Dynamics of the abundance and conditions of reproduction of mass species of pacific salmons (<Emphasis Type="Italic">Oncorhynchus</Emphasis>) on the northwestern coast of Sakhalin

The efficiency of reproduction of Pacific salmons of the genus Oncorhynchus in the rivers of the northwestern coast of Sakhalin Island is characterized on the basis of long-term data (1989?2014). Differences between the rivers in the northern and southern parts of the region under study have been revealed with respect to the channel type, faunistic composition of the aquatic biota, and prevailing species of salmons. A high spawning efficiency of pink salmon O. gorbuscha, high densities of filling of spawning grounds, and a relatively poor composition of the freshwater ichthyofauna have been recorded in the rivers of the northern part with the mountain–piedmont type of channel. Varied fish population and the high spawning efficiency of chum salmon O. keta have been recorded in the rivers of the southern part with the mainly lowland channel. The salmon spawning area in the rivers of the northern and southern parts has been estimated. The data on the dynamics of the abundance of salmons on the northwestern coast of Sakhalin are given. The total value of the passage of spawners to the rivers of northwestern Sakhalin that is required for effective reproduction has been estimated, ranging from 0.672 to 1.639 million specimens for pink salmon and approximately 0.43 million specimens for chum salmon.     

Genetic diversity of Asian chum salmon <Emphasis Type="Italic">Oncorhynchus keta</Emphasis> (Salmonidae,Salmoniformes) and the dynamics of gene pools in Sakhalin populations under artificial reproduction

The estimates of genetic diversity in populations of chum salmon Oncorhynchus keta from different regions of Sakhalin Island, Iturup Island, and the Anadyr’ River were obtained on the basis of analysis of allozyme variability. These estimates together with our published earlier data on chum salmon from the Amur River basin and the rivers of the northern coast of the Sea of Okhotsk demonstrate pronounced regional genetic differentiation in the Asian part of the fish range. The intraregional level of interpopulation genetic diversity was maximum on Sakhalin Island (G _ST = 6.6%) and was small on Iturup Island (G _ST = 0.9%) and the northern coast of the Sea of Okhotsk (G _ST = 0.6%). Interpopulation genetic diversity of Sakhalin chum salmon was almost commensurable to the diversity of the whole pool of studied Asian populations (G _ST = 7.6%) and would be presented more completely in baselines assigned for genetic identification of mixed stocks. It was demonstrated that the character and degree of genetic differentiation between populations of chum salmon from the main hatcheries situated in different regions of the Sakhalin oblast and connected to one another by numerous transplantations of fertilized eggs did not change significantly during an approximately 20-year period of our observation, and this fact suggests low efficiency of such transplantations.     

Population dynamics of pink salmon <Emphasis Type="Italic">Oncorhynchus gorbuscha</Emphasis> (Salmonidae) from the southeastern coast of Sakhalin island

The results of monitoring from 1971 to 2004 of pink salmon Oncorhynchus gorbuscha spawning in the rivers of the southeastern coast of Sakhalin are presented. It is shown that fluctuations in the value of its return more largely depend on the level of mortality of fish of the respective generations in the marine period of life than on the yield of downstream migrating juveniles, that, in turn, is weakly related to the numbers of parents, which is explained by the spawning conditions in small rivers at a dense aggregation of spawners on the spawning grounds. Stable long-term tendencies in the variation of numbers, biological indices of fish, and the dates of their return for spawning are established. It is suggested that they indicate a decisive role of globalcyclic, climatic-oceanological processes in the population dynamics of pink salmon     

Reproduction efficiency and some characteristics of the spawning grounds of the pink salmon <Emphasis Type="Italic">Oncorhynchus gorbuscha</Emphasis> in the small salmon watercourse in southern Sakhalin

The peculiarities of the distribution of the freshwater ichthyofauna, bottom sediments and conditions at the spawning grounds, and the egg survivability rate of Oncorhynchus gorbuscha were studied in 2003?2012 in a typical salmon river on Sakhalin Island (Goluboi Ruchei brook, Aniva Bay, southern Sakhalin). The sites characterized by the highest survivability rate of the embryos of the pink salmon are inhabited by the freshwater fish community where the juveniles of masu salmon O. masu and whitespotted char Salvelinus leucomaenis dominate. The lengthway bed slope at this site is steeper compared to the sites with lower survivability rates (0.010?0.020 vs. 0.004?0.020?). The maximal positive correlation of the egg survivability rate to the flow velocity of the underflow has been registered for the depth of 30?40 cm, and the maximal negative correlation of the egg survivability rate has been registered to the bottom sediment temperature.     

Interregional differentiation of chum salmon from Sakhalin and South Kurils inferred from microsatellite markers

Variability at ten microsatellite loci was examined in wild and hatchery populations of chum salmon (Oncorhynchus keta Walbaum) from the Sakhalin Island and Southern Kuril Islands, Iturup and Kunashir. Substantial genetic differences between Sakhalin and South Kurils chum salmon (the differentiation reached 6.0%) were revealed. Statistically significant differences between chum salmon from Iturup and those from Kunashir were demonstrated, as well as between the chum salmon populations from different rivers within the islands. It was shown that in different types of population comparisons, different marker sets were most informative.     

Sex ratio control in pink salmon (<Emphasis Type="Italic">Oncorhynchus gorbuscha</Emphasis> and chum salmon (<Emphasis Type="Italic">O. keta</Emphasis>) populations: The possible causes and mechanisms of changes in the sex ratio

Long-term changes in the sex ratio have been studied in pink salmon (Oncorhynchus gorbuscha and chum salmon (O. keta) populations of Kamchatka and Sakhalin. It has been demonstrated that these changes are an adaptation to population dynamics: an increase in the population size is accompanied by a shift towards a higher proportion of males; a decrease in population size, by a shift towards a higher proportion of females. The correspondence between morphological and molecular characters in populations of the two species has been analyzed in order to determine the mechanism of sex ratio control. In some pink salmon and chum salmon populations, there is a discrepancy between sex identifications based on morphological characters and molecular markers. This discrepancy is assumed to be accounted for by sex inversion mechanisms, which may be population-or region-specific. In two cases, it has been found that the sex ratio discrepancy in populations is related to the numbers of fish in subsequent generations. These findings suggest that sex inversion may be related to population size control.     

On possible re-distribution of pink salmon <Emphasis Type="Italic">Onchorhynchus gorbuscha</Emphasis> between the reproduction areas of different stocks in the Sakhalin-Kuril region

The scale structure of pink salmon Oncorhynchus gorbuscha inhabiting southern Sakhalin and Iturup Island were studied in 2014. These locations are characterized by the unusual dynamics of catches and biological parameters of the fish that come to spawn in different areas in the Sakhalin-Kuril region. The pink salmon that has originated from Iturup Island appeared en masse in the waters of southern Sakhalin, according to the analysis of the scleritogram fragments that reflect the fish growth during the first months of life. This is the first confirmation of the hypothesis of the fluctuating stocks of pink salmon approved by the ichthyological methods. It is suggested that wide-scale straying of pink salmon takes place in the years of dominance shift between the generations of even and odd spawning years.     

Effects of habitat features on size-biased predation on salmon by bears

Predators can drive trait divergence among populations of prey by imposing differential selection on prey traits. Habitat characteristics can mediate predator selectivity by providing refuge for prey. We quantified the effects of stream characteristics on biases in the sizes of spawning salmon caught by bears (Ursus arctos and U. americanus) on the central coast of British Columbia, Canada by measuring size-biased predation on spawning chum (Oncorhynchus keta) and pink (O. gorbuscha) salmon in 12 streams with varying habitat characteristics. We tested the hypotheses that bears would catch larger than average salmon (size-biased predation) and that this bias toward larger fish would be higher in streams that provide less protection to spawning salmon from predation (e.g., less pools, wood, undercut banks). We then we tested for how such size biases in turn translate into differences among populations in the sizes of the fish. Bears caught larger-than-average salmon as the spawning season progressed and as predicted, this was most pronounced in streams with fewer refugia for the fish (i.e., wood and undercut banks). Salmon were marginally smaller in streams with more pronounced size-biased predation but this predictor was less reliable than physical characteristics of streams, with larger fish in wider, deeper streams. These results support the hypothesis that selective forces imposed by predators can be mediated by habitat characteristics, with potential consequences for physical traits of prey.     

Wild and hatchery reproduction of pink and chum salmon and their catches in the Sakhalin-Kuril region,Russia

In the Sakhalin-Kuril region hatchery culture of pink and chum salmon is of great importance compared to other regions of the Russian Far East. During the last 30 years the number of hatcheries increased two-fold, and significant advances were made in hatchery technologies. As a result, chum salmon capture in regions where hatcheries operate (southwestern and eastern Sakhalin coasts, and Iturup Island) was 9 times as high during 2006–2010 than during 1986–1990, whereas wild chum salmon harvest markedly declined. Recent dynamics in pink salmon catch appear to track trends in natural spawning in monitored index rivers, suggesting natural-origin pink salmon play a dominant role in supporting the commercial fishery. It remains uncertain as to whether hatcheries have substantially supplemented commercial catch of pink salmon in this region, and I recommend continued research (including implementing mass marking and recovery programs) before decisions are made regarding increasing pink salmon hatchery production. Location of hatcheries in spawning river basins poses problems for structuring a management system that treats hatchery and wild populations separately. Debate continues regarding the existence and importance of density-dependent processes operating in the ocean environment and the role hatcheries play in these processes. Loss of critical spawning habitat for chum salmon in the Sakhalin-Kuril region has lead to significant declines in their abundance. I conclude by recommending increases in releases of hatchery chum salmon numbers in the region to help recover depressed wild populations and provide greater commercial fishing benefits in the region.     

Origin of juvenile chum salmon <Emphasis Type="Italic">Oncorhynchus keta</Emphasis> (Salmonidae) in the Sea of Okhotsk coastal waters off South Sakhalin

Based on the data of the analysis of distribution of juvenile chum salmon Oncorhynchus keta that were marked at salmon hatcheries in the southern part of the Sakhalin Island and Japan it has been established that their stocks in the Sea of Okhotsk coastal waters off South Sakhalin and Japan are of mixed origin. One part of the stock is composed of juveniles from hatcheries located in the southern part of Sakhalin, and the other part is composed of migrants from the waters adjacent to Japan. The first part is formed by juveniles both from hatcheries on the Sea of Okhotsk and Sea of Japan coasts of South Sakhalin. The second part is formed by juveniles reared at hatcheries in all regions of Japan: the Pacific and Sea of Okhotsk coasts of Honshu and Hokkaido, and from the Sea of Okhotsk coast of Hokkaido and Izmena (Nemuro) Strait. In July, in the Sea of Okhotsk coastal waters off South Sakhalin, the length and weight of most juvenile chum salmon of Japanese origin exceed 10 cm and 10 g, and juveniles of Sakhalin origin are always smaller than 10 cm and 10 g, which makes it possible to differentiate juveniles in trawl catches.     

Reproduction ecology of masu salmon <Emphasis Type="Italic">Oncorhynchus masou</Emphasis> in the Kol basin (Western Kamchatka)

In the Kol basin, one of the typical salmon rivers of Western Kamchatka, special traits of reproduction ecology of masu salmon Oncorhynchus masou are studied (characteristics and behavior of spawners during spawning, localization of spawning grounds, topography and hydrology of redds, and interaction with other species of salmonids). The masu salmon spawns in the Kol basin in tributaries of the upper reaches of the river and only in downwelling. Spawning grounds of masu samlmon are confined to stretches with overhanging banks, log jams creating shelters for spawners and favorable hydrological conditions for spawning and egg development. All over its range, masu salmon requires similar conditions for reproduction. In the north of its range, in Kamchatka, masu salmon retains the properties of the most warm-water species in the genus Oncorhynchus and selects for spawning the grounds characterized by the highest temperature in the period of spawning and development.     

Influence of Extreme Environmental Factors on the Dynamics of Abundance of the Pink Salmon <Emphasis Type="Italic">Oncorhynchus gorbuscha</Emphasis>

The correlation between the number of returned fish and the spawners of the parent generation recorded in the rivers (the reproduction index) has been analyzed in a series of generations of the five largest stocks of pink salmon Oncorhynchus gorbuscha in the Sakhalin-Kuril region. The hypothesis that the appearance of low-yielding generations of pink salmon was mainly due to the impact of typhoons as extreme environmental factors has been confirmed. Low values of the reproduction index of pink salmon generations that have been exposed to typhoons during embryonic development in the rivers (redds) or during the feeding period of juveniles in the coastal region of the sea (the next few days after downstream migration) allow for a conclusion on their significant importance for the formation of the abundance of this species. During some adjacent year groups, the frequency of typhoons attributable to the indicated periods of the pink salmon’s life cycle increases, this causes a number of low-yielding generations. At the same time, the strength of the typhoons and the limits of their impact are constantly changing, which explains the lack of synchronism in the sharp changes in the pink salmon population of all the stocks in the region.     

Genetic variability in anadromous fishes,chum salmon <Emphasis Type="Italic">Oncorhynchus keta</Emphasis> (Walbaum, 1792), and Sakhalin taimen <Emphasis Type="Italic">Parahucho perryi</Emphasis> (Brevoort, 1856) from the Northwestern Pacific as a reflection of paleoclimate oscilations

The genetic variability distribution of two mtDNA segments of chum salmon (Oncorhynchus keta) (Walbaum, 1792) and Sakhalin taimen (Parahucho perryi) (Brevoort, 1856) was examined in populations of the Sea of Japan and the Sea of Okhotsk. The values of haplotype and nucleotide variability in these species are, in general, of the same level. The dating of the divergence time of species haplotypes revealed four evolutionary periods in Sakhalin taimen and three in chum salmon. In the taimen, the first divergence time occurred approximately 430 thousand years (kyr) ago, the second 220 kyr ago, and the third 70 kyr ago. In the chum salmon, the first divergence time corresponds to 220 kyr; the second is approximately 100 kyr ago. In both species, the main portion of presently revealed haplotypes evolved over the past 50–10 kyr. Certain glacioeustatic sea level fluctuations influenced each stage of evolution history of species, contributing to their geographic isolation. Demographic population history research found that the initial stage of population growth in the taimen occurred at the time period of approximately 12 kyr ago and was apparently associated with the end of the Last Glacial Maximum. In the chum salmon, this period began somewhat earlier, 30–35 kyr ago; it has accelerated in the past 10–15 kyr. The last glaciation to a lesser extent impacted the demographics of chum salmon, probably due to the greater eurythermity and to the larger range of this species.     

Some Results from Studies on Number Dynamics of Pink Oncorhynchus gorbuscha and Chum O. keta Salmons on the Northwest Coast of Sakhalin Island

Journal of Ichthyology - The data characterizing the number of separate generations of pink salmon Oncorhynchus gorbuscha and chum salmon O. keta on the northwest coast of Sakhalin Island (harvest...     

Polymorphism of smolts of pink salmon <Emphasis Type="Italic">Oncorhynchs gorbuscha</Emphasis> in the Indera River (Kola Peninsula)

Pink salmon introduced into the White Sea started to exploit as spawning grounds middle and upper reaches of the river 20 years after its appearance in the Indera River. As a result of this, the migration pathway of smolts and late smolts appeared in addition to early smolts. The intraspecies polymorphism of smolts is confirmed by differences of early and late smolts by body length and weight, migration dates, food spectrum, and indices of stomach fullness. The food spectra of late juveniles of pink salmon coincide with those of parr of Atlantic salmon Salmo salar and of brown trout S. trutta. Greater abundance of late migrants of pink salmon may cause competition of these species for food.     

Interannual variation of linear-weight indices,age structure,and rate of growth of chum salmon <Emphasis Type="Italic">Oncorhynchus keta</Emphasis> and factors affecting it (the Bol’shaya River basin,western Kamchatka)

The interannual variation in the size-age composition and the rate of growth of autumnal chum salmon Oncorhynchus keta in the Bol’shaya River basin (western Kamchatka) was studied. Data of biological analysis and results of back calculations of the linear growth of O. keta were analyzed for the period of 1993 to 1999. Possible reasons of interannual changes in indices such as the numerical ratio of the main age groups (3+ and 4+), average values of the length and weight of spawners, and the linear growth of O. keta are discussed. It was established that the main factor responsible for the variation of the growth and dynamics of the O. keta population in the Bol’shaya River are the numbers of the western Kamchatka pink salmon O. gorbuscha.     

Divergence of the seasonal races of chum salmon, <Emphasis Type="Italic">Oncorhynchus keta</Emphasis> Walbaum, 1792, in the Amur and Poronai rivers: Ecology,genetics, and morphology

The chum salmon of the Amur River (the mainland part of the Far East) and the Poronai River (Terpeniya Bay, Sakhalin Island) are historically related to one another, as the drainage basins of these rivers are the remnants of a formerly single river system, the Paleoamur, which existed when Sakhalin Island was a part of the continent. Both river populations of chum salmon consist of the early-run and late-run ecological forms (seasonal races), which are also referred to as the summer and autumn races. They are reproductively isolated from each other due to their spawning at different times and in different types of spawning grounds. To assess the direction, pattern, and degree of divergence between these chum salmon races in the both river fragments since the Paleoamur, it is necessary to compare them using two types of traits: selectively neutral DNA markers and morphological and physiological traits, variations in which may have an adaptive value. For this, we have studied chum salmon from both rivers in terms of microsatellite DNA markers, body counts and measurements, body weight, and fecundity. Both in the Amur River and in the Poronai River, the autumn race of chum salmon prevails over the summer race in body length and weight, fecundity, number of pyloric caeca, and several other meristic traits. The intra-basin differences between the races are much more pronounced in the Amur chum salmon. The inter-race differences in microsatellites are also greater in the Amur chum salmon compared to the Poronai chum salmon. Using microsatellites, three levels of differentiation have been revealed: (1) between the basins of the Amur and Poronai rivers, (2) between the races within each of the river basins, (3) and between population samples within each race of each basin. A hypothesis is proposed that the currently existing races of chum salmon in the Amur and Poronai rivers have evolved since the breakup of the Paleoamur, and the intra-basin divergence of the races started in the Amur River earlier than in the Poronai River. An analysis of our own data and the published data suggests that the adaptation of the seasonal races of chum salmon to the conditions of their spawning grounds is determined by a complex of morphological and physiological traits, including the number of pyloric caeca, which is an adaptive and highly heritable trait associated with the incubation temperature of the water.     

Seasonal and interannual variations of sockeye salmon (<Emphasis Type="Italic">Oncorhynchus nerka</Emphasis>) microsatellite DNA in two Kamchatka lake-river systems

Seasonal and interannual variations in the sockeye salmon populations from two lake-river systems of the East and West Kamchatka were studied. Stability of allele and genotypic frequencies of six microsatellite DNA loci in the adjacent generations and spawning populations of the sockeye salmon of the Bol’shaya River was confirmed experimentally. The pairwise intersample differentiation (F _st) of the local sockeye salmon populations from the southwestern Kamchatka coast (Ozernaya and Bol’shaya Rivers) was almost 7 times higher than the corresponding values for the spawning populations of the Bol’shaya River sockeye salmon of the adjacent years; 15 times, for the adjacent Bol’shaya River sockeye salmon generations; and four times, for the seasonal races within the Kamchatka River.     

Local and Temporal Variation at the MHC I-<Emphasis Type="Italic">A1</Emphasis> Locus in Pink Salmon <Emphasis Type="Italic">Oncorhynchus gorbuscha</Emphasis> of Southern Sakhalin

In order to test the MHC I-A1 locus of the main histocompatiblity complex as an effective molecular marker for identification of populations of Far Eastern pink salmon, Oncorhynchus gorbuscha, the comparison of the allelic and genotypic frequencies between two neighboring populations of the Lyutoga and Taranay rivers (Aniva Bay, Sakhalin Island), as well as within the populations: within generation, between adjacent and distant generations, have been performed. It was revealed that temporal variation at MHC I-A1 is statistically insignificant in comparison between the samples of the juveniles sampled at different times during the downstream migration. It is also insignificant between the samples of juvenile and adult fish of the same generation, and between samples divided by a single and seven generations. At the same time, the samples of neighboring populations differ significantly. The possibility of differentiation of the populations on the local scale and temporal stability of the allele frequencies indicate the MHC I-A1 as valuable marker for the development of the population data bases. Inclusion of the MHC I-A1 into the panel of other markers (microsatellites, in particular) allows for considerable increase in the resolution power for identification as to which population an individual in the mixed sea catch belongs.     

Genetic Structure of Chum Salmon (Oncorhynchus keta) Populations in the Lower Columbia River: Are Chum Salmon in Cascade Tributaries Remnant Populations?

The lower Columbia River drainage once supported a run of over a million chum salmon. By the late 1950s, the run had decreased to often a few hundred fish. With the exception of Grays River near the coast and an aggregation of chum salmon spawning in creeks and the main stem near Bonneville Dam in the Columbia Gorge, most populations were thought to be extinct. However, chum salmon consistently return in low numbers to tributaries originating in the Cascade Range: the Cowlitz, Lewis, and Washougal rivers. To assess whether Cascade spawners were strays or remnants of former populations, chum salmon from the Coastal, Cascade and Gorge ecoregional zones were characterized at 17 microsatellite loci. Significant heterogeneity in genotype distributions was detected between zones and collections formed regional groups in a neighbor-joining tree. Cascade collections had higher allelic richness and private alleles, and the Cowlitz River supported genetically divergent fall and summer runs, the only summer chum salmon run extant in the Columbia River drainage. We propose that chum salmon in the Cascade zone are remnants of original populations. We attribute the divergence between zonal groups to diverse ecological conditions in each zone, which promoted regional genetic adaptation, and to genetic drift experienced in small populations.