn with female chum salmon during the fall chum salmon run. The chum salmon return to freshwater Herman Creek, tributary of the Klehini River after living three to five years in the saltwater ocean. Spawning only once, chum salmon die approximately two weeks after they spawn. <br />
<br />
Chilkat River and Klehini River chum salmon are the primary food source for one of the largest gatherings of bald eagles in the world. Each fall, bald eagles congregate in the Alaska Chilkat Bald Eagle Preserve.
    NSRAA chum salmon artificial spawnin...jpg
  • Dylan Burbank (left) and David Campbell, fish technicians for the non-profit Northern Southeast Regional Aquaculture Association, Inc. (NSRAA), use a large net to catch chum salmon in a man-made spawning channel near Herman Creek located near Haines, Alaska. <br />
<br />
NSRAA built the channel to collect wild broodstock by harvesting spawning female and male salmon for their eggs and milt to artificially spawn wild chum salmon. The eggs are fertilized with milt and placed in stream-side incubation boxes on Herman Creek and the Klehini River. In 2014, 2.4 million eggs were seeded into these incubation boxes. The 2013 incubation box survival rate was 90%. Without the artificial spawning, natural survival is said to be only 10%.<br />
<br />
Based in Sitka, Alaska, NSRAA conducts salmon enhancement projects in northern southeast Alaska. It is funded through a salmon enhancement tax (of three percent) and cost-recovery income. NSRAA also produces sockeye, chinook, and coho salmon.<br />
<br />
Male chum salmon return to Herman Creek to spawn with female chum salmon during the fall chum salmon run. The chum salmon return to freshwater Herman Creek, tributary of the Klehini River after living three to five years in the saltwater ocean. Spawning only once, chum salmon die approximately two weeks after they spawn. <br />
<br />
Chilkat River and Klehini River chum salmon are the primary food source for one of the largest gatherings of bald eagles in the world. Each fall, bald eagles congregate in the Alaska Chilkat Bald Eagle Preserve.
    NSRAA chum salmon artificial spawnin...jpg
  • Dylan Burbank, a fish technician for the non-profit Northern Southeast Regional Aquaculture Association, Inc. (NSRAA), captures a chum salmon at a temporary weir located on the man-made spawning channel of Herman Creek near Haines, Alaska.<br />
<br />
NSRAA built the channel to collect wild broodstock by harvesting spawning female and male salmon for their eggs and milt to artificially spawn wild chum salmon. The eggs are fertilized with milt and placed in stream-side incubation boxes on Herman Creek and the Klehini River. In 2014, 2.4 million eggs were seeded into these incubation boxes. The 2013 incubation box survival rate was 90%. Without the artificial spawning, natural survival is said to be only 10%.<br />
<br />
Based in Sitka, Alaska, NSRAA conducts salmon enhancement projects in northern southeast Alaska. It is funded through a salmon enhancement tax (of three percent) and cost-recovery income. NSRAA also produces sockeye, chinook, and coho salmon.<br />
<br />
Male chum salmon return to Herman Creek to spawn with female chum salmon during the fall chum salmon run. The chum salmon return to freshwater Herman Creek, tributary of the Klehini River after living three to five years in the saltwater ocean. Spawning only once, chum salmon die approximately two weeks after they spawn. <br />
<br />
Chilkat River and Klehini River chum salmon are the primary food source for one of the largest gatherings of bald eagles in the world. Each fall, bald eagles congregate in the Alaska Chilkat Bald Eagle Preserve.
    NSRAA chum salmon artificial spawnin...jpg
  • Dylan Burbank, a fish technician for the non-profit Northern Southeast Regional Aquaculture Association, Inc. (NSRAA), captures a chum salmon at a temporary weir located on the man-made spawning channel of Herman Creek near Haines, Alaska.<br />
<br />
NSRAA built the channel to collect wild broodstock by harvesting spawning female and male salmon for their eggs and milt to artificially spawn wild chum salmon. The eggs are fertilized with milt and placed in stream-side incubation boxes on Herman Creek and the Klehini River. In 2014, 2.4 million eggs were seeded into these incubation boxes. The 2013 incubation box survival rate was 90%. Without the artificial spawning, natural survival is said to be only 10%.<br />
<br />
Based in Sitka, Alaska, NSRAA conducts salmon enhancement projects in northern southeast Alaska. It is funded through a salmon enhancement tax (of three percent) and cost-recovery income. NSRAA also produces sockeye, chinook, and coho salmon.<br />
<br />
Male chum salmon return to Herman Creek to spawn with female chum salmon during the fall chum salmon run. The chum salmon return to freshwater Herman Creek, tributary of the Klehini River after living three to five years in the saltwater ocean. Spawning only once, chum salmon die approximately two weeks after they spawn. <br />
<br />
Chilkat River and Klehini River chum salmon are the primary food source for one of the largest gatherings of bald eagles in the world. Each fall, bald eagles congregate in the Alaska Chilkat Bald Eagle Preserve.
    NSRAA chum salmon artificial spawnin...jpg
  • Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service (left) and Dr. Scott Ford, avian veterinarian, Avian Speciality Veterinary Services of Alaska (right), take blood samples from a bald eagle (Haliaeetus leucocephalus) captured in the Alaska Chilkat Bald Eagle Preserve. Holding the eagle is Yiwei Wang, graduate student, University of California Santa Cruz. Blood samples are taken of the eagles to study for various things including chemical contaminants such as mercury. Rachel Wheat, graduate student at the University of California Santa Cruz (not pictured) is conducting a bald eagle migration study of eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. The bald eagles are being tracked using solar-powered GPS satellite transmitters (also known as a PTT - platform transmitter terminal) that attach to the backs of the eagles using a lightweight harness. The latest tracking location data of this bald eagle known as "2Z" can be found here: http://www.ecologyalaska.com/eagle-tracker/2z/ . During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 24.jpg
  • Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service (left) and Dr. Scott Ford, avian veterinarian, Avian Speciality Veterinary Services of Alaska (right) take blood samples from a bald eagle (Haliaeetus leucocephalus) captured in the Alaska Chilkat Bald Eagle Preserve. Holding the eagle is Yiwei Wang, graduate student, University of California Santa Cruz. Watching the procedure is Rachel Wheat, graduate student at the University of California Santa Cruz. Blood samples are taken of the eagles to study for various things including chemical contaminants such as mercury. Wheat is conducting a bald eagle migration study of eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. The bald eagles are being tracked using solar-powered GPS satellite transmitters (also known as a PTT - platform transmitter terminal) that attach to the backs of the eagles using a lightweight harness. The latest tracking location data of this bald eagle known as "2Z" can be found here: http://www.ecologyalaska.com/eagle-tracker/2z/ . During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 25.jpg
  • A bald eagle watches the sun rise at Loess Bluffs NWR (formerly known as Squaw Creek). Loess Bluffs is a wildlife refuge managed by the U.S. Fish and Wildlife Service. The 7,440-acre refuge, located in northwest Missouri is known for the migrating waterfowl, particularly Snow Geese. Fall and Spring migration can bring millions of Snow Geese to the refuge. Also, bald eagles and an occasional golden eagle pass through the area during the fall and winter months. <br />
<br />
The 10-mile auto tour around the waterways and marshes of the refuge is an excellent way to spot birds of prey, waterfowl, beavers, otters, and muskrats.
    Bald eagle at sunrise.jpg
  • A bald eagle watches the sun rise as the moon sets at Loess Bluffs NWR (formerly known as Squaw Creek). Loess Bluffs is a wildlife refuge managed by the U.S. Fish and Wildlife Service. The 7,440-acre refuge, located in northwest Missouri is known for the migrating waterfowl, particularly Snow Geese. Fall and Spring migration can bring millions of Snow Geese to the refuge. Also, bald eagles and an occasional golden eagle pass through the area during the fall and winter months. <br />
<br />
The 10-mile auto tour around the waterways and marshes of the refuge is an excellent way to spot birds of prey, waterfowl, beavers, otters, and muskrats.
    Bald eagle with setting moon-2.jpg
  • An injured coyote makes his way across the frozen and snow covered pond of the Snow Goose Complex at Loess Bluffs NWR (formerly known as Squaw Creek). Loess Bluffs is a wildlife refuge managed by the U.S. Fish and Wildlife Service. The 7,440-acre refuge, located in northwest Missouri is known for the migrating waterfowl, particularly Snow Geese. Fall and Spring migration can bring millions of Snow Geese to the refuge. Also, bald eagles and an occasional golden eagle pass through the area during the fall and winter months. <br />
<br />
The 10-mile auto tour around the waterways and marshes of the refuge is an excellent way to spot birds of prey, waterfowl, beavers, otters, and muskrats.
    Coyote at Loess Bluffs-4.jpg
  • An injured coyote makes his way across the frozen and snow covered pond of the Snow Goose Complex at Loess Bluffs NWR  (formerly known as Squaw Creek). Loess Bluffs is a wildlife refuge managed by the U.S. Fish and Wildlife Service. The 7,440-acre refuge, located in northwest Missouri is known for the migrating waterfowl, particularly Snow Geese. Fall and Spring migration can bring millions of Snow Geese to the refuge. Also, bald eagles and an occasional golden eagle pass through the area during the fall and winter months. <br />
<br />
The 10-mile auto tour around the waterways and marshes of the refuge is an excellent way to spot birds of prey, waterfowl, beavers, otters, and muskrats.
    Coyote at Loess Bluffs.jpg
  • A bald eagle swoops down on waterfowl in the Snow Goose Pond Complex at Loess Bluffs NWR (formerly known as Squaw Creek). Loess Bluffs  is a wildlife refuge managed by the U.S. Fish and Wildlife Service. The 7,440-acre refuge, located in northwest Missouri is known for the migrating waterfowl, particularly Snow Geese. Fall and Spring migration can bring millions of Snow Geese to the refuge. Also, bald eagles and an occasional golden eagle pass through the area during the fall and winter months. <br />
<br />
The 10-mile auto tour around the waterways and marshes of the refuge is an excellent way to spot birds of prey, waterfowl, beavers, otters, and muskrats.
    Bald eagle attacking ducks.jpg
  • Sunset over the Cattail Pool at Loess Bluffs NWR (formerly known as Squaw Creek). Loess Bluffs is a wildlife refuge managed by the U.S. Fish and Wildlife Service. The 7,440-acre refuge, located in northwest Missouri is known for the migrating waterfowl, particularly Snow Geese. Fall and Spring migration can bring millions of Snow Geese to the refuge. Also, bald eagles and an occasional golden eagle pass through the area during the fall and winter months. <br />
<br />
The 10-mile auto tour around the waterways and marshes of the refuge is an excellent way to spot birds of prey, waterfowl, beavers, otters, and muskrats.
    Sunset at Loess Bluffs NWR-3.jpg
  • Dylan Burbank (right), and David Campbell, fish technicians for the non-profit Northern Southeast Regional Aquaculture Association, Inc. (NSRAA), measure and record the weight of eggs collected from chum salmon captured at the man-made spawning channels at Herman Creek, located near Haines, Alaska.  <br />
<br />
In 2014, 2.4 million eggs were seeded into these incubation boxes. The 2013 incubation box survival rate was 90%. Without the artificial spawning, natural survival is said to be only 10%.<br />
<br />
Weighing the eggs is the way the technicians determine how many eggs are placed in the incubation boxes. After weighing, the roe will be fertilized with the milt and then placed in the incubation boxes. Over the winter the fertilized eggs will develop into fry. The incubation process is 100% natural. Fry are not fed. Once they are big enough, the fish leave the incubation boxes on their own.<br />
<br />
Based in Sitka, Alaska, NSRAA conducts salmon enhancement projects in northern southeast Alaska. It is funded through a salmon enhancement tax (of three percent) and cost-recovery income. NSRAA also produces sockeye, chinook, and coho salmon.<br />
<br />
Male chum salmon return to Herman Creek to spawn with female chum salmon during the fall chum salmon run. The chum salmon return to freshwater Herman Creek, tributary of the Klehini River after living three to five years in the saltwater ocean. Spawning only once, chum salmon die approximately two weeks after they spawn. <br />
<br />
Chilkat River and Klehini River chum salmon are the primary food source for one of the largest gatherings of bald eagles in the world. Each fall, bald eagles congregate in the Alaska Chilkat Bald Eagle Preserve.
    NSRAA chum salmon artificial spawnin...jpg
  • David Campbell, a fish technician for the non-profit Northern Southeast Regional Aquaculture Association, Inc. (NSRAA), tosses a chum salmon ready for sorting and processing at a man-made spawning channel near Herman Creek located near Haines, Alaska. Males are to the left, females to the right.<br />
<br />
NSRAA built the channel to collect wild broodstock by harvesting spawning female and male salmon for their eggs and milt to artificially spawn wild chum salmon. The eggs are fertilized with milt and placed in stream-side incubation boxes on Herman Creek and the Klehini River. In 2014, 2.4 million eggs were seeded into these incubation boxes. The 2013 incubation box survival rate was 90%. Without the artificial spawning, natural survival is said to be only 10%.<br />
<br />
Based in Sitka, Alaska, NSRAA conducts salmon enhancement projects in northern southeast Alaska. It is funded through a salmon enhancement tax (of three percent) and cost-recovery income. NSRAA also produces sockeye, chinook, and coho salmon.<br />
<br />
Male chum salmon return to Herman Creek to spawn with female chum salmon during the fall chum salmon run. The chum salmon return to freshwater Herman Creek, tributary of the Klehini River after living three to five years in the saltwater ocean. Spawning only once, chum salmon die approximately two weeks after they spawn. <br />
<br />
Chilkat River and Klehini River chum salmon are the primary food source for one of the largest gatherings of bald eagles in the world. Each fall, bald eagles congregate in the Alaska Chilkat Bald Eagle Preserve.
    NSRAA chum salmon artificial spawnin...jpg
  • Dylan Burbank, a fish technician for the non-profit Northern Southeast Regional Aquaculture Association, Inc. (NSRAA), tosses a chum salmon ready for sorting and processing at a man-made spawning channel near Herman Creek located near Haines, Alaska.<br />
<br />
NSRAA built the channel to collect wild broodstock by harvesting spawning female and male salmon for their eggs and milt to artificially spawn wild chum salmon. The eggs are fertilized with milt and placed in stream-side incubation boxes on Herman Creek and the Klehini River. In 2014, 2.4 million eggs were seeded into these incubation boxes. The 2013 incubation box survival rate was 90%. Without the artificial spawning, natural survival is said to be only 10%.<br />
<br />
Based in Sitka, Alaska, NSRAA conducts salmon enhancement projects in northern southeast Alaska. It is funded through a salmon enhancement tax (of three percent) and cost-recovery income. NSRAA also produces sockeye, chinook, and coho salmon.<br />
<br />
Male chum salmon return to Herman Creek to spawn with female chum salmon during the fall chum salmon run. The chum salmon return to freshwater Herman Creek, tributary of the Klehini River after living three to five years in the saltwater ocean. Spawning only once, chum salmon die approximately two weeks after they spawn. <br />
<br />
Chilkat River and Klehini River chum salmon are the primary food source for one of the largest gatherings of bald eagles in the world. Each fall, bald eagles congregate in the Alaska Chilkat Bald Eagle Preserve.
    NSRAA chum salmon artificial spawnin...jpg
  • Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service, records information about a bald eagle (Haliaeetus leucocephalus) that was captured for a study being conducted by Rachel Wheat, a graduate student at the University of California Santa Cruz. Wheat is conducting a bald eagle migration study of eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. The bald eagles are being tracked using solar-powered GPS satellite transmitters (also known as a PTT - platform transmitter terminal) that attach to the backs of the eagles using a lightweight harness. During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 33.jpg
  • Under a wary eye of a bald eagle (Haliaeetus leucocephalus), Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service (left), and Rachel Wheat, a graduate student at the University of California Santa Cruz, reset one of the leg snare trap being used to trap bald eagles on the gravel bar of the Chilkat River. Wheat is conducting a bald eagle migration study of eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. The bald eagles are being tracked using solar-powered GPS satellite transmitters (also known as a PTT - platform transmitter terminal) that attach to the backs of the eagles using a lightweight harness. During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 63.jpg
  • Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service (left), and Rachel Wheat, a graduate student at the University of California Santa Cruz, demonstrate the size and reach of the net launcher used to capture bald eagles on the Chilkat River. The net launcher, sometimes also referred to as a ballistic net, uses three projectiles that are attached to a large lightweight net. A salmon carcass is used at bait in front of the launcher. A radio-controlled trigger to launch the net is used when an eagle lands next to the bait. The trap was used to capture bald eagles for a study being conducted by Rachel Wheat, a graduate student at the University of California Santa Cruz. Wheat is conducting a bald eagle migration study of eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. The bald eagles are being tracked using solar-powered GPS satellite transmitters (also known as a PTT - platform transmitter terminal) that attach to the backs of the eagles using a lightweight harness. During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 73.jpg
  • Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service (left), and Rachel Wheat, a graduate student at the University of California Santa Cruz, cross the snow-covered gravel bar of the Chilkat River to remove the traps they had set to catch bald eagles. Each morning under darkness they would set their traps. Then in the late afternoon they would remove them. Wheat is conducting a bald eagle migration study of eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. The bald eagles are being tracked using solar-powered GPS satellite transmitters (also known as a PTT - platform transmitter terminal) that attach to the backs of the eagles using a lightweight harness. During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 74.jpg
  • Once a bald eagle (Haliaeetus leucocephalus) is captured, a hood is placed on the eagle to keep it calm. Additionally, a wrap is placed around the eagle to protect its wings during body measurement collection and GPS satellite transmitter installation. Here Rachel Wheat, a graduate student at the University of California Santa Cruz (left), Yiwei Wang, graduate student, University of California Santa Cruz (center) and Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service (right) prepare to band a captured bald eagle that will be part of a migration study of eagles that visit the Chilkat River. The latest tracking location data of this bald eagle known as "2Z" can be found here: http://www.ecologyalaska.com/eagle-tracker/2z/ . During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 6.jpg
  • Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service (center), instructs Rachel Wheat, a graduate student at the University of California Santa Cruz (left) how to place calipers to take length and depth measurements of the beak of a bald eagle (Haliaeetus leucocephalus) captured in the Alaska Chilkat Bald Eagle Preserve. Beak measurements and toe claw (hallux) length are two measurements that help determine the gender of a bald eagle. Female bald eagles typically have larger beaks, feet and talons. This reversal of gender size is called reverse sexual size dimorphism. Wheat is conducting a bald eagle migration study of eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. The bald eagles are being tracked using solar-powered GPS satellite transmitters (also known as a PTT - platform transmitter terminal) that attach to the backs of the eagles using a lightweight harness. Assisting Wheat with the measurements by holding the eagle is Yiwei Wang, graduate student, University of California Santa Cruz (right). The latest tracking location data of this bald eagle known as "2Z" can be found here: http://www.ecologyalaska.com/eagle-tracker/2z/ . During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 12.jpg
  • Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service (center), attaches a solar-powered GPS satellite transmitter (also known as a PTT - platform transmitter terminal) to the back of a bald eagle (Haliaeetus leucocephalus) using a lightweight harness. Assisting Lewis with the attaching of the GPS satellite transmitter by holding the eagle is Yiwei Wang, graduate student, University of California Santa Cruz (right). Dr. Scott Ford, avian veterinarian, Avian Speciality Veterinary Services of Alaska (left), films the procedure using a Go-Pro camera. The eagle, captured in the Alaska Chilkat Bald Eagle Preserve will be tracked by Rachel Wheat, a graduate student at the University of California Santa Cruz. Wheat is conducting a bald eagle migration study of eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. The latest tracking location data of this bald eagle known as "2Z" can be found here: http://www.ecologyalaska.com/eagle-tracker/2z/ . During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 20.jpg
  • Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service (center), takes blood samples from a bald eagle (Haliaeetus leucocephalus) captured in the Alaska Chilkat Bald Eagle Preserve. Assisting Lewis is Rachel Wheat, a graduate student at the University of California Santa Cruz (left) and Yiwei Wang, graduate student, University of California Santa Cruz (right). Blood samples are taken of the eagles to study for various things including chemical contaminants such as mercury. Wheat is conducting a bald eagle migration study of eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. The bald eagles are being tracked using solar-powered GPS satellite transmitters (also known as a PTT - platform transmitter terminal) that attach to the backs of the eagles using a lightweight harness. The latest location of this eagle can be found here: http://www.ecologyalaska.com/eagle-tracker/4p/ . During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 45.jpg
  • Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service takes blood samples from a bald eagle (Haliaeetus leucocephalus) captured in the Alaska Chilkat Bald Eagle Preserve. Assisting Lewis is Rachel Wheat, a graduate student at the University of California Santa Cruz. Blood samples are taken of the eagles to study for various things including chemical contaminants such as mercury. Wheat is conducting a bald eagle migration study of eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. The bald eagles are being tracked using solar-powered GPS satellite transmitters (also known as a PTT - platform transmitter terminal) that attach to the backs of the eagles using a lightweight harness. The latest location of this eagle can be found here: http://www.ecologyalaska.com/eagle-tracker/4p/ . During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 46.jpg
  • For a moment Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service, thinks a bald eagle might be caught in one of the leg snare traps he placed in the Chilkat River in the Alaska Chilkat Bald Eagle Preserve. The bald eagles were being caught as part of a research study being conducted by Rachel Wheat, a graduate student at the University of California Santa Cruz. Wheat is studying the migration of bald eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. Once caught, solar-powered GPS satellite transmitters (also known as a PTT - platform transmitter terminal) are attached to the backs of the eagles using a lightweight harness. During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 58.jpg
  • Rachel Wheat, a graduate student at the University of California Santa Cruz (left) and Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service, use spotting scopes to check on leg snare and net launcher traps they set on the gravel bar of the Chilkat River. The traps are being used to capture bald eagles that will be used in a study being conducted by Wheat. Once the traps are set, it is a matter of waiting -- and waiting. On some days no eagles were caught, on others, only one or two were caught. Wheat is conducting a bald eagle migration study of eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. The bald eagles are being tracked using solar-powered GPS satellite transmitters (also known as a PTT - platform transmitter terminal) that attach to the backs of the eagles using a lightweight harness. During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 68-2.jpg
  • Under the setting moon, rising sun and a bald eagle flying above, Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service (left) and Rachel Wheat, a graduate student at the University of California Santa Cruz wait for bald eagles to land on the traps they set on the gravel bar of the Chilkat River. Each morning under the cover of darkness they would set their traps. The traps are being used to capture bald eagles that will be used in a study being conducted by Wheat. Once the traps are set, it is a matter of waiting -- and waiting. On some days no eagles were caught, on others, only one or two were caught. Wheat is conducting a bald eagle migration study of eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. The bald eagles are being tracked using solar-powered GPS satellite transmitters (also known as a PTT - platform transmitter terminal) that attach to the backs of the eagles using a lightweight harness. During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 68.jpg
  • Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service, tries to keep the bottoms of his frozen boots warm by standing on an insulation pad. Lewis was helping with the capture of bald eagles on the Chilkat River in the Alaska Chilkat Bald Eagle Preserve. The bald eagles were being caught as part of a research study being conducted by Rachel Wheat, a graduate student at the University of California Santa Cruz. Wheat is studying the migration of bald eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. Once caught, solar-powered GPS satellite transmitters (also known as a PTT - platform transmitter terminal) are attached to the backs of the eagles using a lightweight harness. During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 70.jpg
  • Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service (left), and Rachel Wheat, a graduate student at the University of California Santa Cruz, remove one of the leg snare traps they used catch bald eagles. Each morning under darkness they would set their traps. Then in the late afternoon they would remove them. Wheat is conducting a bald eagle migration study of eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. The bald eagles are being tracked using solar-powered GPS satellite transmitters (also known as a PTT - platform transmitter terminal) that attach to the backs of the eagles using a lightweight harness. During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 83.jpg
  • Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service used leg snare traps and also a net launcher to capture bald eagles on the Chilkat River in the Alaska Chilkat Bald Eagle Preserve. Pictured here is a net launcher. The net launcher, sometimes also referred to as a ballistic net, uses three projectiles that are attached to a large lightweight net. A salmon carcass is used at bait in front of the launcher. A radio-controlled trigger to launch the net is used when an eagle lands next to the bait. The trap was used to capture bald eagles for a study being conducted by Rachel Wheat, a graduate student at the University of California Santa Cruz. Wheat is conducting a bald eagle migration study of eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. The bald eagles are being tracked using solar-powered GPS satellite transmitters (also known as a PTT - platform transmitter terminal) that attach to the backs of the eagles using a lightweight harness. During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 85.jpg
  • A male anhinga (Anhinga anhinga) regurgitates a fish it caught into the mouth of one of its chicks. The nest is in the Gatorland alligator breeding marsh and bird sanctuary near Orlando, Florida. The bird sanctuary is the largest and most easily accessible wild wading bird rookery in east central Florida.
    Anhinga feeds chick.jpg
  • Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service, positions a leg band on one of the bald eagles in the bald eagle migration study being conducted by Rachel Wheat, a graduate student at the University of California Santa Cruz. Rivets will permanently seal the band around the eagle’s leg. The bald eagles in Wheat’s study receive two different leg bands. Along with a a bright green auxiliary leg band, the eagles in Wheat's study also receive a silver aluminum U.S. Geological Survey (USGS) leg band. The bright green leg bands have larger identification information than the USGS bands making it easier to read using binoculars or a spotting scope. Wheat is conducting a bald eagle migration study of eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. The bald eagles are being tracked using solar-powered GPS satellite transmitters (also known as a PTT - platform transmitter terminal) that attach to the backs of the eagles using a lightweight harness. Should the GPS transmitter fail or if the bird is found dead, spotted or recaptured, the leg bands can be another source of information. The latest tracking location data of this bald eagle known as "2Z" can be found here: http://www.ecologyalaska.com/eagle-tracker/2z/ . During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 7.jpg
  • Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service, instructs Rachel Wheat, a graduate student at the University of California Santa Cruz how to place calipers to take length and depth measurements of the beak of a bald eagle (Haliaeetus leucocephalus) captured in the Alaska Chilkat Bald Eagle Preserve. Beak measurements and toe claw (hallux) length are two measurements that help determine the gender of a bald eagle. Female bald eagles typically have larger beaks, feet and talons. This reversal of gender size is called reverse sexual size dimorphism. Wheat is conducting a bald eagle migration study of eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. The bald eagles are being tracked using solar-powered GPS satellite transmitters (also known as a PTT - platform transmitter terminal) that attach to the backs of the eagles using a lightweight harness. The latest tracking location data of this bald eagle known as "2Z" can be found here: http://www.ecologyalaska.com/eagle-tracker/2z/ . During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 11.jpg
  • Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service (left), attaches a solar-powered GPS satellite transmitter (also known as a PTT - platform transmitter terminal) to the back of a bald eagle (Haliaeetus leucocephalus) using a lightweight harness. Assisting Lewis with the attaching of the GPS satellite transmitter by holding the eagle is Yiwei Wang, graduate student, University of California Santa Cruz (right). The eagle, captured in the Alaska Chilkat Bald Eagle Preserve will be tracked by Rachel Wheat, a graduate student at the University of California Santa Cruz. Wheat is conducting a bald eagle migration study of eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. The latest tracking location data of this bald eagle known as "2Z" can be found here: http://www.ecologyalaska.com/eagle-tracker/2z/ . During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 16.jpg
  • Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service (left), attaches a solar-powered GPS satellite transmitter (also known as a PTT - platform transmitter terminal) to the back of a bald eagle (Haliaeetus leucocephalus) using a lightweight harness. Assisting Lewis with the attaching of the GPS satellite transmitter by holding the eagle is Yiwei Wang, graduate student, University of California Santa Cruz (right). The eagle, captured in the Alaska Chilkat Bald Eagle Preserve will be tracked by Rachel Wheat, a graduate student at the University of California Santa Cruz. Wheat is conducting a bald eagle migration study of eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. The latest tracking location data of this bald eagle known as "2Z" can be found here: http://www.ecologyalaska.com/eagle-tracker/2z/ . During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 17.jpg
  • Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service (left), attaches a solar-powered GPS satellite transmitter (also known as a PTT - platform transmitter terminal) to the back of a bald eagle (Haliaeetus leucocephalus) using a lightweight harness. Assisting Lewis with the attaching of the GPS satellite transmitter by holding the eagle is Yiwei Wang, graduate student, University of California Santa Cruz (right). The eagle, captured in the Alaska Chilkat Bald Eagle Preserve will be tracked by Rachel Wheat, a graduate student at the University of California Santa Cruz. Wheat is conducting a bald eagle migration study of eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. The latest tracking location data of this bald eagle known as "2Z" can be found here: http://www.ecologyalaska.com/eagle-tracker/2z/ . During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 19.jpg
  • Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service (center) prepares to open the wings of a juvenile bald eagle (Haliaeetus leucocephalus) so it may be photographed. Photos of a juvenile bald eagle’s molting, particularly in the head and tail feathers, can help determine its age before it reaches maturity due to the sequential molting pattern eagles experience during the first five years of their life. Rachel Wheat, a graduate student at the University of California Santa Cruz (left), is conducting a bald eagle migration study of eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. The bald eagles are being tracked using solar-powered GPS satellite transmitters (also known as a PTT - platform transmitter terminal) that attach to the backs of the eagles using a lightweight harness. Assisting is Dr. Chris Wilmers, associate professor, University of California Santa Cruz (right). Watching the procedure is Dr. Taal Levi, wildlife ecologist, Cary Institute of Ecosystem Studies (second from left). The latest tracking location data of this bald eagle known as "2Z" can be found here: http://www.ecologyalaska.com/eagle-tracker/2z/ . During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 31.jpg
  • Rachel Wheat, a graduate student at the University of California Santa Cruz (left), Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service (center) and Dr. Chris Wilmers, associate professor, University of California Santa Cruz (right) hold up the wings of a juvenile bald eagle (Haliaeetus leucocephalus) so it may be photographed. Photos of a juvenile bald eagle’s molting, particularly in the head and tail feathers, can help determine its age before it reaches maturity due to the sequential molting pattern eagles experience during the first five years of their life. Wheat is conducting a bald eagle migration study of eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. The bald eagles are being tracked using solar-powered GPS satellite transmitters (also known as a PTT - platform transmitter terminal) that attach to the backs of the eagles using a lightweight harness. The latest tracking location data of this bald eagle known as "2Z" can be found here: http://www.ecologyalaska.com/eagle-tracker/2z/ . During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 32.jpg
  • Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service, gently resets one of the leg snare traps being used to trap bald eagles on the gravel bar of the Chilkat River. When a bald eagle lands on the hinged perch, a spring is sprung which tightens a looped cord around the eagle’s legs. Lewis, and Dr. Scott Ford, avian veterinarian, Avian Speciality Veterinary Services of Alaska (left) were assisting in the capture of bald eagles for a research study being conducted by Rachel Wheat, a graduate student at the University of California Santa Cruz. Wheat is studying the migration of bald eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. The bald eagles are being tracked using solar-powered GPS satellite transmitters (also known as a PTT - platform transmitter terminal) that attach to the backs of the eagles using a lightweight harness. During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 41.jpg
  • Once leg snare and net launcher traps to catch bald eagles are set, it is a matter of waiting -- and waiting. On some days no eagles were caught, on others, only one or two were caught. The eagles were being caught as part of a research study being conducted by Rachel Wheat, a graduate student at the University of California Santa Cruz. Wheat is studying the migration of bald eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. Once caught, solar-powered GPS satellite transmitters (also known as a PTT - platform transmitter terminal) are attached to the backs of the eagles using a lightweight harness. The eagles are then released back into the wild. Pictured here on the bank of the Chilkat River (left to right) are Dr. Scott Ford, avian veterinarian, Avian Speciality Veterinary Services of Alaska,  Yiwei Wang, graduate student, University of California Santa Cruz, Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service, and Wheat. During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 42.jpg
  • Rachel Wheat, a graduate student at the University of California Santa Cruz (center) holds bald eagle (Haliaeetus leucocephalus) "4P" as it is being prepared to be released back into the wild. Yiwei Wang, graduate student, University of California Santa Cruz (left), and Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service (right), remove the leather booties that protected the researchers from the bald eagle’s powerful talons during the process of taking measurements and attaching the GPS satellite transmitter. Wheat is conducting a bald eagle migration study of eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. The bald eagles are being tracked using solar-powered GPS satellite transmitters (also known as a PTT - platform transmitter terminal) that attach to the backs of the eagles using a lightweight harness. The latest location of this eagle can be found here: http://www.ecologyalaska.com/eagle-tracker/4p/ . During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 51.jpg
  • Rachel Wheat, a graduate student at the University of California Santa Cruz, releases bald eagle (Haliaeetus leucocephalus) "4P" back into the wild. Watching the release is Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service, who helped Wheat with the capturing of the bald eagles. Wheat is conducting a bald eagle migration study of eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. The bald eagles are being tracked using solar-powered GPS satellite transmitters (also known as a PTT - platform transmitter terminal) that attach to the backs of the eagles using a lightweight harness. The latest location of this eagle can be found here: http://www.ecologyalaska.com/eagle-tracker/4p/ . During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 53.jpg
  • Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service, uses a spotting scope to check on leg snare traps attached to logs in the gravel bar of the Chilkat River. The traps are being used to capture bald eagles that will be used in a study being conducted by Rachel Wheat, a graduate student at the University of California Santa Cruz. Wheat is conducting a bald eagle migration study of eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. The bald eagles are being tracked using solar-powered GPS satellite transmitters (also known as a PTT - platform transmitter terminal) that attach to the backs of the eagles using a lightweight harness. During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 55.jpg
  • Once leg snare and net launcher traps to catch bald eagles are set, it is a matter of waiting -- and waiting. On some days no eagles were caught, on others, only one or two were caught. The bald eagles were being caught as part of a research study being conducted by Rachel Wheat, a graduate student at the University of California Santa Cruz. Wheat is studying the migration of bald eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. Once caught, solar-powered GPS satellite transmitters (also known as a PTT - platform transmitter terminal) are attached to the backs of the eagles using a lightweight harness. The eagles are then released back into the wild. Pictured here on the bank of the Chilkat River (left to right) are Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service (left), Wheat, and Yiwei Wang, graduate student, University of California Santa Cruz (right). During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 56.jpg
  • Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service, places camouflage on a net launcher that he is using to capture bald eagles on the gravel bar of the Chilkat River. The net launcher, along with leg snare traps, is being used to capture bald eagles that will be used in a study being conducted by Rachel Wheat, a graduate student at the University of California Santa Cruz. Wheat is conducting a bald eagle migration study of eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. The bald eagles are being tracked using solar-powered GPS satellite transmitters (also known as a PTT - platform transmitter terminal) that attach to the backs of the eagles using a lightweight harness. Pictured in the background is the Tlingit village of Klukwan. During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 60.jpg
  • Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service, walks on the gravel bar of the Chilkat River in the Alaska Chilkat Bald Eagle Preserve after placing camouflage on a net launcher that he is using to capture bald eagle. The net launcher, along with leg snare traps, is being used to capture bald eagles that will be used in a study being conducted by Rachel Wheat, a graduate student at the University of California Santa Cruz. Wheat is conducting a bald eagle migration study of eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. The bald eagles are being tracked using solar-powered GPS satellite transmitters (also known as a PTT - platform transmitter terminal) that attach to the backs of the eagles using a lightweight harness. Pictured in the background is the Tlingit village of Klukwan. During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 61.jpg
  • Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service (right), uses a spotting scope to check on leg snare traps attached to logs in the gravel bar of the Chilkat River. The traps are being used to capture bald eagles that will be used in a study being conducted by Rachel Wheat, a graduate student at the University of California Santa Cruz (left). Once leg snare and net launcher traps to catch bald eagles are set, it is a matter of waiting -- and waiting. On some days no eagles were caught, on others, only one or two were caught. Wheat is conducting a bald eagle migration study of eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. The bald eagles are being tracked using solar-powered GPS satellite transmitters (also known as a PTT - platform transmitter terminal) that attach to the backs of the eagles using a lightweight harness. During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 62.jpg
  • Rachel Wheat, a graduate student at the University of California Santa Cruz (left) and Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service, use spotting scopes to check on leg snare and net launcher traps they set on the gravel bar of the Chilkat River. The traps are being used to capture bald eagles that will be used in a study being conducted by Wheat. Once the traps are set, it is a matter of waiting -- and waiting. On some days no eagles were caught, on others, only one or two were caught. Wheat is conducting a bald eagle migration study of eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. The bald eagles are being tracked using solar-powered GPS satellite transmitters (also known as a PTT - platform transmitter terminal) that attach to the backs of the eagles using a lightweight harness. During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 66.jpg
  • Rachel Wheat, a graduate student at the University of California Santa Cruz (left) and Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service, use spotting scopes to check on leg snare and net launcher traps they set on the gravel bar of the Chilkat River. The traps are being used to capture bald eagles that will be used in a study being conducted by Wheat. Once the traps are set, it is a matter of waiting -- and waiting. On some days no eagles were caught, on others, only one or two were caught. Wheat is conducting a bald eagle migration study of eagles that visit the Chilkat River for her doctoral dissertation. She hopes to learn how closely eagles track salmon availability across time and space. The bald eagles are being tracked using solar-powered GPS satellite transmitters (also known as a PTT - platform transmitter terminal) that attach to the backs of the eagles using a lightweight harness. During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 67.jpg
  • Rachel Wheat, a graduate student at the University of California Santa Cruz (left) and Steve Lewis, Raptor Management Coordinator, U.S. Fish & Wildlife Service, share a laugh about whether “Price Is Right” rules should be used for the game they invented on predicting when the next bald eagle would be caught. Lewis and Wheat were using leg snare traps and a net launcher to capture bald eagles on the Chilkat River in the Alaska Chilkat Bald Eagle Preserve for a bald eagle migration study that Wheat is conducting for her doctoral dissertation. Wheat hopes to learn how closely eagles track salmon availability across time and space. The bald eagles are being tracked using solar-powered GPS satellite transmitters (also known as a PTT - platform transmitter terminal) that attach to the backs of the eagles using a lightweight harness. During late fall, bald eagles congregate along the Chilkat River to feed on salmon. This gathering of bald eagles in the Alaska Chilkat Bald Eagle Preserve is believed to be one of the largest gatherings of bald eagles in the world.
    Bald eagle migration research - 69.jpg
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