Model projections to the year 2116 of ocean acidification effects on the fishing profit, effort, and mortality of North Pacific crab stocks (snow crabs, Chionoecetes opilio; Tanner Crabs, Chionoecetes bairdi) in the Eastern Bering Sea for the OA Projections for Snow, Tanner, and Red King Crab in Alaska project using data collected from 1997-01-01 to 2016-12-31 (NCEI Accession 0248327)
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This dataset contains model output data to understand the effect of ocean acidification on the snow crab and southern Tanner crab fisheries. A multi-species size-structured population dynamics model that can account for spatial structure and technical interactions between commercial fisheries was developed and applied to the snow and southern Tanner crab fisheries in the eastern Bering Sea. The model used fisheries data collected in the eastern Bering Sea crab fisheries from 1997-01-01 to 2016-12-31. Single- and four-area models led to similar fits to abundance and catch data, and provide similar estimates of time-trajectories of mature male biomass. The model is used to compute Maximum Sustainable Yield (MSY) and an upper bound on Maximum Economic Yield (uMEY). The model was used as the basis for forecasts to calculate reference points related to yield and profit under the effects of ocean acidification on snow and southern Tanner crab. These data include two data files with forecasts for each of the 1 and 4 area management strategies described above for the years 2017 - 2116.
- Cite as: Punt, André E.; Dalton, Michael G.; Foy, Robert J. (2022). Model projections to the year 2116 of ocean acidification effects on the fishing profit, effort, and mortality of North Pacific crab stocks (snow crabs, Chionoecetes opilio; Tanner Crabs, Chionoecetes bairdi) in the Eastern Bering Sea for the OA Projections for Snow, Tanner, and Red King Crab in Alaska project using data collected from 1997-01-01 to 2016-12-31 (NCEI Accession 0248327). [indicate subset used]. NOAA National Centers for Environmental Information. Dataset. https://doi.org/10.25921/ce2t-d095. Accessed [date].
Time Period |
2017-07-01 to 2116-12-31 |
Spatial Bounding Box Coordinates |
West: -167.38
East: -159
South: 48
North: 68.24
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Spatial Coverage Map |
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General Documentation |
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Associated Resources |
- Punt, A.E., Dalton, M.G. and R.J. Foy. 2020. Multispecies yield and profit when exploitation rates vary spatially including the impact on mortality of ocean acidification on North Pacific crab stocks. Fish. Res. 225: 105481. https://doi.org/10.1016/j.fishres.2019.105481
- NOAA National Centers for Environmental Information (2022). Ocean Carbon and Acidification Data System (OCADS). NOAA National Centers for Environmental Information. https://www.ncei.noaa.gov/products/ocean-carbon-acidification-data-system
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Publication Dates |
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Data Presentation Form |
Digital table - digital representation of facts or figures systematically displayed, especially in columns
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Dataset Progress Status |
Complete - production of the data has been completed Historical archive - data has been stored in an offline storage facility |
Data Update Frequency |
As needed |
Supplemental Information |
This data package (Submission ID: BFVNR26DS) was acquired by NCEI from the Scientific Data Integration System (SDIS) at the NOAA Pacific Marine Environmental Laboratory (PMEL) in accordance with the archival submission agreement between NCEI and PMEL. |
Purpose |
Time-series of catch, profit and effort for projections that account for OA impacts on Tanner crab using a spatially-aggregated multi-species population dynamics model |
Use Limitations |
- Distribution liability: NOAA and NCEI make no warranty, expressed or implied, regarding these data, nor does the fact of distribution constitute such a warranty. NOAA and NCEI cannot assume liability for any damages caused by any errors or omissions in these data. If appropriate, NCEI can only certify that the data it distributes are an authentic copy of the records that were accepted for inclusion in the NCEI archives.
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Dataset Citation |
- Cite as: Punt, André E.; Dalton, Michael G.; Foy, Robert J. (2022). Model projections to the year 2116 of ocean acidification effects on the fishing profit, effort, and mortality of North Pacific crab stocks (snow crabs, Chionoecetes opilio; Tanner Crabs, Chionoecetes bairdi) in the Eastern Bering Sea for the OA Projections for Snow, Tanner, and Red King Crab in Alaska project using data collected from 1997-01-01 to 2016-12-31 (NCEI Accession 0248327). [indicate subset used]. NOAA National Centers for Environmental Information. Dataset. https://doi.org/10.25921/ce2t-d095. Accessed [date].
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Cited Authors |
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Principal Investigators |
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Contributors |
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Resource Providers |
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Publishers |
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Acknowledgments |
- Funding Information: NOAA Ocean Acidification Program (Forecast effects of ocean acidification on Alaska crab and groundfish fisheries (Dalton AFSC), 17924)
- Funding Information: NOAA OAP (OA projections for snow, Tanner, and red king crab in Alaska, NA15OAR4320063)
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Theme keywords |
NODC DATA TYPES THESAURUS
NODC OBSERVATION TYPES THESAURUS
WMO_CategoryCode
Global Change Master Directory (GCMD) Science Keywords
OCADS Study Type
Provider Keywords
- Chionoecetes bairdi
- Chionoecetes opilio
- Tanner crab
- snow crab
Provider Variable Abbreviations
- Catch (Tanner crab)
- Catch (Total)
- Catch (snow crab)
- Effort (Snow crab)
- Effort (Tanner crab)
- Profit (Total)
- Type
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Data Center keywords |
NODC COLLECTING INSTITUTION NAMES THESAURUS
NODC SUBMITTING INSTITUTION NAMES THESAURUS
Global Change Master Directory (GCMD) Data Center Keywords
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Place keywords |
NODC SEA AREA NAMES THESAURUS
Global Change Master Directory (GCMD) Location Keywords
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Project keywords |
NODC PROJECT NAMES THESAURUS
Ocean Acidification Search Keywords
- Ocean Acidification Program (OAP)
- Ocean Carbon and Acidification Data System (OCADS) Project
Research Projects
- OA projections for snow
- Tanner
- and red king crab in Alaska
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Keywords |
NCEI ACCESSION NUMBER
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Use Constraints |
- Cite as: Punt, André E.; Dalton, Michael G.; Foy, Robert J. (2022). Model projections to the year 2116 of ocean acidification effects on the fishing profit, effort, and mortality of North Pacific crab stocks (snow crabs, Chionoecetes opilio; Tanner Crabs, Chionoecetes bairdi) in the Eastern Bering Sea for the OA Projections for Snow, Tanner, and Red King Crab in Alaska project using data collected from 1997-01-01 to 2016-12-31 (NCEI Accession 0248327). [indicate subset used]. NOAA National Centers for Environmental Information. Dataset. https://doi.org/10.25921/ce2t-d095. Accessed [date].
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Access Constraints |
- Use liability: NOAA and NCEI cannot provide any warranty as to the accuracy, reliability, or completeness of furnished data. Users assume responsibility to determine the usability of these data. The user is responsible for the results of any application of this data for other than its intended purpose.
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Fees |
- In most cases, electronic downloads of the data are free. However, fees may apply for custom orders, data certifications, copies of analog materials, and data distribution on physical media.
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Lineage information for: dataset |
Processing Steps |
- 2022-02-25T22:22:11Z - NCEI Accession 0248327 v1.1 was published.
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Output Datasets |
- NCEI Accession 0248327 v1.1
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Lineage information for: dataset |
Processing Steps |
- Parameter or Variable: 1-area management strategy; Abbreviation: Type; In-situ / Manipulation / Response variable: response variable; Detailed sampling and analyzing information: There are two management strategies: FMSY(static): The fishing mortality rates that lead to maximum sustainable yield; FmuMEY(static): The fishing mortality rates that lead to maximum profit (ignore payments to labor and physical capital); Method reference: Punt, A.E., Dalton, M.G. and R.J. Foy. 2020. Multispecies yield and profit when exploitation rates vary spatially including the impact on mortality of ocean acidification on North Pacific crab stocks. Fish. Res. 225: 105481; Researcher name: Andre Punt; Researcher institution: University of Washington.
- Parameter or Variable: 4-area management strategy; Abbreviation: Type; In-situ / Manipulation / Response variable: response variable; Detailed sampling and analyzing information: There are four management strategies: FMSY (static): The fishing mortality rates that lead to maximum sustainable yield when the distribution of effort spatially is set to the current distribution; FmuMEY (static): The fishing mortality rates that lead to maximum profit (ignore payments to labor and physical capital) when the distribution of effort spatially is set to the current distribution; FMSY (dynamic): The fishing mortality rates that lead to maximum sustainable yield when the distribution of effort spatially is soptimized; FmuMEY (dynamic): The fishing mortality rates that lead to maximum profit (ignore payments to labor and physical capital) when the distribution of effort spatially is optimized; Method reference: Punt, A.E., Dalton, M.G. and R.J. Foy. 2020. Multispecies yield and profit when exploitation rates vary spatially including the impact on mortality of ocean acidification on North Pacific crab stocks. Fish. Res. 225: 105481; Researcher name: Andre Punt; Researcher institution: University of Washington.
- Parameter or Variable: Total catch of EBS snow and Tanner crab; Abbreviation: Catch (Total); Unit: Thousand tonnes; In-situ / Manipulation / Response variable: response variable; Measured or calculated: Calculated; Calculation method and parameters: Output of bio-economic population dynamics model; Detailed sampling and analyzing information: The total catch is the result projecting a two-species (EBS snow crab and EBS Tanner crab) population dynamics model to equilibrium under levels of effort that maximize catch when the biological parameters (including impact of OA on growth and survival) are set to those for the year concerned.; Quality flag convention: NA - Model output; Method reference: Punt, A.E., Dalton, M.G. and R.J. Foy. 2020. Multispecies yield and profit when exploitation rates vary spatially including the impact on mortality of ocean acidification on North Pacific crab stocks. Fish. Res. 225: 105481; Biological subject: EBS snow and Tanner crab; Researcher name: Andre Punt; Researcher institution: University of Washington.
- Parameter or Variable: Profit of EBS Snow and Tanner crab; Abbreviation: Profit (Total); Unit: Millions of USD; In-situ / Manipulation / Response variable: response variable; Measured or calculated: Calculated; Calculation method and parameters: Output of bio-economic population dynamics model; Detailed sampling and analyzing information: The total profit is the result projecting a two-species (EBS snow crab and EBS Tanner crab) population dynamics model to equilibrium under levels of effort that maximize catch when the biological parameters (including impact of OA on growth and survival) are set to those for the year concerned. The profit depends on the catch, the price-per-kg, the level of effort and the cost-per-unit-effort.; Quality flag convention: N/A - Model output; Method reference: Punt, A.E., Dalton, M.G. and R.J. Foy. 2020. Multispecies yield and profit when exploitation rates vary spatially including the impact on mortality of ocean acidification on North Pacific crab stocks. Fish. Res. 225: 105481; Biological subject: EBS snow and Tanner crab; Researcher name: Andre Punt; Researcher institution: University of Washington.
- Parameter or Variable: Catch of EBS Snow Crab; Abbreviation: Catch (snow crab); Unit: Thousand tonnes; In-situ / Manipulation / Response variable: response variable; Measured or calculated: Calculated; Calculation method and parameters: Output of bio-economic population dynamics model; Detailed sampling and analyzing information: This is the catch of EBS snow crab that results from projecting a two-species (EBS snow crab and EBS Tanner crab) population dynamics model to equilibrium under levels of effort that maximize catch when the biological parameters (including impact of OA on growth and survival) are set to those for the year concerned.; Quality flag convention: N/A - Model output; Method reference: Punt, A.E., Dalton, M.G. and R.J. Foy. 2020. Multispecies yield and profit when exploitation rates vary spatially including the impact on mortality of ocean acidification on North Pacific crab stocks. Fish. Res. 225: 105481; Biological subject: EBS Snow crab; Species ID: ITIS: 98428; Researcher name: Andre Punt; Researcher institution: University of Washington.
- Parameter or Variable: Catch of EBS southern Tanner crab; Abbreviation: Catch (Tanner crab); Unit: Thousand tonnes; In-situ / Manipulation / Response variable: response variable; Measured or calculated: Calculated; Calculation method and parameters: Output of bio-economic population dynamics model; Detailed sampling and analyzing information: This is the catch of EBS southern Tanner crab that results from projecting a two-species (EBS snow crab and EBS Tanner crab) population dynamics model to equilibrium under levels of effort that maximize catch when the biological parameters (including impact of OA on growth and survival) are set to those for the year concerned.; Quality flag convention: N/A - Model output; Method reference: Punt, A.E., Dalton, M.G. and R.J. Foy. 2020. Multispecies yield and profit when exploitation rates vary spatially including the impact on mortality of ocean acidification on North Pacific crab stocks. Fish. Res. 225: 105481; Biological subject: EBS Tanner crab; Species ID: ITIS: 98429; Researcher name: Andre Punt; Researcher institution: University of Washington.
- Parameter or Variable: Effort of EBS snow crab; Abbreviation: Effort (Snow crab); Unit: Fishing Days; In-situ / Manipulation / Response variable: response variable; Measured or calculated: Calculated; Calculation method and parameters: Output of bio-economic population dynamics model; Detailed sampling and analyzing information: This is the effort for EBS snow crab that maximizes the profts from a two-species (EBS snow crab and EBS Tanner crab) population dynamics model at equilibrium when the biological parameters (including impact of OA on growth and survival) are set to those for the year concerned. The profit depends on the catch, the price-per-kg, the level of effort and the cost-per-unit-effort.; Quality flag convention: N/A - Model output; Method reference: Punt, A.E., Dalton, M.G. and R.J. Foy. 2020. Multispecies yield and profit when exploitation rates vary spatially including the impact on mortality of ocean acidification on North Pacific crab stocks. Fish. Res. 225: 105481; Biological subject: Species; Species ID: ITIS: 98428; Researcher name: Andre Punt; Researcher institution: University of Washington.
- Parameter or Variable: Effort of EBS southern Tanner crab; Abbreviation: Effort (Tanner crab); In-situ / Manipulation / Response variable: response variable; Measured or calculated: Calculated; Detailed sampling and analyzing information: This is the effort for EBS Tanner crab that maximizes the profts from a two-species (EBS snow crab and EBS Tanner crab) population dynamics model at equilibrium when the biological parameters (including impact of OA on growth and survival) are set to those for the year concerned. The profit depends on the catch, the price-per-kg, the level of effort and the cost-per-unit-effort; Quality flag convention: N/A - Model output; Method reference: Punt, A.E., Dalton, M.G. and R.J. Foy. 2020. Multispecies yield and profit when exploitation rates vary spatially including the impact on mortality of ocean acidification on North Pacific crab stocks. Fish. Res. 225: 105481; Species ID: ITIS: 98429; Researcher name: Andre Punt; Researcher institution: University of Washington .
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Last Modified: 2024-06-11T18:48:43Z
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