The Detection and Attribution of Northern Hemisphere Land Surface Warming (1850–2018) in Terms of Human and Natural Factors: Challenges of Inadequate Data
Permanent lenke
https://hdl.handle.net/10037/31801Dato
2023-08-28Type
Journal articleTidsskriftartikkel
Peer reviewed
Forfatter
Soon, Willie; Connolly, Ronan; Connolly, Michael; Akasofu, Syun-Ichi; Baliunas, Sallie; Berglund, Johan; Bianchini, Antonio; Briggs, William M.; Butler, C.J.; Cionco, Rodolfo Gustavo; Crok, Marcel; Elias, Ana G.; Fedorov, Valery M.; Gervais, François; Harde, Hermann; Henry, Gregory W.; Hoyt, Douglas V.; Humlum, Ole; Legates, David R.; Lupo, Anthony R.; Maruyama, Shigenori; Moore, Patrick; Ogurtsov, Maxim; ÓhAiseadha, Coilín; Oliveira, Marcos J.; Park, Seok-Soon; Qiu, Shican; Quinn, Gerré; Scafetta, Nicola; Solheim, Jan Erik; Steele, Jim; Szarka, László; Tanaka, Hiroshi L.; Taylor, Mitchell K.; Vahrenholt, Fritz; Velasco Herrera, Víctor M.; Zhang, WeijiaSammendrag
A statistical analysis was applied to Northern Hemisphere land surface temperatures
(1850–2018) to try to identify the main drivers of the observed warming since the mid-19th century.
Two different temperature estimates were considered—a rural and urban blend (that matches almost
exactly with most current estimates) and a rural-only estimate. The rural and urban blend indicates a
long-term warming of 0.89 ◦C/century since 1850, while the rural-only indicates 0.55 ◦C/century.
This contradicts a common assumption that current thermometer-based global temperature indices
are relatively unaffected by urban warming biases. Three main climatic drivers were considered,
following the approaches adopted by the Intergovernmental Panel on Climate Change (IPCC)’s
recent 6th Assessment Report (AR6): two natural forcings (solar and volcanic) and the composite
“all anthropogenic forcings combined” time series recommended by IPCC AR6. The volcanic time
series was that recommended by IPCC AR6. Two alternative solar forcing datasets were contrasted.
One was the Total Solar Irradiance (TSI) time series that was recommended by IPCC AR6. The other
TSI time series was apparently overlooked by IPCC AR6. It was found that altering the temperature
estimate and/or the choice of solar forcing dataset resulted in very different conclusions as to the
primary drivers of the observed warming. Our analysis focused on the Northern Hemispheric land
component of global surface temperatures since this is the most data-rich component. It reveals that
important challenges remain for the broader detection and attribution problem of global warming:
(1) urbanization bias remains a substantial problem for the global land temperature data; (2) it is still
unclear which (if any) of the many TSI time series in the literature are accurate estimates of past TSI;
(3) the scientific community is not yet in a position to confidently establish whether the warming
since 1850 is mostly human-caused, mostly natural, or some combination. Suggestions for how these
scientific challenges might be resolved are offered.
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MDPISitering
Soon, Connolly, Connolly, Akasofu, Baliunas, Berglund, Bianchini, Briggs, Butler, Cionco, Crok, Elias, Fedorov, Gervais, Harde, Henry, Hoyt, Humlum, Legates, Lupo, Maruyama, Moore, Ogurtsov, ÓhAiseadha, Oliveira, Park, Qiu, Quinn, Scafetta, Solheim, Steele, Szarka, Tanaka, Taylor, Vahrenholt, Velasco Herrera, Zhang. The Detection and Attribution of Northern Hemisphere Land Surface Warming (1850–2018) in Terms of Human and Natural Factors: Challenges of Inadequate Data. Climate. 2023;11(9)Metadata
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