Exceptional Stratospheric Contribution to Human Fingerprints on Atmospheric Temperature

Overview

Journal Proc Natl Acad Sci U S A

Specialty Science

Date 2023 May 8

PMID 37155871

Authors

Benjamin D Santer

Stephen Po-Chedley

Lilong Zhao

Cheng-Zhi Zou

Qiang Fu

Susan Solomon

David W J Thompson

Carl Mears

Karl E Taylor

Affiliations

Soon will be listed here.

Abstract

In 1967, scientists used a simple climate model to predict that human-caused increases in atmospheric CO should warm Earth's troposphere and cool the stratosphere. This important signature of anthropogenic climate change has been documented in weather balloon and satellite temperature measurements extending from near-surface to the lower stratosphere. Stratospheric cooling has also been confirmed in the mid to upper stratosphere, a layer extending from roughly 25 to 50 km above the Earth's surface (S). To date, however, S temperatures have not been used in pattern-based attribution studies of anthropogenic climate change. Here, we perform such a "fingerprint" study with satellite-derived patterns of temperature change that extend from the lower troposphere to the upper stratosphere. Including S information increases signal-to-noise ratios by a factor of five, markedly enhancing fingerprint detectability. Key features of this global-scale human fingerprint include stratospheric cooling and tropospheric warming at all latitudes, with stratospheric cooling amplifying with height. In contrast, the dominant modes of internal variability in S have smaller-scale temperature changes and lack uniform sign. These pronounced spatial differences between S signal and noise patterns are accompanied by large cooling of S (1 to 2[Formula: see text]C over 1986 to 2022) and low S noise levels. Our results explain why extending "vertical fingerprinting" to the mid to upper stratosphere yields incontrovertible evidence of human effects on the thermal structure of Earth's atmosphere.

Citing Articles

Confronting Earth System Model trends with observations.

Simpson I, Shaw T, Ceppi P, Clement A, Fischer E, Grise K Sci Adv. 2025; 11(11):eadt8035.

PMID: 40073142 PMC: 11900882. DOI: 10.1126/sciadv.adt8035.

Fingerprinting the recovery of Antarctic ozone.

Wang P, Solomon S, Santer B, Kinnison D, Fu Q, Stone K Nature. 2025; .

PMID: 40044857 DOI: 10.1038/s41586-025-08640-9.

Projected rapid response of stratospheric temperature to stringent climate mitigation.

Romanzini-Bezerra G, Maycock A Nat Commun. 2024; 15(1):6590.

PMID: 39097592 PMC: 11297936. DOI: 10.1038/s41467-024-50648-8.

Anthropogenic Fingerprint Detectable in Upper Tropospheric Ozone Trends Retrieved from Satellite.

Yu X, Fiore A, Santer B, Correa G, Lamarque J, Ziemke J Environ Sci Technol. 2024; 58(32):14306-14317.

PMID: 39092829 PMC: 11325641. DOI: 10.1021/acs.est.4c01289.

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