The Skeena River Salmon Fishery, with Special Reference to Sockeye Salmon

D. J. Milne

doi:10.1139/f55-026

The pink salmon genome: uncovering the genomic consequences of a strict two-year life-cycle

10.1101/2021.08.05.455323 ◽

2021 ◽

Author(s):

Kris A. Christensen ◽

Eric B. Rondeau ◽

Dionne Sakhrani ◽

Carlo A. Biagi ◽

Hollie Johnson ◽

...

Keyword(s):

Pacific Salmon ◽

Pink Salmon ◽

Chromosomal Polymorphism ◽

Oncorhynchus Gorbuscha ◽

Sequencing Data ◽

Isolated Populations ◽

Temporal Isolation ◽

History Of ◽

Genome Assemblies ◽

Salmon Fishery

Pink salmon (Oncorhynchus gorbuscha) adults are the smallest of the five Pacific salmon native to the western Pacific Ocean. Pink salmon are also the most abundant of these species and account for a large proportion of the commercial value of the salmon fishery worldwide. A strict two-year life-history of most pink salmon generates temporally isolated populations that spawn either in even-years or odd-years. To uncover the influence of this genetic isolation, reference genome assemblies were generated for each year-class and whole genome re-sequencing data was collected from salmon of both year-classes. The salmon were sampled from six Canadian rivers and one Japanese river. At multiple centromeres we identified peaks of Fst between year-classes that were millions of base-pairs long. The largest Fst peak was also associated with a million base-pair chromosomal polymorphism found in the odd-year genome near a centromere. These Fst peaks may be the result of centromere drive or a combination of reduced recombination and genetic drift, and they could influence speciation. Other regions of the genome influenced by odd-year and even-year temporal isolation and tentatively under selection were mostly associated with genes related to immune function, organ development/maintenance, and behaviour.

Resources and fishery of Pacific salmon in Magadan region in the beginning of the 21st century

Trudy VNIRO ◽

10.36038/2307-3497-2020-179-90-102 ◽

2020 ◽

Vol 179 ◽

pp. 90-102

Author(s):

M. N. Gorokhov ◽

V. V. Volobuev ◽

I. S. Golovanov

Keyword(s):

Chum Salmon ◽

Coho Salmon ◽

Pacific Salmon ◽

Pink Salmon ◽

Spawning Grounds ◽

Magadan Region ◽

Spawning Areas ◽

Optimal Values ◽

In The Beginning ◽

Salmon Fishery

There are two main areas of pacific salmon fishing in the Magadan region: Shelikhova Gulf and Tauiskaya Bay. The main fishing species is pink salmon in the region. Its share of total salmon catch by odd-year returns reaches 85 %. Data on the dynamics of escapement to the spawning grounds of pink salmon of the Shelikhova Gulf and Tauiskaya Bay are presented. The displacement of the level of spawning returns of pink salmon into the Shelihova Gulf with the simultaneous reduction of its returns to the Tauiskaya Bay is shown. Data on the dynamics of the fishing indicators of pink salmon for the two main fishing areas are provided. The Tauiskaya Bay as the main pink salmon fishery area loses its importance is shown. Graphical data on the escapement of producers pink salmon to the spawning grounds are presented and the optimal values of spawning escapements are estimated. Chum salmon is the second largest and most fishing species. Information on the dynamics of the number of returns, catch and escapement to the spawning grounds of chum salmon is given. The indicators of escapement to the spawning areas and their compliance with the optimal passes of salmon producers are analyzed. The issues of the dynamics of returns number, catch and the escapement to the spawning grounds of coho salmon producers are considered. The level of the escapement to the spawning areas is shown and the ratio of actual to optimal values of passes is estimated. The role of coho salmon as an object of industrial fishing and amateur fishing is shown. The extent of fishing press on individual groups of salmon populations is discussed. It is concluded that it is necessary to remove the main salmon fishery from the Tauiskaya Bay to the Shelikhova Gulf.

Pacific salmon abundance trends and climate change

ICES Journal of Marine Science ◽

10.1093/icesjms/fsq199 ◽

2011 ◽

Vol 68 (6) ◽

pp. 1122-1130 ◽

Cited By ~ 53

Author(s):

James R. Irvine ◽

Masa-aki Fukuwaka

Keyword(s):

Climate Change ◽

Pacific Ocean ◽

North Pacific ◽

Sockeye Salmon ◽

Coho Salmon ◽

Pacific Salmon ◽

North Pacific Ocean ◽

Pink Salmon ◽

The North ◽

Abundance Trends

Abstract Irvine, J. R., and Fukuwaka, M. 2011. Pacific salmon abundance trends and climate change. – ICES Journal of Marine Science, 68: 1122–1130. Understanding reasons for historical patterns in salmon abundance could help anticipate future climate-related changes. Recent salmon abundance in the northern North Pacific Ocean, as indexed by commercial catches, has been among the highest on record, with no indication of decline; the 2009 catch was the highest to date. Although the North Pacific Ocean continues to produce large quantities of Pacific salmon, temporal abundance patterns vary among species and areas. Currently, pink and chum salmon are very abundant overall and Chinook and coho salmon are less abundant than they were previously, whereas sockeye salmon abundance varies among areas. Analyses confirm climate-related shifts in abundance, associated with reported ecosystem regime shifts in approximately 1947, 1977, and 1989. We found little evidence to support a major shift after 1989. From 1990, generally favourable climate-related marine conditions in the western North Pacific Ocean, as well as expanding hatchery operations and improving hatchery technologies, are increasing abundances of chum and pink salmon. In the eastern North Pacific Ocean, climate-related changes are apparently playing a role in increasing chum and pink salmon abundances and declining numbers of coho and Chinook salmon.

Protandry in Pacific salmon

Canadian Journal of Fisheries and Aquatic Sciences ◽

10.1139/f00-064 ◽

2000 ◽

Vol 57 (6) ◽

pp. 1252-1257 ◽

Cited By ~ 51

Author(s):

Yolanda Morbey

Keyword(s):

Chinook Salmon ◽

Sockeye Salmon ◽

Coho Salmon ◽

Pacific Salmon ◽

Pink Salmon ◽

Statistical Procedure ◽

Timing Data ◽

Mating Opportunities ◽

Gender Specific ◽

Specific Timing

Protandry, the earlier arrival of males to the spawning grounds than females, has been reported in several studies of Pacific salmon (Oncorhynchus spp.). However, the reasons for protandry in salmon are poorly understood and little is known about how protandry varies among and within populations. In this study, protandry was quantified in a total of 105 years using gender-specific timing data from seven populations (one for pink salmon (O. gorbuscha), three for coho salmon (O. kisutch), two for sockeye salmon (O. nerka), and one for chinook salmon (O. tshawytscha)). Using a novel statistical procedure, protandry was found to be significant in 90% of the years and in all populations. Protandry may be part of the males' strategy to maximize mating opportunities and may facilitate mate choice by females.

Toxicity of Various Formulations of 2,4-D to Salmonids in Southeast Alaska

Journal of the Fisheries Research Board of Canada ◽

10.1139/f74-083 ◽

1974 ◽

Vol 31 (4) ◽

pp. 480-485 ◽

Cited By ~ 17

Author(s):

William R. Meehan ◽

Logan A. Norris ◽

Howard S. Sears

Keyword(s):

Sockeye Salmon ◽

Coho Salmon ◽

Pink Salmon ◽

Butyl Ester ◽

Southeast Alaska ◽

Dolly Varden Char ◽

Salmon Fry ◽

Percent Mortality ◽

The Mean ◽

Made In

To determine acute toxicity to juvenile (1) pink, chum, coho, and sockeye salmon, (2) Dolly Varden char, and (3) rainbow trout, 2,4-D acid, butyl and isooctyl esters were tested in southeast Alaska. A comparable test was made in Oregon using coho salmon fingerlings. The mean percent mortality after 96 h and the highest concentration of herbicide that did not produce any mortality were determined for each formulation tested.At less than 50 ppm 2,4-D acid produced no mortality except in pink salmon fry. The butyl ester was most toxic causing nearly complete mortality in all species at concentrations > 1.0 ppm and the isooctyl ester least toxic of the ester formulations. Alaskan and Oregon coho fingerlings were similar in their responses to 2,4-D acid, butyl and isooctyl esters. The toxicities of three different formulations of isooctyl ester, a PGBE ester, and butyl ester to Alaskan coho fingerlings were also determined. There were few or no differences in toxicity among isooctyl ester formulations. The butyl and PGBE esters were similar in toxicity.

Migratory bottlenecks as integrators of species- and population-level diversity: the Skeena River estuary, its salmon, and industrial development

10.7287/peerj.preprints.375 ◽

2014 ◽

Author(s):

Charmaine N Carr-Harris ◽

Allen S. Gottesfeld ◽

Jonathan Moore

Keyword(s):

First Nations ◽

Industrial Development ◽

Sockeye Salmon ◽

Coho Salmon ◽

River Estuary ◽

Population Level ◽

Population Diversity ◽

Genetic Stock ◽

Environmental Laws ◽

Skeena River

We quantify how an estuarine migratory bottleneck supports population- and species- level diversity of salmon. The estuary of the Skeena River is under pressure from industrial development, with two gas liquefaction terminals and a potash loading facility in various stages of environmental review processes at the same time as recent changes to Canadian environmental laws have reduced the timeframe for federal environmental assessments. We conducted a juvenile salmonid sampling program throughout the Skeena River estuary in 2007 and 2013. We captured all species of juvenile salmonids throughout the estuary in both years, and found that areas proposed for development support some of the highest abundances of some species of salmonids. Specifically, the highest abundances of sockeye (both years) Chinook in 2007, and coho salmon in 2013 were captured in areas proposed for development. For example, juvenile sockeye salmon were 2-8 times more abundant in the proposed development areas. Genetic stock assignment demonstrated that the Chinook salmon and most of the sockeye salmon that were captured originated from throughout the Skeena watershed, while some sockeye salmon came from the Nass, Stikine, Southeast Alaska, and coastal systems on the northern and central coasts of British Columbia. These fish support extensive commercial, recreational, and First Nations fisheries throughout the Skeena River and beyond. Our results demonstrate that estuary habitats integrate species and population diversity of salmon, and that proposed development in these areas will threaten the fisheries that depend on these fishes.

Status, Distribution, and Conservation of Native Freshwater Fishes of Western North America

Status, Distribution, and Conservation of Native Freshwater Fishes of Western North America ◽

10.47886/9781888569896.ch11 ◽

2007 ◽

Keyword(s):

Sockeye Salmon ◽

Coho Salmon ◽

Pink Salmon ◽

Cutthroat Trout ◽

Columbia River ◽

Species List ◽

The Pacific ◽

Prosopium Williamsoni ◽

Catostomus Macrocheilus ◽

Lewis And Clark

ABSTRACT The Lewis and Clark expedition crossed the Continental Divide in 1805 on the way west to the Pacific Ocean. Based on journal entries, members of the expedition probably encountered two species of resident salmonids and four of the six species of anadromous salmonids and steelhead (Family Salmonidae, genus Oncorhynchus). The salmonid species were called common salmon (now known as Chinook salmon O. tshawytscha), red charr (sockeye salmon O. nerka), white salmon trout (coho salmon [also known as silver salmon] O. kisutch), salmon trout (steelhead O. mykiss), and spotted trout (cutthroat trout O. clarkii). There was no evidence of the expedition encountering pink salmon O. gorbuscha, chum salmon O. keta, or species of true char Salvelinus spp. Common fishes procured from Indian tribes living along the lower Columbia River included eulachon Thaleichthys pacificus and white sturgeon Acipenser transmontanus. The identity of three additional resident freshwater species is questionable. Available descriptions suggest that what they called mullet were largescale sucker Catostomus macrocheilus, and that chubb were peamouth Mylocheilus caurinus. The third questionable fish, which they called bottlenose, was probably mountain whitefish Prosopium williamsoni, although there is no evidence that the species was observed in the Columbia River drainage. Missing from the species list were more than 20 other fishes known to Sahaptin-speaking people from the mid-Columbia region. More complete documentation of the icthyofauna of the Pacific Northwest region did not occur until the latter half of the 19th century. However, journals from the Lewis and Clark expedition provide the first documentation of Columbia River fishes.

Effect of incubation temperature on the development of five species of Pacific salmon (Oncorhynchus) embryos and alevins

Canadian Journal of Zoology ◽

10.1139/z88-038 ◽

1988 ◽

Vol 66 (1) ◽

pp. 266-273 ◽

Cited By ~ 79

Author(s):

C. B. Murray ◽

J. D. McPhail

Keyword(s):

Chinook Salmon ◽

Sockeye Salmon ◽

Coho Salmon ◽

Incubation Temperature ◽

Pacific Salmon ◽

Pink Salmon ◽

Oncorhynchus Gorbuscha ◽

Embryo Survival ◽

Salmon Fry ◽

Incubation Temperatures

Embryo and alevin survival, time to hatching and emergence, and alevin and fry size of five species of Pacific salmon (Oncorhynchus) were observed at five incubation temperatures (2, 5, 8, 11, and 14 °C). No pink (Oncorhynchus gorbuscha) or chum (O. keta) salmon embryos survived to hatching at 2 °C. Coho (O. kisutch) and sockeye (O. nerka) salmon had higher embryo survival at 2 °C than chinook (O. tschawytscha) salmon. At 14 °C, chum, pink, and chinook salmon had higher embryo survival than coho or sockeye salmon. In all species, peaks of embryo mortality occurred at specific developmental stages (completion of epiboly, eye pigmentation, and hatching). Alevin survival to emergence was high for all species, except for coho and pink salmon at 14 °C. Hatching and emergence time varied inversely with incubation temperature, but coho salmon hatched and emerged sooner at all temperatures than the other species. Coho and sockeye salmon alevins were larger at 2 °C, pink, chum, and chinook salmon alevins were larger at 5 and 8 °C. Coho salmon fry were larger at 2 °C, chinook and chum salmon fry were larger at 5 °C, and sockeye and pink salmon fry were larger at 8 °C. High incubation temperatures reduced fry size in all species. Each species of Pacific salmon appears to be adapted to different spawning times and temperatures, and thus indirectly to specific incubation temperatures, to ensure maximum survival and size and to maintain emergence at the most favorable time each year.

Migratory bottlenecks as integrators of species- and population-level diversity: the Skeena River estuary, its salmon, and industrial development

10.7287/peerj.preprints.375v1 ◽

2014 ◽

Author(s):

Charmaine N Carr-Harris ◽

Allen S. Gottesfeld ◽

Jonathan Moore

Keyword(s):

First Nations ◽

Industrial Development ◽

Sockeye Salmon ◽

Coho Salmon ◽

River Estuary ◽

Population Level ◽

Population Diversity ◽

Genetic Stock ◽

Environmental Laws ◽

Skeena River

We quantify how an estuarine migratory bottleneck supports population- and species- level diversity of salmon. The estuary of the Skeena River is under pressure from industrial development, with two gas liquefaction terminals and a potash loading facility in various stages of environmental review processes at the same time as recent changes to Canadian environmental laws have reduced the timeframe for federal environmental assessments. We conducted a juvenile salmonid sampling program throughout the Skeena River estuary in 2007 and 2013. We captured all species of juvenile salmonids throughout the estuary in both years, and found that areas proposed for development support some of the highest abundances of some species of salmonids. Specifically, the highest abundances of sockeye (both years) Chinook in 2007, and coho salmon in 2013 were captured in areas proposed for development. For example, juvenile sockeye salmon were 2-8 times more abundant in the proposed development areas. Genetic stock assignment demonstrated that the Chinook salmon and most of the sockeye salmon that were captured originated from throughout the Skeena watershed, while some sockeye salmon came from the Nass, Stikine, Southeast Alaska, and coastal systems on the northern and central coasts of British Columbia. These fish support extensive commercial, recreational, and First Nations fisheries throughout the Skeena River and beyond. Our results demonstrate that estuary habitats integrate species and population diversity of salmon, and that proposed development in these areas will threaten the fisheries that depend on these fishes.

The pink salmon genome: Uncovering the genomic consequences of a two-year life cycle

PLoS ONE ◽

10.1371/journal.pone.0255752 ◽

2021 ◽

Vol 16 (12) ◽

pp. e0255752

Author(s):

Kris A. Christensen ◽

Eric B. Rondeau ◽

Dionne Sakhrani ◽

Carlo A. Biagi ◽

Hollie Johnson ◽

...

Keyword(s):

Pacific Salmon ◽

Pink Salmon ◽

Chromosomal Polymorphism ◽

Oncorhynchus Gorbuscha ◽

Sequencing Data ◽

Isolated Populations ◽

Temporal Isolation ◽

History Of ◽

Genome Assemblies ◽

Salmon Fishery

Pink salmon (Oncorhynchus gorbuscha) adults are the smallest of the five Pacific salmon native to the western Pacific Ocean. Pink salmon are also the most abundant of these species and account for a large proportion of the commercial value of the salmon fishery worldwide. A two-year life history of pink salmon generates temporally isolated populations that spawn either in even-years or odd-years. To uncover the influence of this genetic isolation, reference genome assemblies were generated for each year-class and whole genome re-sequencing data was collected from salmon of both year-classes. The salmon were sampled from six Canadian rivers and one Japanese river. At multiple centromeres we identified peaks of Fst between year-classes that were millions of base-pairs long. The largest Fst peak was also associated with a million base-pair chromosomal polymorphism found in the odd-year genome near a centromere. These Fst peaks may be the result of a centromere drive or a combination of reduced recombination and genetic drift, and they could influence speciation. Other regions of the genome influenced by odd-year and even-year temporal isolation and tentatively under selection were mostly associated with genes related to immune function, organ development/maintenance, and behaviour.