Tuesday, July 10, 2012

Chinook Salmon



http://www.psmfc.org/habitat/edu_chinook_facts.html

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CHINOOK SALMON DID YOU KNOW?Chinook salmon may spend between 1 to 8 years in the ocean before returning to their natal streams to spawn, though the average is 3 to 4 years.
SCIENTIFIC NAME:Oncorhynchus tshawytscha, from the Greek words onkos (hook), rynchos (nose) Male and tshawytscha (the common name for the species in Siberia and Alaska).
COMMON NAMES: King salmon, tyee salmon, Columbia River salmon, black salmon, chub salmon, hook bill salmon, winter salmon and blackmouth.
DESCRIPTION: The chinook salmon is blue-green on the back and top of the head with silvery sides and white bellies; black spots on the upper half of its body with gray/black mouth coloration. Up to 58 inches in length and weigh up to 129 pounds; although chinook salmon is generally up to 36 inches in length and weigh up to 30 pounds.
LIFE CYCLE: Spawning in streams that are larger and deeper than other salmon utilize, chinook salmon spawn from late summer to late fall, depending on the run. Fry and smolts usually stay in freshwater from 1 to 18 months before travelling downstream to estuaries, where they remain up to 189 days. Chinook salmon spend 1 to 8 years at sea before returning to natal streams to spawn.
RANGE: Chinook salmon range from Kotzebue Sound, Alaska, to Santa Barbara, California. Spawning and rearing chinook are found in most of the rivers in this region, with significant runs in the Columbia River, Rogue River, and Puget Sound.
HABITAT AND ECOLOGY: Freshwater streams and estuaries provide important habitat for chinook salmon. They feed on terrestrial and aquatic insects, amphipods, and other crustaceans while young, and primarily on other fish when older. Eggs are laid in deeper water with larger gravel, and need cool water and good water flow (to supply oxygen) to survive. Mortality of chinook salmon in the early life stages is usually high due to natural predation and human induced changes in habitat, such as siltation, high water temperatures, low oxygen conditions, loss of stream cover and reductions in river flow. These impacts are primarily caused by poor forestry practices, dams, and water diversions.Estuaries and their associated wetlands provide vital nursery areas for the chinook prior to its departure to the open ocean. Wetlands not only help buffer the estuary from silt and pollutants, but also provide important feeding and hiding areas. The draining and filling of wetlands and the pollution of the estuary from industrial discharges and run-off, negatively impact chinook salmon.
ECONOMIC VALUE: Chinook salmon is highly valued by commercial fishermen, despite their scarcity relative to other Pacific salmon along most of the Pacific coast. Chinook salmon is also an important subsistence fish and a valuable recreational resource.
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 http://en.wikipedia.org/wiki/Columbia_River_salmon

Chinook salmon

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Chinook "king" salmon
A male Chinook in its spawning phase
Conservation status
Scientific classification
Kingdom: Animalia
Phylum: Chordata
Class: Actinopterygii
Order: Salmoniformes
Family: Salmonidae
Genus: Oncorhynchus
Species: O. tshawytscha
Binomial name
Oncorhynchus tshawytscha
(Walbaum, 1792)
The Chinook salmon, Oncorhynchus tshawytscha, is the largest species in the Pacific (Oncorhynchus) salmon family. Other commonly used names for the species include king salmon, Quinnat salmon, spring salmon and Tyee salmon. Chinook are an anadromous fish native to the north Pacific Ocean and the river systems of western North America ranging from California to Alaska. They are also native to Asian rivers ranging from northern Japan to the Palyavaam River in the Siberian far east, although only the Kamchatka Peninsula supports relatively persistent native populations. They have been introduced to other parts of the world, including New Zealand and the Great Lakes. A large Chinook is a prized and sought-after catch for a sporting angler. The flesh of the salmon is also highly valued for its dietary nutritional content, which includes high levels of important omega-3 fatty acids.

Contents

Physical description

The Chinook is blue-green,red or purple on the back and top of the head with silvery sides and white ventral surfaces. It has black spots on its tail and the upper half of its body. Its mouth is often dark purple. Adult fish range in size from 33 to 36 in (840 to 910 mm) but may be up to 58 inches (1,500 mm) in length; they average 10 to 50 pounds (4.5 to 23 kg), but may reach 130 pounds (59 kg). The current sport-caught world record, 97.25 pounds (44.11 kg), was caught on May 17, 1985 in the Kenai River (Kenai Peninsula, Alaska). Some were found dead at well over 100 lb. The commercial catch world record is 126 pounds (57 kg) caught near Rivers Inlet British Columbia in the late 1970s.[1]x

Life cycle

Chinook salmon may spend one to eight years in the ocean (averaging from three to four years)[2] before returning to their home rivers to spawn. Chinook spawn in larger and deeper waters than other salmon species and can be found on the spawning redds (nests) from September through to December. After laying eggs, females guard the redd from four to 25 days before dying, while males seek additional mates. Chinook salmon eggs hatch, depending upon water temperature, 90 to 150 days after deposition. Egg deposits are timed to ensure the young salmon fry emerge during an appropriate season for survival and growth. Fry and parr (young fish) usually stay in freshwater 12 to 18 months before traveling downstream to estuaries, where they remain as smolts for several months. Some chinooks return to the fresh water one or two years earlier than their counterparts, and are referred to as "jack" salmon. "Jack" salmon can be half the size of an adult chinook salmon, and are usually released by sportsmen but kept by commercial fishermen.[2]
The Yukon River has the longest freshwater migration route of any salmon, over 3,000 kilometres (1,900 mi) from its mouth in the Bering Sea to spawning grounds upstream of Whitehorse, Yukon. Since Chinook rely on fat reserves for energy upon entering fresh water, commercial fish caught here are highly prized for their unusually high levels of heart-healthy omega-3 fatty acids. However, the high cost of harvest and transport from this exceptionally rural area limits its affordability.
First, salmon need to be able to have these kinds of foods: planktonic diatoms, copepods, kelps, seaweeds, jellyfish, and starfish. As with all salmonid species, they feed on insects, amphipods, and other crustaceans while young, and primarily on other fish when older. Young salmon feed in streambeds for a short period until they are strong enough to journey out into the ocean and acquire more food. Chinook juveniles divide into two types: ocean type and stream type. Ocean-type chinook migrate to saltwater in their first year. Stream-type salmon spend one full year in fresh water before migrating to the ocean. After a few years in the ocean, adult salmon, then large enough to escape most predators, return to their original streambeds to mate. Chinook salmon can have extended lifespans, where some fish spend one to five years in the ocean, reaching age eight. More northerly populations tend to have longer lives.
Second, salmon need adequate spawning habitat. Clean, cool, oxygenated, sediment-free fresh water is essential for egg development. Chinook prefer larger sediment sizes for spawning than other Pacific salmon. Riparian vegetation and woody debris help juvenile salmon by providing cover and maintaining low water temperatures.
Third, chinook need healthy ocean habitats. Juvenile salmon grow in clean, productive estuarine environments and gain the energy for migration. Later, they change physiologically to live in saltwater. They rely on eelgrass and other seaweeds for camouflage (protection from predators), shelter, and foraging habitat as they make their way to the open ocean. Adult fish need a rich, open ocean habitat to acquire the strength needed to travel back upstream, escape predators, and reproduce before dying. In his book King of Fish, David Montgomery writes, "The reserves of fish at sea are important to restocking rivers disturbed by natural catastrophes." Thus, it is vitally important that fish are able to reach the oceans (without manmade obstructions such as dams), so they can grow into healthy adult fish that sustain the species.
Fourth, it is important that the bodies of water are clean and oxygenated. One sign of high productivity/growth rate in the oceans are the levels of algae. Increased algal levels lead to higher levels of carbon dioxide in the water which transfers into living organisms, fostering underwater plants and small organisms, which salmon eat.[3] Algae can filter high levels of toxins and pollutants. Thus, it is essential for algae and other water-filtering agents to not be destroyed in the oceans because they contribute to the well-being of the food chain.
Finally, salmon need other salmon to survive so they can reproduce and pass on their genes in the wild. With some populations endangered, precautions are necessary to prevent overfishing and habitat destruction, including appropriate management of hydroelectric and irrigation projects. If too few fish remain because of fishing and land management practices, salmon have more difficulty reproducing.
When one of these five factors is compromised, affected stock can decline. One Seattle Times article states, "Pacific salmon have disappeared from 40 percent of their historic range outside Alaska," and concludes it is imperative for people to realize the needs of salmon and to try not to contribute to destructive practices that harm salmon runs.[4]
In the Pacific Northwest, the especially large summer runs of Chinook that were once common (before dams and overfishing lead to declines) were known as June hogs.

Distribution

Historically, the native distribution of Chinook salmon ranged from as far south as the Ventura River in California and north to Alaska, as far as Kotzebue Sound. In Asia and the western Pacific, they are consistently present only in Kamchatka. Elsewhere distribution is patchy, but occurs from northern Japan in the south and north into the Arctic Ocean as far as the East Siberian Sea and Palyavaam River.[5] Their populations have disappeared from large areas where they used to flourish,[6] shrinking by as much as 40 percent.[4] In North America their inland range has been cut off, mainly by dams and habitat alterations, from Southern California, some areas east of the Coast Ranges of California and Oregon, and large areas in the Snake River and upper Columbia River drainage basins.[5] Their distribution and presence in Russia is not fully known outside Kamchatka. They have a patchy presence in the Anadyr River basin and parts of the Chukchi Peninsula. In parts of northern Magadan Oblast near the Shelikhov Gulf and Penzhina Bay there might be persistent populations, but stocks there are poorly studied.[5]
In 1967, the Michigan Department of Natural Resources planted chinook in Lake Michigan and Lake Huron to control the alewife, an invasive species of nuisance fish from the Atlantic Ocean. Alewives then constituted 90% of the biota in these lakes. Coho salmon had been planted the year before and the program was a success. Chinook and Coho salmon thrived on the alewives and spawned in the lakes' tributaries. After this success, chinook were planted in the other Great Lakes,[7] where sport fishermen prize them for their aggressive behavior on the hook.
The species has also established itself in Patagonian waters in South America, where escaped hatchery fish have colonized rivers and established stable spawning runs. Chinook salmon have been found spawning in headwater reaches of the Rio Santa Cruz, apparently having migrated over 1,000 kilometres (620 mi) from the ocean. The population is thought to be derived from a single stocking of juvenile chinooks in the lower river around 1930.[8]
Sporadic efforts to introduce the fish to New Zealand waters in the late 1800s were largely failures and lead to no evident establishments. Early ova were imported from the Baird hatchery of the McCloud River in California.[9] Further efforts in the early 1900s were more successful and subsequently lead to the establishment of spawning runs in the rivers of Cantebury and North Otago; Rangitata River, the Opihi River, the Ashburton River, the Rakaia River, the Waimakariri River, the Hurunui River, and the Waiau River.[10] The success of the latter introductions is thought to be partly attributable to the use of ova from Autumn run populations as opposed to ova from Spring run populations used in the first attempts.[9] Whilst other salmon have also been introduced into New Zealand, only Chinook (or Quinnat as it is known locally in NZ) has established sizeable pelagic runs.

Aquaculture

The worlds' largest producer and market supplier of the Chinook salmon is New Zealand. Marketed as King Salmon, in 2009, New Zealand exported 5,088 tonnes of salmon equating to a value of NZ$61 million in export earnings. For the year ended March 2011 this amount had increased to NZ$85 million.,[11][12] New Zealand accounts for approximately half of the global production of Chinook Salmon and approximately half of New Zealand's production is exported. Japan is New Zealand's largest export market with stock also being supplied to other countries of the Pacific rim including Australia.[13]
Farming of the species in New Zealand began in the 1970s where hatcheries were initially set up to enhance and support wild fish stocks with the first commercial operations initiating in 1976.[9] After some opposition against their establishment by societal groups including anglers, the first sea cage farm was established in 1983 at Big Glory Bay in Stewart Island by British Petroleum NZ Ltd.[9][13] Today the salmon are born in land based hatcheries (of which there are several) and transferred to sea cages or fresh water farms where they are grown out to harvestable size of 3 – 4 kg. The broodstock for the farms are usually selected from existing farm stock or sometimes sourced from wild populations. Eggs and milt are stripped manually from sexually mature salmon and incubated under conditions (of approximately 10 – 12˚C) replicating the streams and rivers where the salmon would spawn naturally. After hatching the baby salmon are typically grown to smolt stage (approximately 6 months of age) before they are transferred to the sea cages or ponds.[12] Most sea cage farming occurs in the Marlborough Sounds, Stewart Island and Akaroa Harbour, while fresh water operations in Canterbury, Otago and Tasman utilise ponds, raceways and hydro canals for grow out operations.[11] Low stocking densities, ranging between less than 1 kg/m3 up to around 25 kg/m3 (depending on the life stage of the salmon) and the absence of disease in the fish means that New Zealand farmers do not need to use antibiotics or vaccines to maintain the health of their salmon stocks. The salmon are fed food pellets of fish meal specially formulated for Chinook salmon (typical proportions of the feed are: 45% protein, 22% fat, 14% carbohydrate plus ash and water) and contain no steroids or other growth enhancers.[11][12]
Regulations and monitoring programmes ensure salmon are farmed in a sustainable manner. Planning and approval process for new salmon farms in New Zealand considers the farm’s potential environmental effects, its effects on fishing activities (if it is a marine farm), and any possible cultural and social effects. In the interest of fish welfare a number of New Zealand salmon farming operations anaesthetise salmon before slaughter using Aqui-S™. This is an organically based anaesthetic developed in New Zealand that is safe for use in food and which has been favourably reported on by the British Humane Slaughter Association. In recognition of the sustainable, environmentally conscious practices, the New Zealand salmon farming industry has been acknowledged as the world's greenest by the Global Aquaculture Performance Index.[14]
Globally, Chile is the only country other than New Zealand to produce any significant quantities of farmed Chinook salmon.[citation needed] New Zealand will likely remain the major producer of the species as other countries' (predominantly Norway, Canada and the United Kingdom) salmon productions are focused typically on other species such as Atlantic Salmon and Coho Salmon.[citation needed]

Management

Nine populations of chinook salmon are listed under the U.S. Endangered Species Act as either threatened or endangered.[15] Fisheries in the U.S. and Canada are limited by impacts to weak and endangered salmon runs. The fall and late-fall runs in the Central Valley population in California is a U.S. National Marine Fisheries Service Species of Concern. Species of Concern are those species about which the U.S. Government’s National Oceanic and Atmospheric Administration, National Marine Fisheries Service, has some concerns regarding status and threats, but for which insufficient information is available to indicate a need to list the species under the U.S. Endangered Species Act.
In April 2008 commercial fisheries in both Oregon and California were closed due to the extremely low population of chinook salmon present. The low population is being blamed on the collapse the Sacramento River run, one of the biggest south of the Columbia.[16] In April 2009 California again canceled the season.[17] The Pacific Fishery Management Council’s goal for the Sacramento River run is an escapement total (fish that return to freshwater spawn areas and hatcheries) of 122,000–180,000 fish. The 2007 escapement was estimated at 88,000 and the 2008 estimate was 66,000 fish.[18] Scientists from Universities and Federal, State, and Tribal Agencies concluded that the 2004 and 2005 broods were harmed by poor ocean conditions in 2005 and 2006, in addition to “a long-term, steady degradation of the freshwater and estuarine environment.” Such conditions included weak upwelling, warm sea surface temperatures, and low densities of food.[18]
In Oregon, the 2010 Spring Chinook run is forecast to increase by up to 150% over 2009 populations, growing from 200,000 to over 500,000, making this the largest run in recorded history. Lower temperatures in 2008 North Pacific waters brought in fatter plankton which, along with greater outflows of Columbia River water, feeding the resurgent populations. The Oregon Department of Fish and Wildlife estimates that 80% of them are hatchery-born. Chinook runs in other habitats have not recovered proportionately.[19]

Cultural aspects

The chinook salmon is spiritually and culturally prized among certain Native American tribes. Many celebrate the first spring chinook caught each year with "First Salmon Ceremonies". While salmon fishing is still important economically for many tribal communities, the chinook harvest is typically the most valuable.
Chinook salmon were described and enthusiastically eaten by the Lewis and Clark Expedition. Lewis wrote that, when fresh, they tasted better than any other fish he had ever eaten. They did not particularly like dried or "pounded" salmon.[20] Lewis and Clark knew about Pacific salmon but had never seen one. The Western world had known about Pacific salmon since the late 18th century. Maritime fur traders and explorers like George Vancouver frequently acquired salmon by trade with the indigenous people of the Northwest coast.[21] Lewis and Clark first encountered Chinook salmon as a gift from Chief Cameahwait, on August 13, 1805, near Lemhi Pass. Tasting it convinced Lewis that they had crossed the continental divide.[22]
Known as the "king salmon" in Alaska for its large size and flavorful flesh, the chinook is the state fish.

See also

References

  1. ^ Scott and Crossman. 1985. Freshwater Fishes of Canada. Fisheries Research Board of Canada. page 175. ISBN 0-660-10239-0
  2. ^ a b "CHINOOK SALMON FACTS". Pacific States Marine Fisheries Commission. 2010-03-05. Retrieved 2010-03-05. "1996-12-16"
  3. ^ Klinger, Terrie. Lecture. 15 April 2005. What Defines the Pacific Northwest Marine Realm Ecologically and Geographically? University of Washington; Seattle, WA.
  4. ^ a b Cameron, Mindy (2002-08-18). "Salmon Return; A Public Conversation About the Future of a Northwest Icon". The Seattle Times (Seattle, Washington: The Seattle Times).
  5. ^ a b c Augerot, Xanthippe; Foley, Dana Nadel (2005). Atlas of Pacific salmon: the first map-based status assessment of salmon in the North Pacific. University of California Press. pp. 80–83. ISBN 978-0-520-24504-4.
  6. ^ "Salmon: Background". Pacific Fishery Management Council. Retrieved 2010-03-05.
  7. ^ Spring, Barbara. The Dynamic Great Lakes,(p. 48) ISBN 1-58851-731-4, Independence Books, 2001
  8. ^ Williams, Richard Nicholas (2006). Return to the river: restoring salmon to the Columbia River. Academic Press. p. 187. ISBN 978-0-12-088414-8. Retrieved 19 October 2011.
  9. ^ a b c d McDowell, R.M. (1994) Gamekeepers for the Nation. Chapter 18. Canterbuty University Press: Christchurch.
  10. ^ McDowall, R. M. (1994). The origins of New Zealand's chinook salmon, Oncorhynchus tshawytscha. Marine Fisheries Review, 1/1/1994.
  11. ^ a b c "Aquaculture New Zealand Industry Overview". Retrieved September 20, 2011.
  12. ^ a b c "AQUACULTURE.GOVT.NZ/Industry development". Retrieved September 26, 2011.
  13. ^ a b "The NZ Salmon Farmer's Association Inc.". The association of the New Zealand Salmon farming industry. Retrieved September 20, 2011.
  14. ^ "Global Aquaculture Performance Index". Seafood Ecology Research, University of Victoria, Canada. Retrieved September 20, 2011.
  15. ^ "Fish Species Protected Under the Endangered Species Act (ESA)". Office of Protected Resources - NOAA Fisheries. 2010-03-05. Retrieved 2010-03-05.
  16. ^ Blankship, Donna. Salmon Fishing Banned Along U.S. West Coast. National Geographic. http://news.nationalgeographic.com/news/2008/04/080411-AP-disappearin_2.html. April, 2008.
  17. ^ David Gorn. "What's Killing California's Salmon?". NPR.
  18. ^ a b Lindley, S. T.; Grimes, C. B.; Mohr, M. S.; Peterson, W.; Stein, J.; Anderson, J. T.; Botsford, L. W.; Bottom, D. L. et al. (2009), What caused the Sacramento River fall Chinook stock collapse?, Pacific Fisheries Management Council
  19. ^ Millman, Joel (January 21, 2010). "Fish Boom Makes Splash in Oregon". Wall Street Journal. Retrieved January 21, 2010.
  20. ^ Isserman, Maurice (2005). Across America: the Lewis and Clark expedition. Infobase Publishing. pp. 115, 133, 135. ISBN 978-0-8160-5256-1. Retrieved 19 October 2011.
  21. ^ Bruce Alden Cox (1987). Native people, native lands: Canadian Indians, Inuit and Métis. McGill-Queen's Press - MQUP. p. 174. ISBN 978-0-88629-062-7. Retrieved 19 October 2011.
  22. ^ Elin Woodger; Brandon Toropov (2004). Encyclopedia of the Lewis and Clark Expedition. Infobase Publishing. p. 138. ISBN 978-0-8160-4781-9. Retrieved 19 October 2011.

Further reading

  • "Oncorhynchus tshawytscha". Integrated Taxonomic Information System. Retrieved 30 January 2006.
  • Froese, Rainer, and Daniel Pauly, eds. (2005). "Oncorhynchus tshawytscha" in FishBase. 10 2005 version.
  • Christie, Patrick. Lecture. 22 April 2005. Vashon-Maury Islands Case Study: Incompatible Desires? Growth and Maintaining Salmon Populations in Puget Sound. University of Washington; Seattle, WA.
  • Montgomery, David. King of Fish: The Thousand-Year Run of Salmon. Boulder, CO: Westview Press, 2003.

External links

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Principal commercial fishery species groups


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