17860
Growth, movement and survival - Recolonization of the Cedar River, WA by Pacific salmon
Growth, movement and survival (Recolonization of the Cedar River, WA by Pacific salmon)
Data Set
Published / External
17697
FE (Fish Ecology) Division
Project
Completed
2004-09-01
2017-03-28
The objective of this study is to quantify population, community, and ecosystem level changes as a result of salmon recolonization of the Cedar River, WA above Landsburg Dam. The dam was installed in 1901, blocking the upstream migration of adult salmon and steelhead from about 43 km of river habitat. A fish ladder was installed in 2003 to allow adult salmon passage. We collected baseline data on water chemistry, habitat, and fish populations including resident trout and sculpin populations in 2000-2002. These field surveys have been ongoing since 2000.
A mark-recapture study in Rock Creek, the largest tributary available to salmon, was started in 2004 and ended in 2010 to quantify growth, movement, and survival of juvenile coho and resident trout.
Two experimental stream studies conducted to quantify salmon carcass effects on resident organisms.
PIT data of juvenile coho and resident trout in Rock Creek.
Raw/field data, Time series (of types 1-3), Model results
Loaded by batch 4149, 01-23-2013 19:45
Subject to Public Access to Research Results (PARR): Yes
Theme
PIT tag
Theme
abundance
Theme
experiments
Theme
fish passage
Theme
isotopes
Theme
juvenile salmonid
Theme
movement
Theme
recolonization
Theme
survival
Spatial
Cedar River watershed
Spatial
Invertebrate processing
Spatial
Rock Creek Pit tagging; tributary to Cedar R.
Instrument
Animal Mounted Instrument
Instrument
Balance
Instrument
Current Meter
Instrument
In-Situ Instrument
Instrument
Length Board
Northwest Fisheries Science Center
Seattle
WA
USA
Data Set
Access Database
Table (digital)
Animal Mounted Instrument, Balance, Current Meter, In-Situ Instrument, Length Board
Animal based Platform - Fish
Not Applicable
37565
Ballard Locks Pit Tag Data
Ballard Locks Pit Tag Data
Published / External
Planned
Understanding the factors influencing the success of juvenile Pacific salmon Oncorhynchus spp. in newly colonized habitats is essential to their recovery in large areas across theWest Coast of the United States and Canada.We studied biotic and abiotic factors associated with survival during the early stages of colonization and population establishment of juvenile coho salmon O. kisutch in Rock Creek, a tributary of the upper Cedar River in the LakeWashington basin of Puget Sound, Washington. The stream was occupied by resident fishes (e.g., rainbow trout O. mykiss, cutthroat trout O. clarkii, speckled dace Rhinichthys osculus, and several sculpins Cottus spp.), but adult coho salmon and other anadromous fishes had been excluded by a dam from 1901 until fish ladder installation in 2003. We defined logistic regression models and used an information-theoretic approach to predict apparent survival with various combinations of individual fish condition, location competition, and local habitat quality. The best-approximating models included measures of brood year, body size, habitat, and migration timing. Survival was positively associated with body size and habitat quality and negatively associated with competition. Survival from late summer to smolt migration varied among years (mean SD = 27 11%) and was significantly higher within Rock Creek (73 11%) than during seaward migration in the Cedar River and Lake Washington (38 14%). Juvenile coho salmon established a population and outnumbered resident salmonid species by 40% in the lower 2 km of Rock Creek within 5 years of colonization. Overall, the results revealed the linkage between the colonization success of juvenile coho salmon and the biotic features and habitat quality in a newly accessible environment during the stream-rearing phase of their life history. DOI: 10.1080/00028487.2011.587752.
Spreadsheet
Yes
PARR
Understanding the factors influencing the success of juvenile Pacific salmon Oncorhynchus spp. in newly colonized habitats is essential to their recovery in large areas across theWest Coast of the United States and Canada.We studied biotic and abiotic factors associated with survival during the early stages of colonization and population establishment of juvenile coho salmon O. kisutch in Rock Creek, a tributary of the upper Cedar River in the LakeWashington basin of Puget Sound, Washington. The stream was occupied by resident fishes (e.g., rainbow trout O. mykiss, cutthroat trout O. clarkii, speckled dace Rhinichthys osculus, and several sculpins Cottus spp.), but adult coho salmon and other anadromous fishes had been excluded by a dam from 1901 until fish ladder installation in 2003. We defined logistic regression models and used an information-theoretic approach to predict apparent survival with various combinations of individual fish condition, location competition, and local habitat quality. The best-approximating models included measures of brood year, body size, habitat, and migration timing. Survival was positively associated with body size and habitat quality and negatively associated with competition. Survival from late summer to smolt migration varied among years (mean SD = 27 11%) and was significantly higher within Rock Creek (73 11%) than during seaward migration in the Cedar River and Lake Washington (38 14%). Juvenile coho salmon established a population and outnumbered resident salmonid species by 40% in the lower 2 km of Rock Creek within 5 years of colonization. Overall, the results revealed the linkage between the colonization success of juvenile coho salmon and the biotic features and habitat quality in a newly accessible environment during the stream-rearing phase of their life history. DOI: 10.1080/00028487.2011.587752.
1
Location
VARCHAR2
Yes
No
Active
Location of the PIT tag array to track outmigrating juvenile salmonids.
VARCHAR2
2
Antenna
VARCHAR2
Yes
No
Active
An array of passive antennas which fish can swim through to determine direction of travel.
VARCHAR2
3
Date
DATE
Yes
No
Active
Date and time at which PIT tagged fish went through antenna array.
DATE
4
PIT Code
VARCHAR2
Yes
No
Active
Alpha numeric code that identifies individual fish.
VARCHAR2
37566
Cedar River non PIT tagged fish
Cedar River non PIT tagged fish
Published / External
Planned
Understanding the factors influencing the success of juvenile Pacific salmon Oncorhynchus spp. in newly colonized habitats is essential to their recovery in large areas across theWest Coast of the United States and Canada.We studied biotic and abiotic factors associated with survival during the early stages of colonization and population establishment of juvenile coho salmon O. kisutch in Rock Creek, a tributary of the upper Cedar River in the LakeWashington basin of Puget Sound, Washington. The stream was occupied by resident fishes (e.g., rainbow trout O. mykiss, cutthroat trout O. clarkii, speckled dace Rhinichthys osculus, and several sculpins Cottus spp.), but adult coho salmon and other anadromous fishes had been excluded by a dam from 1901 until fish ladder installation in 2003. We defined logistic regression models and used an information-theoretic approach to predict apparent survival with various combinations of individual fish condition, location competition, and local habitat quality. The best-approximating models included measures of brood year, body size, habitat, and migration timing. Survival was positively associated with body size and habitat quality and negatively associated with competition. Survival from late summer to smolt migration varied among years (mean SD = 27 11%) and was significantly higher within Rock Creek (73 11%) than during seaward migration in the Cedar River and Lake Washington (38 14%). Juvenile coho salmon established a population and outnumbered resident salmonid species by 40% in the lower 2 km of Rock Creek within 5 years of colonization. Overall, the results revealed the linkage between the colonization success of juvenile coho salmon and the biotic features and habitat quality in a newly accessible environment during the stream-rearing phase of their life history. DOI: 10.1080/00028487.2011.587752.
Spreadsheet
Yes
PARR
Understanding the factors influencing the success of juvenile Pacific salmon Oncorhynchus spp. in newly colonized habitats is essential to their recovery in large areas across theWest Coast of the United States and Canada.We studied biotic and abiotic factors associated with survival during the early stages of colonization and population establishment of juvenile coho salmon O. kisutch in Rock Creek, a tributary of the upper Cedar River in the LakeWashington basin of Puget Sound, Washington. The stream was occupied by resident fishes (e.g., rainbow trout O. mykiss, cutthroat trout O. clarkii, speckled dace Rhinichthys osculus, and several sculpins Cottus spp.), but adult coho salmon and other anadromous fishes had been excluded by a dam from 1901 until fish ladder installation in 2003. We defined logistic regression models and used an information-theoretic approach to predict apparent survival with various combinations of individual fish condition, location competition, and local habitat quality. The best-approximating models included measures of brood year, body size, habitat, and migration timing. Survival was positively associated with body size and habitat quality and negatively associated with competition. Survival from late summer to smolt migration varied among years (mean SD = 27 11%) and was significantly higher within Rock Creek (73 11%) than during seaward migration in the Cedar River and Lake Washington (38 14%). Juvenile coho salmon established a population and outnumbered resident salmonid species by 40% in the lower 2 km of Rock Creek within 5 years of colonization. Overall, the results revealed the linkage between the colonization success of juvenile coho salmon and the biotic features and habitat quality in a newly accessible environment during the stream-rearing phase of their life history. DOI: 10.1080/00028487.2011.587752.
1
Stream
VARCHAR2
Yes
No
Active
Area of Cedar River where fish was tagged.
VARCHAR2
2
Date
DATE
Yes
No
Active
Date and time at which fish was tagged.
DATE
3
Season
VARCHAR2
Yes
No
Active
Season and year fish was tagged.
VARCHAR2
4
Habitat survey event
NUMBER
No
No
Active
Number corresponding to the sampling event.
NUMBER
5
Fork Length
NUMBER
Yes
No
Active
Length of fish at tagging. Units for values are millimeters.
NUMBER
millimeters
6
Weight
NUMBER
No
No
Active
Weight of fish at tagging. Units for values are grams.
NUMBER
grams
7
Species Name
VARCHAR2
Yes
No
Active
Name of fish at tagging.
VARCHAR2
8
Habitat unit number
VARCHAR2
No
No
Active
Habitat number where fish was found.
VARCHAR2
9
Genetic clip number
VARCHAR2
No
No
Active
Number to track which fish was clipped to run DNA analyses.
VARCHAR2
Data Steward
2015-10-01
Person
Pess, George R
George.Pess@noaa.gov
2725 Montlake Boulevard East
Seattle
WA
98112
206-860-3450
Distributor
2015-10-01
Organization
Northwest Fisheries Science Center
NWFSC
nmfs.nwfsc.metadata@noaa.gov
2725 Montlake Boulevard East
Seattle
WA
98112
USA
206-860-3200
http://www.nwfsc.noaa.gov
NWFSC Home
Online Resource
Metadata Contact
2015-10-01
Organization
Northwest Fisheries Science Center
NWFSC
nmfs.nwfsc.metadata@noaa.gov
2725 Montlake Boulevard East
Seattle
WA
98112
USA
206-860-3200
http://www.nwfsc.noaa.gov
NWFSC Home
Online Resource
Originator
2015-10-01
Person
Pess, George R
George.Pess@noaa.gov
2725 Montlake Boulevard East
Seattle
WA
98112
206-860-3450
Point of Contact
2015-10-01
Person
Pess, George R
George.Pess@noaa.gov
2725 Montlake Boulevard East
Seattle
WA
98112
206-860-3450
-122.3062
-122.3062
47.6449
47.6449
Invertebrate processing: Identification and processing of stream invertebrates at NWFSC.
Continuing
2000-06-01
-122.3062
-122.3062
47.6449
47.6449
Rock Creek Pit tagging; tributary to Cedar R.: Mark-recapture study in Rock Creek, tributary to Cedar River
Range
2005-10-01
2010-12-31
-122.3062
-122.3062
47.6449
47.6449
Cedar River watershed: City of Seattle's Municipal Watershed starting at Landsburg Dam and ending at Cedar Falls and all associated tributaries
Continuing
2000-06-01
Unclassified
At this time, contact the Data Manager for information on obtaining access to this data set. In the near future, the NWFSC will strive to provide all non-sensitive data resources as a web service in order to meet the NOAA Data Access Policy Directive (https://nosc.noaa.gov/EDMC/PD.DA.php).
NA
2017-03-28
https://www.webapps.nwfsc.noaa.gov/apex/parr/ballard_locks_pit_tag_data/data/page/
2015-10-01
Organization
Northwest Fisheries Science Center
Ballard Locks Pit Tag Data (RESTful)
Understanding the factors influencing the success of juvenile Pacific salmon Oncorhynchus spp. in newly colonized habitats is essential to their recovery in large areas across theWest Coast of the United States and Canada.We studied biotic and abiotic factors associated with survival during the early stages of colonization and population establishment of juvenile coho salmon O. kisutch in Rock Creek, a tributary of the upper Cedar River in the LakeWashington basin of Puget Sound, Washington. The stream was occupied by resident fishes (e.g., rainbow trout O. mykiss, cutthroat trout O. clarkii, speckled dace Rhinichthys osculus, and several sculpins Cottus spp.), but adult coho salmon and other anadromous fishes had been excluded by a dam from 1901 until fish ladder installation in 2003. We defined logistic regression models and used an information-theoretic approach to predict apparent survival with various combinations of individual fish condition, location competition, and local habitat quality. The best-approximating models included measures of brood year, body size, habitat, and migration timing. Survival was positively associated with body size and habitat quality and negatively associated with competition. Survival from late summer to smolt migration varied among years (mean ± SD = 27 ± 11%) and was significantly higher within Rock Creek (73 ± 11%) than during seaward migration in the Cedar River and Lake Washington (38 ± 14%). Juvenile coho salmon established a population and outnumbered resident salmonid species by 40% in the lower 2 km of Rock Creek within 5 years of colonization. Overall, the results revealed the linkage between the colonization success of juvenile coho salmon and the biotic features and habitat quality in a newly accessible environment during the stream-rearing phase of their life history. DOI: 10.1080/00028487.2011.587752.
2017-03-28
https://www.webapps.nwfsc.noaa.gov/apex/parr/cedar_river_non_pit_tagged_fish/data/page/
2015-10-01
Organization
Northwest Fisheries Science Center
Cedar River non PIT tagged fish (RESTful)
Understanding the factors influencing the success of juvenile Pacific salmon Oncorhynchus spp. in newly colonized habitats is essential to their recovery in large areas across theWest Coast of the United States and Canada.We studied biotic and abiotic factors associated with survival during the early stages of colonization and population establishment of juvenile coho salmon O. kisutch in Rock Creek, a tributary of the upper Cedar River in the LakeWashington basin of Puget Sound, Washington. The stream was occupied by resident fishes (e.g., rainbow trout O. mykiss, cutthroat trout O. clarkii, speckled dace Rhinichthys osculus, and several sculpins Cottus spp.), but adult coho salmon and other anadromous fishes had been excluded by a dam from 1901 until fish ladder installation in 2003. We defined logistic regression models and used an information-theoretic approach to predict apparent survival with various combinations of individual fish condition, location competition, and local habitat quality. The best-approximating models included measures of brood year, body size, habitat, and migration timing. Survival was positively associated with body size and habitat quality and negatively associated with competition. Survival from late summer to smolt migration varied among years (mean ± SD = 27 ± 11%) and was significantly higher within Rock Creek (73 ± 11%) than during seaward migration in the Cedar River and Lake Washington (38 ± 14%). Juvenile coho salmon established a population and outnumbered resident salmonid species by 40% in the lower 2 km of Rock Creek within 5 years of colonization. Overall, the results revealed the linkage between the colonization success of juvenile coho salmon and the biotic features and habitat quality in a newly accessible environment during the stream-rearing phase of their life history. DOI: 10.1080/00028487.2011.587752.
2017-03-28
https://www.webapps.nwfsc.noaa.gov/apex/parrdata/inventory/tables/table/ballard_locks_pit_tag_data
2015-10-01
Organization
Northwest Fisheries Science Center
Ballard Locks Pit Tag Data
Understanding the factors influencing the success of juvenile Pacific salmon Oncorhynchus spp. in newly colonized habitats is essential to their recovery in large areas across theWest Coast of the United States and Canada.We studied biotic and abiotic factors associated with survival during the early stages of colonization and population establishment of juvenile coho salmon O. kisutch in Rock Creek, a tributary of the upper Cedar River in the LakeWashington basin of Puget Sound, Washington. The stream was occupied by resident fishes (e.g., rainbow trout O. mykiss, cutthroat trout O. clarkii, speckled dace Rhinichthys osculus, and several sculpins Cottus spp.), but adult coho salmon and other anadromous fishes had been excluded by a dam from 1901 until fish ladder installation in 2003. We defined logistic regression models and used an information-theoretic approach to predict apparent survival with various combinations of individual fish condition, location competition, and local habitat quality. The best-approximating models included measures of brood year, body size, habitat, and migration timing. Survival was positively associated with body size and habitat quality and negatively associated with competition. Survival from late summer to smolt migration varied among years (mean ± SD = 27 ± 11%) and was significantly higher within Rock Creek (73 ± 11%) than during seaward migration in the Cedar River and Lake Washington (38 ± 14%). Juvenile coho salmon established a population and outnumbered resident salmonid species by 40% in the lower 2 km of Rock Creek within 5 years of colonization. Overall, the results revealed the linkage between the colonization success of juvenile coho salmon and the biotic features and habitat quality in a newly accessible environment during the stream-rearing phase of their life history. DOI: 10.1080/00028487.2011.587752.
2017-03-28
https://www.webapps.nwfsc.noaa.gov/apex/parrdata/inventory/tables/table/cedar_river_non_pit_tagged_fish
2015-10-01
Organization
Northwest Fisheries Science Center
Cedar River non PIT tagged fish
Understanding the factors influencing the success of juvenile Pacific salmon Oncorhynchus spp. in newly colonized habitats is essential to their recovery in large areas across theWest Coast of the United States and Canada.We studied biotic and abiotic factors associated with survival during the early stages of colonization and population establishment of juvenile coho salmon O. kisutch in Rock Creek, a tributary of the upper Cedar River in the LakeWashington basin of Puget Sound, Washington. The stream was occupied by resident fishes (e.g., rainbow trout O. mykiss, cutthroat trout O. clarkii, speckled dace Rhinichthys osculus, and several sculpins Cottus spp.), but adult coho salmon and other anadromous fishes had been excluded by a dam from 1901 until fish ladder installation in 2003. We defined logistic regression models and used an information-theoretic approach to predict apparent survival with various combinations of individual fish condition, location competition, and local habitat quality. The best-approximating models included measures of brood year, body size, habitat, and migration timing. Survival was positively associated with body size and habitat quality and negatively associated with competition. Survival from late summer to smolt migration varied among years (mean ± SD = 27 ± 11%) and was significantly higher within Rock Creek (73 ± 11%) than during seaward migration in the Cedar River and Lake Washington (38 ± 14%). Juvenile coho salmon established a population and outnumbered resident salmonid species by 40% in the lower 2 km of Rock Creek within 5 years of colonization. Overall, the results revealed the linkage between the colonization success of juvenile coho salmon and the biotic features and habitat quality in a newly accessible environment during the stream-rearing phase of their life history. DOI: 10.1080/00028487.2011.587752.
https://www.webapps.nwfsc.noaa.gov/apex/parrdata/inventory/datasets/dataset/2580
Growth, movement and survival
Online Resource
Web site
NWFSC Dataset Information page. PIT data of juvenile coho and resident trout in Rock Creek
Access Database
High
These data were collected and processed in accordance with established protocols and best practices under the direction of the project’s Principal Investigator. Contact the dataset Data Manager in section 3 for full QA/QC methodology.
No
10
No
No
No
0 days
No Delay
NCEI-MD
365
The Northwest Fisheries Science Center facilitates backup and recovery of all data and IT components which are managed by IT Operations through the capture of static (point-in-time) backup data to physical media. Once data is captured to physical media (every 1-3 days), a duplicate is made and routinely (weekly) transported to an offsite archive facility where it is maintained throughout the data's applicable life-cycle.
Download digital PIT tag data; incorporate into database: These data were collected and processed in accordance with established protocols and best practices under the direction of the project’s Principal Investigator. Contact the dataset Data Manager for full QA/QC methodology.
37565
Entity
Ballard Locks Pit Tag Data
37566
Entity
Cedar River non PIT tagged fish
gov.noaa.nmfs.inport:17860
Jeffrey Cowen
2013-01-23T19:45:37
SysAdmin InPortAdmin
2022-08-09T17:11:07
2019-06-04
Northwest Fisheries Science Center
NWFSC
2725 Montlake Boulevard East
Seattle
WA
98112
USA
206-860-3200
http://www.nwfsc.noaa.gov
1001
Public
No
2019-06-04
1 Year
2020-06-04