4.6 Article

A Bayesian Model for Inferring Total Solar Irradiance From Proxies and Direct Observations: Application to the ACRIM Gap

Journal

JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES
Volume 128, Issue 15, Pages -

Publisher

AMER GEOPHYSICAL UNION
DOI: 10.1029/2023JD038941

Keywords

total solar irradiance; solar forcing; Bayesian modeling; Bayesian inference; Kalman filter

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Differences in total solar irradiance (TSI) estimates were found during the ACRIM Gap of 1989-1991, when satellite-based observations were inconsistent in trend without on-board calibration. By using the Bayesian hierarchical model for TSI (BTSI), TSI during the ACRIM Gap was inferred from both satellite-based observations and proxies of solar activity. The results showed a minimal change of 0.01 W/m(2) in TSI across the Gap, consistent with other reconstructions.
Differences among total solar irradiance (TSI) estimates are most pronounced during the so-called ACRIM Gap of 1989-1991, when available satellite-based observations disagree in trend and no observations exist from satellites with on-board calibration. Different approaches to bias-correcting noisy satellite-based observations lead to discrepancies of up to 0.7 W/m(2) in the change in TSI during the Gap. Using a Bayesian hierarchical model for TSI (BTSI), we jointly infer TSI during the ACRIM Gap from satellite-based observations and proxies of solar activity. In addition, BTSI yields estimates of noise and drift in satellite-based observations and calibration for proxy records. We find that TSI across the ACRIM Gap changes by only 0.01 W/m(2), with a 95% confidence interval of [-0.07, 0.09] W/m(2). Our results are consistent with the PMOD CPMDF and Community Consensus TSI reconstructions and inconsistent with the 0.7 W/m(2) trend reported in the ACRIM composite reconstruction. Constraints on the trend across the ACRIM Gap are primarily obtained through constraints on the drift in the Nimbus-7 satellite that are afforded by overlapping satellite and proxy observations.

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