Scenario of global climate change in the Stratosphere-Mesosphere-Thermosphere-Ionosphere system

Jan Lastovicka; Liying Qian; Juan Añel; Matthew K. Brown; Ingrid Cnossen; Ana Elias; Christoph Jacobi; Tao Li; Franz-Josef Lübken; Martin Mlynczak; Petr Šácha; Viktoria Sofieva; Shun-Rong Zhang

doi:10.1371/journal.pclm.0000836

Scenario of global climate change in the Stratosphere-Mesosphere-Thermosphere-Ionosphere system

Jan Lastovicka
, Liying Qian
, Juan Añel^*
, Matthew K. Brown
, Ingrid Cnossen
, Ana Elias
, Christoph Jacobi
, Tao Li
, Franz-Josef Lübken
, Martin Mlynczak
, Petr Šácha
, Viktoria Sofieva
, Shun-Rong Zhang

^*Corresponding author for this work

Electronic, Electrical and Systems Engineering

Research output: Contribution to journal › Article › peer-review

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Abstract

The increasing concentration of greenhouse gases in the atmosphere causes net heating in the troposphere and net cooling at higher atmospheric levels, which results in long-term changes of many other quantities in the upper atmosphere and ionosphere. Here, we briefly present a scenario of global climatic changes in the Stratosphere-Mesosphere-Thermosphere-Ionosphere system. Changes in all quantities in this system together create a qualitatively consistent scenario. The main driver of these changes is carbon dioxide, but some role is played also by the stratospheric ozone/ozone depleting substances and by the secular change of the Earth magnetic field. Observation-based trends and trends derived from model simulations agree with each other qualitatively and often also quantitatively.

Original language	English
Article number	e0000836
Number of pages	5
Journal	PLOS Climate
Volume	5
Issue number	2
DOIs	https://doi.org/10.1371/journal.pclm.0000836
Publication status	Published - 19 Feb 2026

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title = "Scenario of global climate change in the Stratosphere-Mesosphere-Thermosphere-Ionosphere system",

abstract = "The increasing concentration of greenhouse gases in the atmosphere causes net heating in the troposphere and net cooling at higher atmospheric levels, which results in long-term changes of many other quantities in the upper atmosphere and ionosphere. Here, we briefly present a scenario of global climatic changes in the Stratosphere-Mesosphere-Thermosphere-Ionosphere system. Changes in all quantities in this system together create a qualitatively consistent scenario. The main driver of these changes is carbon dioxide, but some role is played also by the stratospheric ozone/ozone depleting substances and by the secular change of the Earth magnetic field. Observation-based trends and trends derived from model simulations agree with each other qualitatively and often also quantitatively.",

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T1 - Scenario of global climate change in the Stratosphere-Mesosphere-Thermosphere-Ionosphere system

AU - Lastovicka, Jan

AU - Qian, Liying

AU - Añel, Juan

AU - Brown, Matthew K.

AU - Cnossen, Ingrid

AU - Elias, Ana

AU - Jacobi, Christoph

AU - Li, Tao

AU - Lübken, Franz-Josef

AU - Mlynczak, Martin

AU - Šácha, Petr

AU - Sofieva, Viktoria

AU - Zhang, Shun-Rong

PY - 2026/2/19

Y1 - 2026/2/19

N2 - The increasing concentration of greenhouse gases in the atmosphere causes net heating in the troposphere and net cooling at higher atmospheric levels, which results in long-term changes of many other quantities in the upper atmosphere and ionosphere. Here, we briefly present a scenario of global climatic changes in the Stratosphere-Mesosphere-Thermosphere-Ionosphere system. Changes in all quantities in this system together create a qualitatively consistent scenario. The main driver of these changes is carbon dioxide, but some role is played also by the stratospheric ozone/ozone depleting substances and by the secular change of the Earth magnetic field. Observation-based trends and trends derived from model simulations agree with each other qualitatively and often also quantitatively.

AB - The increasing concentration of greenhouse gases in the atmosphere causes net heating in the troposphere and net cooling at higher atmospheric levels, which results in long-term changes of many other quantities in the upper atmosphere and ionosphere. Here, we briefly present a scenario of global climatic changes in the Stratosphere-Mesosphere-Thermosphere-Ionosphere system. Changes in all quantities in this system together create a qualitatively consistent scenario. The main driver of these changes is carbon dioxide, but some role is played also by the stratospheric ozone/ozone depleting substances and by the secular change of the Earth magnetic field. Observation-based trends and trends derived from model simulations agree with each other qualitatively and often also quantitatively.

U2 - 10.1371/journal.pclm.0000836

DO - 10.1371/journal.pclm.0000836

M3 - Article

SN - 2767-3200

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JO - PLOS Climate

JF - PLOS Climate

IS - 2

M1 - e0000836

ER -

Scenario of global climate change in the Stratosphere-Mesosphere-Thermosphere-Ionosphere system

Abstract

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