Salmon Essay

What species would travel over 2000 miles just to have young and then die? It
has been said that anyone who has not seen a wild salmon has not seen what a
fish should be. Salmon was the common name applied to fish characterized by an
elongated body covered with small, rounded scales and a fleshy fin between the
dorsal fin and tail. In this paper I will be discussing history of studying
salmon, the life cycle, spawning and mating behaviors; which has much to do with
the total reproduction of salmon. Salmon were studied earlier than some may
think. Experiments were done by men that date back to the mid-1600s. These
experiments involved catching salmon in fresh water, tagging them, and then
catching them again when they return to the same place, around six months later.


These experiments were doubtful and it was not until the beginning of the
1900’s that proof was available that the salmon returned home. (Shearer)
Although usually drab in color before the breeding season, which varies with the
species, members of the salmon family develop bright hues at spawning time. The
male, during this mating season, usually develops a hooked snout and a humped
back. “In many diverse taxa, males of the same species often exhibit
multiple mating strategies. One well-documented alternative male reproductive
pattern is ‘female mimicry,’ whereby males assume a female-like morphology or
mimic female behavior patterns. In some species males mimic both female
morphology and behavior. We report here female mimicry in a reptile, the
red-sided garter snake (Thamnophis sirtalis parietalis). This form of mimicry is
unique in that it is expressed as a physiological feminization. Courting male
red-sided garter snakes detect a female-specific pheromone and normally avoid
courting other males. However, a small proportion of males release a pheromone
that attracts other males, as though they were females. In the field, mating
aggregations of 5-17 males were observed formed around these individual
attractive males, which we have termed ‘she-males.’ In competitive mating
trials, she-males mated with females significantly more often than did normal
males, demonstrating not only reproductive competence but also a possible
selective advantage to males with this female-like pheromone.” In the
competitive mating trials, the she-males were successful in 29 out of 42 trials.

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The normal males won out in only 13! The authors ask the question: Why aren’t
all males she-males given such an advantage? (Mason, Robert T., and Crews,
David; “Female Mimicry in Garter Snakes,” Nature, 316:59, 1985.)
Comment. Among the fishes, bluegills and salmon (and probably many others) have
female-appearing males competing with normal males. Abstract: The influence of
sperm competition and individual mating behaviour in an externally fertilizing
species of fish, the Atlantic salmon (Salmo salar), is estimated from video
observations of multiple-male spawnings and subsequent paternity analyses. One
male dominated the paternity during polygamous spawnings, fathering more than
80% of the progeny in a single nest. Behavioural analyses of the spawnings
showed that the first-mating male had sperm precedence in 6 out of 10 cases. In
three of the other spawnings, sperm limitation likely influenced individual
success, as the first-mating male had participated in a large number of
spawnings. In the final, nearly simultaneous spawning, male size was more
important than the 0.6-s difference in spawning times. Thus, male fertilization
success can be influenced by a variety of factors, including sperm precedence,
male size, and spawning history. Back to Table of Contents Before mating, one
parent excavates a nest for the eggs; after the eggs are deposited and
fertilized, the female stirs up the stream bottom so that earth and stones cover
the eggs and protect them. The eggs hatch in two weeks to six months, depending
on the species and the water temperature. During the migrations and
nest-building activity that precede mating, neither the females nor the males
consume food. In the life cycle of the pacific salmon, nature recycles the
parents to feed the babies. Mature salmon leave the Pacific Ocean as saltwater
fish, never again to eat as they battle their way up the Columbia River to spawn
in the home stream where they were born. Those born in the upper reaches of the
Columbia River’s tributary stream, the Snake River, travel more than 1,000 miles
inland to lay their eggs and fertilize them, roughly one fourth of the distance
across the United States. Without enough reserves in their bodies to get back to
the Pacific, the adult salmon spawn and die. To spawn, a female salmon scoops a
nest in stream-bottom gravel by waving her tail and deposits her eggs in the
hole. The male releases milt (sperm) into the water that covers the eggs and
fertilizes them. Then the female brushes gravel over the eggs, and both parents
lie exhausted in the stream until they die. Micro-organisms in the water
decompose their bodies during the winter, and this process increases the
population of micro-organisms in the stream. Come spring, the salmon eggs hatch
into the tiny fish called “fry.” The first food is the microorganisms
in the stream. The Pacific salmon never see their parents, but are actually
nourished by their decomposed bodies. The next step in growth is
“fingerlings,” then young salmon make the dangerous trip downstream,
past dams and waterfalls to the ocean. There they grow into adults, averaging
six pounds in weight. In its life cycle, the pacific salmon takes five forms and
sizes: a pea-sized egg, one-half-inch embryo, one- to three-inch fry, four- to
five-inch fingerling, and fully grown, six-pound adult one to two feet long.


Nature fully recycles pacific salmon. (Atlantic Salmon, in contrast, travel up
rivers only 150 to 250 miles long and can return to the sea after spawning.) The
males of many fish fight for the possession of the females. When a fish is
conquered, his colors fade away and he hides his disgrace among his peaceable
companions, but is for some time the constant object of his conqueror’s
persecution. Mr. Shaw saw a violeny contest between two male salmon that lasted
for a days. The males are constantly teare “In many diverse taxa, males of
the same species often exhibit multiple mating strategies. One well-documented
alternative male reproductive pattern is ‘female mimicry,’ whereby males assume
a female-like morphology or mimic female behavior patterns. In some species
males mimic both female morphology and behavior. We report here female mimicry
in a reptile, the red-sided garter snake (Thamnophis sirtalis parietalis). This
form of mimicry is unique in that it is expressed as a physiological
feminization. Courting male red-sided garter snakes detect a female-specific
pheromone and normally avoid courting other males. However, a small proportion
of males release a pheromone that attracts other males, as though they were
females. In the field, mating aggregations of 5-17 males were observed formed
around these individual attractive males, which we have termed ‘she-males.’ In
competitive mating trials, she-males mated with females significantly more often
than did normal males, demonstrating not only reproductive competence but also a
possible selective advantage to males with this female-like pheromone.” In
the competitive mating trials, the she-males were successful in 29 out of 42
trials. The normal males won out in only 13! The authors ask the question: Why
aren’t all males she-males given such an advantage? (Mason, Robert T., and
Crews, David; “Female Mimicry in Garter Snakes,” Nature, 316:59,
1985.) Comment. Among the fishes, bluegills and salmon (and probably many
others) have female-appearing males competing with normal males. Abstract: The
influence of sperm competition and individual mating behaviour in an externally
fertilizing species of fish, the Atlantic salmon (Salmo salar), is estimated
from video observations of multiple-male spawnings and subsequent paternity
analyses. One male dominated the paternity during polygamous spawnings,
fathering more than 80% of the progeny in a single nest. Behavioural analyses of
the spawnings showed that the first-mating male had sperm precedence in 6 out of
10 cases. In three of the other spawnings, sperm limitation likely influenced
individual success, as the first-mating male had participated in a large number
of spawnings. In the final, nearly simultaneous spawning, male size was more
important than the 0.6-s difference in spawning times. Thus, male fertilization
success can be influenced by a variety of factors, including sperm precedence,
male size, and spawning history. Back to Table of Contents An adult female
salmon can lay upto 15,000 eggs, depending upon her size. The female fish (hen)
creates a depression in the gravel bed of the river by an energetic flapping of
her large tail. The male (cock) fish swims up beside her and begins to quiver,
stimulating the female to release her eggs, at the same time the male releases
his milt which fertilises the eggs. Once the mating has been completed the
female again starts to beat the river bed with her tail, this time just above
the site where she laid her eggs, this causes gravel to wash downstream with the
current and cover the eggs. This covering of gravel offers the eggs protection
from predators such as eels, ducks and other fish. After spawning, the male
fish, now called a kelt, rapidly loses the hooked jaw and bright colouration
that it had developed just prior to the mating season. The male may remain at
the breeding site for days or weeks, guarding the newly-layed eggs. Salmon eggs
deposited in the autumn hatch the following spring The Atlantic and Pacific
salmon demonstrate distinctly different reproductive strategies. The Atlantic
salmon may return to fresh water to spawn several times while the Pacific salmon
concentrates its reproductive efforts into one large spawning event and then
dies (Ward, 1939). The reproductive cells of the Pacific salmon all mature
simultaneously and as a result, these fish have only one chance to breed. With
the completion of spawning, their lives soon come to an end. Although the
Atlantic salmon has the physiological potential to reproduce numerous times, the
long journey to the spawning grounds, as well as the stress of the reproductive
act itself takes its toll. Typically, fewer than 10 per cent of spawning
Atlantic salmon return to the ocean, with most of these being females. These
fish belong to the salmon family. Most members of this family are valuable food
and a source of excellent game. They are found in both fresh and salt water in
the colder regions of the Northern Hemisphere. Many return from salt water to
freshwater to breed, and the young migrate to salt water from freshwater after
they reach maturity. The migratory instinct of members of the salmon family is
remarkably specific, each generation returning to spawn in exactly the same
breeding places as the generation before it. Even those species that do not
migrate from freshwater to salt water spawn in the same freshwater streams, as
did their ancestors. The spawning ground of these fish is usually a rapidly
flowing, clear stream with gravel and rocks on the bottom.


Bibliography
1. Mills, Derek. (1989). Ecology and Management of Atlantic Salmon. New
England, New York: Chapman and Hall. 2. Shearer. (1978). The Atlantic Salmon.


New York: Halsted Press form 3. Cone, J., ; Ridlington, S. (Eds.). (1996)
The Northwest Salmon Crisis: A documentary History. Corvallis, Oregon: Oregon
State University Press.

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