Fishing the World Famous Kenai River
|Rainbow Trout: june-septemberThe Kenai has world class trout fishing and each fall the fishing lives up to it’s reputation as one of the best Rainbow Trout fisheries in the world. It is not uncommon to have very high catch numbers with constant non stop action all day.Even when conditions are less than perfect you can still produce good numbers of fish, its just a great fishery. The Kenai River must just be perfect breeding grounds and habitat for trout as our resident population of trout has to be incredible. A combination of large numbers of spawning salmon in the fall and salmon fry in the spring and summer,these trout always have a good food supply. Also the size of our Rainbows is very impressive we catch alot of really big bows im talking 10 plus pounds big!|
Rainbow and steelhead trout are the most widely known trout in the world and are highly sought after by anglers because of their strong fighting abilities. In Alaska, there are two commonly recognized forms of the rainbow trout and these sub-groupings or “forms” are based primarily on where they spend their time feeding and maturing. The most common rainbow trout in Alaska is the stream-resident form that lives its life entirely in freshwater with maybe short periods of time spent in estuarine or near-shore marine waters. The second form is commonly known as steelhead and these rainbow trout leave freshwater as juveniles and migrate long distances in the ocean where they grow to maturity before migrating back to their original home waters.
Since rainbow and steelhead trout are the same species there are no major physical differences between them, however, the nature of their differing lifestyles has resulted in subtle differences in color, shape, size, and general appearance. Juvenile steelhead are indistinguishable from juvenile rainbow trout during the first few years of their life. Young trout have eight to thirteen parr marks on their sides and five to ten parr marks between the top of the head and dorsal fin. The adipose fin usually has a continuous outline of black surrounded by a clear window and the lower jaw (maxillary) typically does not extend past the back margin of the eye. Prior to their seaward migration juvenile steelhead go through a series of physical changes called smoltification which allows them to survive in saltwater; during this process the fish lose their parr marks and become silvery in color.
Within a year or so of hatching the stream resident form of rainbow trout possess the well-known streamlined salmonid form, though body shape and coloration vary widely and reflect habitat, age, sex, and degree of maturity. The body shape may range from slender to thick. The back may shade from blue-green to olive. There is a reddish-pink band along each side about the midline that may range from faint to radiant. The lower sides are usually silver, fading to pure white beneath. Small black spots are present over the back above the lateral line, as well as on the upper fins and tail. In some locations, the black spots of adults may extend well below the lateral line and even cover the entire lower side. Rainbow trout are positively identified by the 8 to 12 rays in the anal fin, a mouth that does not extend past the back of the eye, and the lack of teeth at the base of the tongue. River or stream residents normally display the most intense pink stripe coloration and heaviest spotting followed by rainbows from lake and lake-stream systems. Spawning trout are characterized by generally darker coloration.
Adult steelhead which have spent 1 to 3 years in the ocean are generally heavily spotted with irregularly shaped dark spots both above and below the lateral line. Small spots are also scattered along the top of the head, along the sides, on the dorsal and both lobes of the caudal fins. Steelhead are typically silvery or brassy in color but may range from steely blue and emerald green to olive. Steelhead fresh from the ocean can be very bright and much more silver in color than resident rainbow. The classic band of color along the lateral line, which rainbow trout are named for, can range from light pink to deep red with mature males having the brightest colors. Although typically larger in size, steelhead are generally more slender and streamlined than stream resident rainbow trout. On steelhead the typical colors and spots of the trout appear to be coming from beneath a dominant silvery sheen which gradually fades in fresh water and steelhead become difficult to differentiate from mature resident rainbow trout. The distinct and beautiful coloration of steelhead during the freshwater spawning period is important for mating and reproduction while the silvery sheen and streamlined shape of ocean-bright steelhead is essential to survival in the ocean environment.
Stream resident rainbow trout and juvenile steelhead can usually be distinguished from their close relative the cutthroat trout because rainbow trout do not have the classic red or “cutthroat” slash on the underside of their lower jaw. However not all cutthroat trout have this slash and there are naturally occurring rainbow/cutthroat trout hybrids which have physical markings of both. Biologists often use the presence/absence of small teeth at the base of the tongue called basibranchial teeth as a means to distinguish between steelhead (teeth absent) and cutthroat trout (teeth present).
Growth and Reproduction
During late winter or early spring, when water temperatures rise, the maturing adult rainbow trout and steelhead usually seek out the shallow gravel riffles or a suitable clearwater stream. Spawning takes place in the spring from late March through early July as daily water temperatures reach 6 – 90 C. The female uses her tail to prepare a redd, or nest, 4 to 12 inches deep and 10 to 15 inches in diameter. From 200 to 8,000 eggs are deposited in the redd, fertilized by a male, and covered with gravel. Hatching normally takes place from a few weeks to as much as four months after spawning, depending upon the water temperature. A few more weeks may be required for the tiny fry to emerge from the gravel.
Age and growth of rainbow and steelhead trout are controlled by complex interactions of genetics and environmental conditions. The onset of sexual maturity varies markedly between individuals due primarily to such factors as food availability, population density, water temperature, productivity of the aquatic environment, and genetic makeup. In small streams, rainbow trout may spawn at 2 or 3 years of age and males often mature a year before females. Mature steelhead have generally spent 3 years in freshwater before migrating to the ocean and then another 2 years feeding in the ocean before they return to spawn. Once maturity is reached trout may spawn annually or skip a year or two before spawning again. Rainbow trout up to age 11 have been observed spawning.
Among resident rainbow trout, those living in or migrating to large lakes with sockeye salmon runs generally grow faster and larger than fish which remain year round in streams.
When compared to the mundane habits of resident trout, steelhead have a very complicated and diverse life history. Juvenile steelhead smolt and begin their emigration to saltwater during late April through the middle of June. Once in the marine environment the steelhead grow rapidly because of the abundance of food and can grow an inch per month until they return to their natal streams as mature adults. Steelhead will have moved hundreds of miles into open ocean before returning to their natal stream to spawn. Most steelhead return after 2 or 3 years but a few may return after just one year and some not until 4 years. The oldest known-aged steelhead in Alaska is an 11-year fish from the Situk River which spent 5 years rearing in freshwater followed by 6 years in the ocean; the number of times this fished spawned is unknown.
Steelhead are often grouped or classified as to the time of year they return to their home waters or natal stream, i.e., spring, summer or fall. Spring-run steelhead return to streams in Alaska between March and early June while the rare summer-run fish will return to freshwater during July. Fall-run steelhead enter the freshwater systems as adults in August through October and possibly throughout the winter. Regardless of when they return to freshwater, all steelhead spawn during the spring months when daily water temperatures reach 6 – 90 C, usually about mid-April through May to early June.
Summer-run steelhead are relatively rare in Alaska and may be found in only a few select Southeast Alaska systems; annual returns of summer-run fish may vary considerably. Fall-run steelhead is the predominant form along the Gulf of Alaska west of Yakutat, including all systems on Kodiak Island and the Alaskan and Kenai Peninsulas. There are approximately 36 fall-run systems in Southeast Alaska but the spring component of these streams is thought to exceed the fall-run component. With the exception of the large transboundary rivers which originate from headwaters in Canada, the steelhead systems in Southeast Alaska all have a dominant spring-run component, even if a system has a summer or fall-run component.
Steelhead are “iteroparous” and may spawn more than once while Pacific salmon are “semelparous” and spawn only once and then die. The percentage of steelhead which return a second time to spawn typically ranges from 20 to 30% but may be as low 10% or as high as 50%. Generally the larger and older females survive at a higher rate than the smaller and younger ones, and males do not survive spawning as well as females.
The ragged and spent spawners, sometimes called kelts, move slowly downstream to saltwater, and the vibrant spawning colors return to a bright silvery hue as their depleted stores of fats are restored once they resume feeding. Most steelhead that spawn more than once come back annually but some may skip a year before returning to spawn.
While the adult steelhead are returning to their ocean feeding grounds and their spawning wounds are healing, the eggs which were deposited deep in the gravel during the spring quickly develop into alevins or “sac-fry”. These tiny fish gradually absorb the yolk sac and work their way to the surface. By mid-summer the fry emerge from the gravel, minus the yolk sac, and seek refuge along stream margins and in protected areas. Mortality of steelhead fry is high as most of them are killed or washed from the stream each year. For those that do survive they may grow to be 2 to 3 inches by the fall before heading into their first winter. These juvenile steelhead typically will spend 2 – 5 years rearing in freshwater before smolting and returning to the ocean.
Given all the variables and complexities of the steelhead life cycle, including the many possible age classes, the possibility of repeat spawning, and the variation in run-timing, perhaps nature has designed the steelhead life history so that a harsh flood, winter, or drought does not severely impact a specific population.
Upon emergence, the small trout fry assemble or school together in groups and seek shelter along the stream margins or protected lake shore, feeding on crustaceans, plant material, and aquatic insects and their larvae. Resident rainbow trout rear in similar habitat for the first two or three years then move into the larger water of lakes and streams and turn more to a diet of fish, salmon carcasses, eggs, and even small mammals. After they smolt and enter the open ocean, steelhead grow to be significantly larger by feeding on more nutritious squid, amphipods and other fish.
There is little information on the migration of Alaska steelhead away from our coastal waters to the open ocean. Steelhead are most abundant in the Gulf of Alaska and the eastern North Pacific and western Aleutian areas and generally found in the 50 C isotherm in the north and the 150 C zone in the south. When high-seas drift gill-netting was occurring large numbers of steelhead from the Pacific Northwest streams and Alaska were intercepted in this fishery; this indiscriminant fishing is no longer allowed. One anecdotal piece of the puzzle comes from a steelhead tagged in 1989 as it left the Karta River in Southeast Alaska. This fish was recaptured about 3 weeks later by a Japanese research vessel on the high seas of the Pacific Ocean.