Hourly temperature data do not support the views of the Climate Deniers: Evidence from Barrow Alaska

Survey evidence has indicated that a significant percentage of the population does not fully embrace the scientific consensus regarding climate change. This paper assesses whether the hourly temperature data support this denial. Specifically, this paper examines the relationship between hourly CO 2...

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Bibliographic Details
Main Author: Forbes, Kevin
Format: Article in Journal/Newspaper
Language:English
Published: Zenodo 2022
Subjects:
CO2 Concentrations, Hourly Temperature, Downward total solar irradiance, Autoregressive conditional heteroskedasticity,ARMAX, autoregressive–moving-average with exogenous inputs
Arctic Region
Arctic
Barrow
Climate change
Alaska
Online Access:https://dx.doi.org/10.5281/zenodo.5833580
https://zenodo.org/record/5833580
Description
Summary:Survey evidence has indicated that a significant percentage of the population does not fully embrace the scientific consensus regarding climate change. This paper assesses whether the hourly temperature data support this denial. Specifically, this paper examines the relationship between hourly CO 2 atmospheric concentration levels and temperature using hourly data from the NOAA-operated Barrow observatory in northern Alaska. At this observatory, the average annual temperature over the 2015-2020 period has been about 3.37 o C higher than in the 1985-1990 period. A time-series model to explain hourly temperature is formulated using the following explanatory variables: the hourly level of total downward solar irradiance, the hourly CO 2 value lagged by one hour, proxies for the diurnal variation in temperature, proxies for the seasonal temperature variation, and proxies for possible non-anthropomorphic drivers of temperature. A time-series modeling specification is employed to capture the data’s heteroskedastic and autoregressive nature. The model is estimated using hourly data from 1 Jan 1985 through 31 Dec 2015. The results are consistent with the hypothesis that increases in CO 2 concentration levels have nontrivial consequences for hourly temperature. The estimated annual contributions of factors exclusive of CO 2 and downward total solar irradiance are very small. The model was evaluated using out-of-sample hourly data from 1 Jan 2016 through 31 Aug 2017. The model’s out-of-sample hourly temperature predictions are highly accurate, but this accuracy is significantly degraded if the estimated CO 2 effects are ignored. In short, the results are consistent with the scientific consensus on climate change.

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