Climate attribution time series track the evolution of human influence on North Pacific sea surface temperature

Litzow, M.A.; Malick, M.J.; Kristiansen, T.; Connors, B.M.; Ruggerone, G.T.

doi:10.1088/1748-9326/ad0c88

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Climate attribution time series track the evolution of human influence on North Pacific sea surface temperature

2024
By Litzow, M.A. ; Malick, M.J. ; Kristiansen, T. ; ...
Source: Environ. Res. Lett. 19 (2024) 014014

[PDF-3.49 MB]

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Journal Title:

Environmental Research Letters
Personal Author:

Litzow, M.A. ; Malick, M.J. ; Kristiansen, T. ; Connors, B.M. ; Ruggerone, G.T.

Litzow, M.A. ; Malick, M.J. ; Kristiansen, T. ; Connors, B.M. ; Ruggerone, G.T. Less -
NOAA Program & Office:

NMFS (National Marine Fisheries Service) ; AFSC (Alaska Fisheries Science Center) ; NWFSC (Northwest Fisheries Science Center)

NMFS (National Marine Fisheries Service) ; AFSC (Alaska Fisheries Science Center) ; NWFSC (Northwest Fisheries Science Center) Less -
Description:

We apply climate attribution techniques to sea surface temperature time series from five regional North Pacific ecosystems to track the growth in human influence on ocean temperatures over the past seven decades (1950–2022). Using Bayesian estimates of the Fraction of Attributable Risk (FAR) and Risk Ratio (RR) derived from 23 global climate models, we show that human influence on regional ocean temperatures could first be detected in the 1970s and grew until 2014–2020 temperatures showed overwhelming evidence of human contribution. For the entire North Pacific, FAR and RR values show that temperatures have reached levels that were likely impossible in the preindustrial climate, indicating that the question of attribution is already obsolete at the basin scale. Regional results indicate the strongest evidence for human influence in the northernmost ecosystems (Eastern Bering Sea and Gulf of Alaska), though all regions showed FAR values > 0.98 for at least one year. Extreme regional SST values that were expected every 1000–10 000 years in the preindustrial climate are expected every 5–40 years in the current climate. We use the Gulf of Alaska sockeye salmon fishery to show how attribution time series may be used to contextualize the impacts of human-induced ocean warming on ecosystem services. We link negative warming effects on sockeye fishery catches to increasing human influence on regional temperatures (increasing FAR values), and we find that sockeye salmon migrating to sea in years with the strongest evidence for human effects on temperature (FAR ⩾ 0.98) produce catches 1.4 standard deviations below the long-term log mean. Attribution time series may be helpful indicators for better defining the human role in observed climate change impacts, and may thus help researchers, managers, and stakeholders to better understand and plan for the effects of climate change.
Keywords:

[+]

Adaptation (Biology) Climatic Changes Fisheries Ocean Temperature Sockeye Salmon Sockeye Salmon Fisheries Climate Change Ecosystem Services Extreme Event Attribution
Source:

Environ. Res. Lett. 19 (2024) 014014
DOI:

https://doi.org/10.1088/1748-9326/ad0c88
Format:

PDF
Document Type:

Journal Article
Place as Subject:

North Pacific Ocean ; Alaska, Gulf of (Alaska) ; Bering Sea

North Pacific Ocean ; Alaska, Gulf of (Alaska) ; Bering Sea Less -
License:

https://creativecommons.org/licenses/by/4.0/
Rights Information:

CC BY
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Submitted
Main Document Checksum:

[+]

urn:sha256:7f4ea43d6207a8be062a3bca8e54a0dcd7c4fc2ee9bf9db5e1b09a2120277193
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https://repository.library.noaa.gov/view/noaa/56261/noaa_56261_DS1.pdf
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Climate attribution time series track the evolution of human influence on North Pacific sea surface temperature

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