Home » 2024 Yukon River Chinook Run Timing Forecast

2024 Yukon River Chinook Run Timing Forecast

Jun 10, 2024

Yukon River Chinook are predicted to arrive on the delta just slightly later than average in 2024: The first significant pulse (15% point) is expected by June 14th and 50% of the run is expected to have arrived by June 23rd.

April mean air temperature at the Nome, AK airport (AMATC) was -4.3°C, slightly warmer than the long-term average of -6.6°C (range -17.1°C to 1.3°C). May mean sea surface temperature (MSSTC) measured along the migratory route between the delta and St. Lawrence Island was -2.1°C, considerably cooler than its long-term average of -0.49°C (range -3.8°C to 2.8°C). Spring-time ice cover between the delta and St. Lawrence Island was slightly above average at 57% (average 54%, range 8% to 78%).

A three-panel plot, with panels showing time series of April mean air temperature (AMATC) at the Nome AK airport, May mean sea surface temperature in the nominal marine staging area (MSSTC), and the proportion of ice cover (PICE) in the nominal marine staging area. Solid vertical line mark indicates each series’ long-term mean and a solid circle mark indicates the 2024 value in each series.

Figure 1: A three-panel plot, with panels showing time series of April mean air temperature (AMATC) at the Nome AK airport, May mean sea surface temperature in the nominal marine staging area (MSSTC), and the proportion of ice cover (PICE) in the nominal marine staging area. Solid vertical line mark indicates each series’ long-term mean and a solid circle mark indicates the 2024 value in each series.

Forecast Detail

The forecast model is based on the relationship previously established in Mundy & Evenson (2011)1 which identified a set of three environmental variables which correlate with the run timing of Yukon River Chinook: April mean air temperature at the Nome, AK airport (1961–2024; AMATC), May mean sea surface temperature (1961–2024; MSSTC) in the nominal marine staging area just off the Yukon River Delta, and the Spring-time proportion of ice cover (1970–2024; PICE), also measured over the nominal marine staging area. The forecast model is made of three independent sub-models, where each sub-model is a multiple linear regression with a response of either the 15th (FIFDJ), 25th (QDJ), or 50th (MDJ) percentile of cumulative catch-per-unit effort (CPUE) in either commercial or test fisheries located on the delta (1961–2023).

Based upon the historical relationship with CPUE in commercial and test fishery catches on the Yukon River Delta (1961–2023) and the previously mentioned environmental indicators (AMATC, MSSTC, PICE), the predicted dates of three percentiles of CPUE in the Lower Yukon Test Fishery are June 14th (15%), June 17th (25%), and June 23rd (50%) (Table 1).

Model FormulaPercentile of Cumulative CPUEForecasted Date
FIFDJ ~ AMATC + MSSTC + PICE15%June 14
QDJ ~ AMATC + MSSTC + PICE25%June 17
MDJ ~ AMATC + MSSTC + PICE50%June 23

Table 1: Predicted dates (June 14th, 17th, 23rd) of three percentiles (15%, 25%, 50%) of cumulative catch-per-unit-effort (CPUE) and the associated model formula for each.

Forecast Performance

We quantified the accuracy of the forecast sub-models using hindcasting with the most recent fifteen years of runs and calculated a set of prediction-oriented evaluation criteria for each (Table 2). All three sub-models (FIFDJ, QDJ, MDJ) perform similarly, with mean absolute prediction errors (MAPE) 2.27–2.93 days. We also calculated prediction intervals by multiplying each model’s standard error by 2σ to get prediction interval widths ranging from 7.8–8.4 days, which contained the observed value 73–87% of the time. Last, we calculated the maximum absolute residual of 6–9 days and prediction bias of -1.60 to -0.3 days which means the model tends to make forecasts slightly earlier than observed run timing. The forecast’s bias is an area for future forecast improvements.

ModelMAPE (SD) (days)Mean Bias (days)Max. Residual (days)
FIFDJ ~ AMATC + MSSTC + PICE3.13-0.339
QDJ ~ AMATC + MSSTC + PICE2.93-0.409
MDJ ~ AMATC + MSSTC + PICE2.26-1.606

Table 2: Model performance metrics for the three sub-models that make up the forecast. MAPE: Mean Absolute Prediction Error and its standard deviation. Bias is the mean residual. Max. Residual is the maximum absolute residual.

For more information about how the forecast was produced, see https://github.com/yukon-forecasting/2024-forecast. For more information on the forecast model and its underlying biological hypothesis, see Mundy & Evenson (2011).

Acknowledgements

Prepared by Bryce Mecum (brycemecum@gmail.com). Data management and web page support by Holly Kent (kent@aoos.org) and Aidan Lewis (aidan@axiomalaska.com). Yukon Chinook in-season salmon data and management agency coordination by Fred West (fred.west@alaska.gov). Financial and material support provided by the Alaska Ocean Observing System, NOAA National Marine Fisheries Service, and the Alaska Department of Fish & Game.

References

[1] Phillip R. Mundy, Danielle F. Evenson, Environmental controls of phenology of high-latitude Chinook salmon populations of the Yukon River, North America, with application to fishery management, ICES Journal of Marine Science, Volume 68, Issue 6, July 2011, Pages 1155–1164, https://doi.org/10.1093/icesjms/fsr080