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. 2022 Aug 16;130(8):087006. doi: 10.1289/EHP10287

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Figure 3 is a set of four line graphs titled Mosquito, Environmental, Combined, and Ensemble, plotting Area under the receiver operating characteristic curve, ranging 0.81 to 0.85 in increments of 0.01 (y-axis) across Week of year, ranging from 25 to 40 in increments of 5 (x-axis) for Base, Mosquito; Base, environmental with anomalies and seasonally varying distributed lags, environmental with anomalies, environmental with seasonally varying distributed lags, environmental; Base, combined with anomalies and seasonally varying distributed lags, combined with anomalies, combined with seasonally varying distributed lags, combined; and Base, two-model ensemble, three-model ensemble, and four-model ensemble, respectively. — Accuracy of South Dakota West Nile virus predictions from 2016 to 2019 measured as the area under the receiver operating characteristic curve (AUC). Predictions were generated using the Arbovirus Monitoring and Prediction (ArboMAP) software with 13 different model formulations. Each line represents the variation in AUC by forecast week for one model. The logistic regression models incorporated various combinations of mosquito infection variables and lagged meteorological variables (temperature and vapor pressure deficit) with different variable transformations and model structures. Individual models are defined in Table 1 and mathematical forms are provided in Table 2. Note: Base, baseline; Comb, combined; CombAnom, combined with anomalies; CombSv, combined with seasonally varying distributed lags; CombSvAnom, combined with anomalies and seasonally varying distributed lags; Ens2, two model ensemble; Ens3, three model ensemble; Ens4, four model ensemble; Env, environmental; EnvAnom, environmental with anomalies; EnvSv, environmental with seasonally varying distributed lags; EnvSvAnom, environmental with anomalies and seasonally varying distributed lags; Mosq, mosquito.