The migratory timing of adult summer-run steelhead in the Columbia River over six decades of environmental change

Anadromous fishes achieve most of their lifetime growth at sea before returning to spawn in freshwater, However, populations of some species enter freshwater many months before spawning, apparently compromising growth opportunities at sea to access spawning grounds in conjunction with specific seaso...

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Bibliographic Details
Main Authors: Robards, M D, Quinn, T P
Format: Text
Language:unknown
Published: ScholarWorks@UMass Amherst 2002
Subjects:
abundance
adult
American shad
anadromous
Atlantic salmon
behavior
Bonneville
Bonneville Dam
CHALLENGES
Chinook salmon
Columbia River
COMPLEX
DAM
ENVIRONMENT
evolution
FISHES
Flow
Freshwater
GAIRDNERI
growth
habitat
habitats
Hatcheries
hatchery
history
LIFE
life history
LIFE-HISTORIES
life-history
MECHANISM
mechanisms
migration
migration timing
migrations
migratory
ocean
Oncorhynchus
Oncorhynchus mykiss
ONCORHYNCHUS-MYKISS
Overwintering
pattern
PATTERNS
physical
population
population structure
POPULATION-STRUCTURE
POPULATIONS
production
review
reviews
river
Rivers
run
SALMO-SALAR L
SEA
seasonal
SOCKEYE-SALMON
spawning
Spawning grounds
species
steelhead
structure
summer
temperature
thermal
TIME
timing
Water temperature
wild
Sockeye
Salmo salar
Online Access:https://scholarworks.umass.edu/fishpassage_journal_articles/1757
id ftunivmassamh:oai:scholarworks.umass.edu:fishpassage_journal_articles-2757
record_format openpolar
spelling ftunivmassamh:oai:scholarworks.umass.edu:fishpassage_journal_articles-2757 2023-05-15T15:33:07+02:00 The migratory timing of adult summer-run steelhead in the Columbia River over six decades of environmental change Robards, M D Quinn, T P 2002-01-01T08:00:00Z https://scholarworks.umass.edu/fishpassage_journal_articles/1757 unknown ScholarWorks@UMass Amherst https://scholarworks.umass.edu/fishpassage_journal_articles/1757 Journal Articles abundance adult American shad anadromous Atlantic salmon behavior Bonneville Bonneville Dam CHALLENGES Chinook salmon Columbia River COMPLEX DAM ENVIRONMENT evolution FISHES Flow Freshwater GAIRDNERI growth habitat habitats Hatcheries hatchery history LIFE life history LIFE-HISTORIES life-history MECHANISM mechanisms migration migration timing migrations migratory ocean Oncorhynchus Oncorhynchus mykiss ONCORHYNCHUS-MYKISS Overwintering pattern PATTERNS physical population population structure POPULATION-STRUCTURE POPULATIONS production review reviews river Rivers run SALMO-SALAR L SEA seasonal SOCKEYE-SALMON spawning Spawning grounds species steelhead structure summer temperature thermal TIME timing Water temperature wild text 2002 ftunivmassamh 2022-01-09T19:38:47Z Anadromous fishes achieve most of their lifetime growth at sea before returning to spawn in freshwater, However, populations of some species enter freshwater many months before spawning, apparently compromising growth opportunities at sea to access spawning grounds in conjunction with specific seasonal patterns of flow and temperature along the migratory route. The nutritional benefits of overwintering in the ocean may also be outweighed by a relatively dormant winter in colder river habitats. Modification of the thermal and hydrologic regimes of rivers (such as the Columbia River during the 20th century) might be expected to affect the abundance and life history patterns of such populations. This study reviews information on the migratory timing, abundance, and composition (wild versus hatchery) of summer-run (upriver) populations of steelhead Oncorhynchus mykiss in the Columbia River basin with reference to environmental changes. Despite pronounced changes in the river's environment, the late summer migration-spring spawning persists as an overall pattern as it passes Bonneville Dam (the lowest on the Columbia River). However, the historic summer run's distinct bimodality (with early and late components) has gradually become unimodal. Upriver, other complex changes have taken place in migration timing: it now occurs earlier through some reaches of the river and periods of time, reflecting both the uneven physical changes over time and the complex behavior and population structure of steelhead. We were unable, therefore, to isolate the causal mechanisms or disentangle natural from anthropogenic influences. However, our research suggests that the change in the migration pattern for summer-run steelhead reflects a response to the challenges presented by a changing environment (temperature and flow) to genetically controlled life history patterns, the relative abundance of component populations, and the relative proportion of populations derived from hatchery production (which lately [1984-1999] accounted for an average 74% of the early run and 85% of the late run) Text Atlantic salmon Salmo salar University of Massachusetts: ScholarWorks@UMass Amherst Sockeye ENVELOPE(-130.143,-130.143,54.160,54.160)
institution Open Polar
collection University of Massachusetts: ScholarWorks@UMass Amherst
op_collection_id ftunivmassamh
language unknown
topic abundance
adult
American shad
anadromous
Atlantic salmon
behavior
Bonneville
Bonneville Dam
CHALLENGES
Chinook salmon
Columbia River
COMPLEX
DAM
ENVIRONMENT
evolution
FISHES
Flow
Freshwater
GAIRDNERI
growth
habitat
habitats
Hatcheries
hatchery
history
LIFE
life history
LIFE-HISTORIES
life-history
MECHANISM
mechanisms
migration
migration timing
migrations
migratory
ocean
Oncorhynchus
Oncorhynchus mykiss
ONCORHYNCHUS-MYKISS
Overwintering
pattern
PATTERNS
physical
population
population structure
POPULATION-STRUCTURE
POPULATIONS
production
review
reviews
river
Rivers
run
SALMO-SALAR L
SEA
seasonal
SOCKEYE-SALMON
spawning
Spawning grounds
species
steelhead
structure
summer
temperature
thermal
TIME
timing
Water temperature
wild
spellingShingle abundance
adult
American shad
anadromous
Atlantic salmon
behavior
Bonneville
Bonneville Dam
CHALLENGES
Chinook salmon
Columbia River
COMPLEX
DAM
ENVIRONMENT
evolution
FISHES
Flow
Freshwater
GAIRDNERI
growth
habitat
habitats
Hatcheries
hatchery
history
LIFE
life history
LIFE-HISTORIES
life-history
MECHANISM
mechanisms
migration
migration timing
migrations
migratory
ocean
Oncorhynchus
Oncorhynchus mykiss
ONCORHYNCHUS-MYKISS
Overwintering
pattern
PATTERNS
physical
population
population structure
POPULATION-STRUCTURE
POPULATIONS
production
review
reviews
river
Rivers
run
SALMO-SALAR L
SEA
seasonal
SOCKEYE-SALMON
spawning
Spawning grounds
species
steelhead
structure
summer
temperature
thermal
TIME
timing
Water temperature
wild
Robards, M D
Quinn, T P
The migratory timing of adult summer-run steelhead in the Columbia River over six decades of environmental change
topic_facet abundance
adult
American shad
anadromous
Atlantic salmon
behavior
Bonneville
Bonneville Dam
CHALLENGES
Chinook salmon
Columbia River
COMPLEX
DAM
ENVIRONMENT
evolution
FISHES
Flow
Freshwater
GAIRDNERI
growth
habitat
habitats
Hatcheries
hatchery
history
LIFE
life history
LIFE-HISTORIES
life-history
MECHANISM
mechanisms
migration
migration timing
migrations
migratory
ocean
Oncorhynchus
Oncorhynchus mykiss
ONCORHYNCHUS-MYKISS
Overwintering
pattern
PATTERNS
physical
population
population structure
POPULATION-STRUCTURE
POPULATIONS
production
review
reviews
river
Rivers
run
SALMO-SALAR L
SEA
seasonal
SOCKEYE-SALMON
spawning
Spawning grounds
species
steelhead
structure
summer
temperature
thermal
TIME
timing
Water temperature
wild
description Anadromous fishes achieve most of their lifetime growth at sea before returning to spawn in freshwater, However, populations of some species enter freshwater many months before spawning, apparently compromising growth opportunities at sea to access spawning grounds in conjunction with specific seasonal patterns of flow and temperature along the migratory route. The nutritional benefits of overwintering in the ocean may also be outweighed by a relatively dormant winter in colder river habitats. Modification of the thermal and hydrologic regimes of rivers (such as the Columbia River during the 20th century) might be expected to affect the abundance and life history patterns of such populations. This study reviews information on the migratory timing, abundance, and composition (wild versus hatchery) of summer-run (upriver) populations of steelhead Oncorhynchus mykiss in the Columbia River basin with reference to environmental changes. Despite pronounced changes in the river's environment, the late summer migration-spring spawning persists as an overall pattern as it passes Bonneville Dam (the lowest on the Columbia River). However, the historic summer run's distinct bimodality (with early and late components) has gradually become unimodal. Upriver, other complex changes have taken place in migration timing: it now occurs earlier through some reaches of the river and periods of time, reflecting both the uneven physical changes over time and the complex behavior and population structure of steelhead. We were unable, therefore, to isolate the causal mechanisms or disentangle natural from anthropogenic influences. However, our research suggests that the change in the migration pattern for summer-run steelhead reflects a response to the challenges presented by a changing environment (temperature and flow) to genetically controlled life history patterns, the relative abundance of component populations, and the relative proportion of populations derived from hatchery production (which lately [1984-1999] accounted for an average 74% of the early run and 85% of the late run)
format Text
author Robards, M D
Quinn, T P
author_facet Robards, M D
Quinn, T P
author_sort Robards, M D
title The migratory timing of adult summer-run steelhead in the Columbia River over six decades of environmental change
title_short The migratory timing of adult summer-run steelhead in the Columbia River over six decades of environmental change
title_full The migratory timing of adult summer-run steelhead in the Columbia River over six decades of environmental change
title_fullStr The migratory timing of adult summer-run steelhead in the Columbia River over six decades of environmental change
title_full_unstemmed The migratory timing of adult summer-run steelhead in the Columbia River over six decades of environmental change
title_sort migratory timing of adult summer-run steelhead in the columbia river over six decades of environmental change
publisher ScholarWorks@UMass Amherst
publishDate 2002
url https://scholarworks.umass.edu/fishpassage_journal_articles/1757
long_lat ENVELOPE(-130.143,-130.143,54.160,54.160)
geographic Sockeye
geographic_facet Sockeye
genre Atlantic salmon
Salmo salar
genre_facet Atlantic salmon
Salmo salar
op_source Journal Articles
op_relation https://scholarworks.umass.edu/fishpassage_journal_articles/1757
_version_ 1766363584813596672

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