Jan-Erik Solheim
12.5.2025
Publikasjoner om CO2 variabilitet – de fleste i Science of Climate Change (SCC)
Publications about CO2 variability on website: Science of Climate Change (SCC)
www.scienceofclimatechange.org
• Ole Humlum, Kjell Stordahl og Jan-Erik Solheim, 2013, The phase relation between atmos-pheric carbon dioxide and global temperature, Global and Planetary Change, Vol.100, s.51-69, http://dx.doi.org/10.1016/j.gloplacha.2012.08.008
• M. L. Salby, 2015: Control of Atmospheric CO2, 17 March, Westminster, https://youtu.be/rCya4LilBZ8?t=1610
• M. L. Salby, 2016: Atmospheric Carbon: Why It is Not Pollution and Why Humans Cannot Regulate It, Video presentation, 18 July, University College London, https://youtu.be/3q-M_uYkpT0?t=1330.
• H. Harde, 2017: Scrutinizing the carbon cycle and CO2 residence time in the atmosphere, Global and Planetary Change 152, pp. 19-26, http://dx.doi.org/10.1016/j.gloplacha.2017.02.009
• Tom V. Segalstad 2017, CO2 – Venn eller fiende, i Naturen styrer klima, Jan-Erik Solheim (red), Klimarealistene, s.54-57
• M. L. Salby 2018: What is Really Behind the Increase of Atmospheric CO2? Video presentation, Helmut-Schmidt-University, Hamburg, https://youtu.be/rohF6K2avtY
• H. Harde 2019: What Humans Contribute to Atmospheric CO2: Comparison of Carbon Cycle Models with Observations, Earth Sciences, V. 8, no. 3, pp. 139-58, https://doi:10.11648/j.earth.20190803.13
• Seim, T.O. and Olsen, B.T. 2020 The Influence of IR Absorption and Backscatter Radiation from CO2 on Air Temperature during Heating in a Simulated Earth/Atmosphere Experiment. Atmospheric and Climate Sciences, 10, 168-185. https://doi.org/10.4236/acs.2020.102009
• Hermann Harde og Murry Salby 2021, What Controls the Atmospheric CO2 level? SCC Vol. 1.1, s.54-73, https://doi.org/10.53234/scc202106/22
• Murry Salby og Hermann Harde 2021, Control of Atmospheric CO2 Part I, Relation of Carbon 14 to the removal of CO2, SCC Vol.1.2, 1, s.77-195, https://doi.org/10.53234/SCC202112/30
• Murry Salby og Hermann Harde 2021, Control of Atmospheric CO2 Part II, Influence of Tropical Warming, SCC Vol.1.2, s.196-212, https://doi.org/10.53234/scc202112/13
• Edwin X Berry 2021 The impact of human CO2 on atmospheric CO2, SCC V1.2, s214-251 https://doi.org/10.53234/scc202112/13
• Hermann Harde og Michael Schnell 2022, Verification of the Greenhouse Effect in the Laboratory, SCC Vol.2.1, s. 1-33, https://doi.org/10.53234/SCC202203/10
• Hermann Harde 2022, How Much CO2 and the Sun Contribute to Global Warming, SCC Vol.2.2, s.105-133, https://doi.org/10.53234/SCC202206/10
• Ernst-Georg Beck 2022, Reconstruction of CO2s Background Level since1826 from Direct Measurements near Ground, SCC Vol.2.2, s. 148-211, https://doi.org/10.53234/scc202112/16
• Murry Salby og Hermann Harde 2022, Theory of Increasing Greenhous Gases, SCC Vol.2.3, s.212-238, https://doi.org/10.53234/scc202112/16
• Murry Salby og Hermann Harde 2022, What Causes Increasing Greenhouse Gases? Summary of a Trilology, SCC 2.3, s.297-301, https://doi.org/10.53234/scc202112/16
• Hans Schrøder: Less than Half of the Increase of Atmospheric CO2 is Due to Fossil Fuels, SCC Vol.2.3, s.239-257, https://doi.org/10.53234/scc202112/17
• Harald Yndestad: Lunar forced Mauna Loa and Atlantic CO2 variability, SCC 2.3 s.2258–274, https://doi.org/10.53234/scc202112/13
• Hermann Harde 2023, Understanding Increasing Atmospheric CO2, SCC Vol.3.1, 46-67
• Seim, T.O. and Olsen, B.T. 2023, The Influence of Heat Source IR Radiation on Black-Body Heating/Cooling with Increased CO2 Concentration. Atmospheric and Climate Sciences, 13, 240-254. https://doi.org/10.4236/acs.2023.132014
• David E. Andrews 2023; Clear Thinking about Atmospheric CO2, SCC Vol.3.1, 33-45
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• Edwin X Berry 2023: Nature Controls the CO2 increase, SCC Vol.3.1, 46-67
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• Jonas Rosen og Sten Kaijser 2023: Analytical Carbon Cycle Impulse Response Function, SCC Vol.3.1, 97-106
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• Hermann Harde: 2023: About Historical CO2 –Data Since 1826. The peak 1940-50 explained, SCC Vol.3.2, s.211-218
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• Ferenc Miskolczi 2023: Greenhouse Gas Theories and Observed Infrared Properties of the Earth’s Atmosphere, SCC Vol.3.3, s.232289
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• Antero Ollila 2023: Natural Climate Drivers Dominate in the Current Warming, SCC 3.3, s.290-327
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• Raimund Müller 2023: Estimation of e-Time for CO2 and Revelle Facactor, SCC 3.3, s.328-346
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• Michael Schnell and Hermann Harde 2023: Model Experiment of the Greenhouse Effect, SCC Vol.3.5, s.445-462
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• Antero Ollila 2023: Testing Carbon Cycle Models and Budgets, SCC Vol 3.5, s.461-486
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• Elke Roth. 2023: Climate: Man or Nature? SCC Vol.3.5 s.521-542
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• Forrest Frantz 2023: Greening of Scandinavia, SCC 3.5 s.543-600 (med 570 referanser)
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• Antero Ollila 2024: The 2023 Record Temperatures, SCC Vol 4.1,
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• Roy Clark 2024: A Nobel Prize fo Climate Model Errors, SCC Vol 4.1,
• B.B. Jackson, P. Friedlingstein, C. Le Quére m.fl 2022, Global fossil Carbon emissions rebound near pre-COVID-19 levels, Environ. Res.Lett, 17, 031001
• Dai Alto: Multivariate Analysis Recects the Theory of Humancaused Atmospheric Carbon Dioxide Increase: The Sea Surfac Temperature Rules, SCC Vol 4.2, 1-15
• Demetris Koutsoyannis, Relative Importance of Carbon Dioxide and Water in the Greenhouse Effect: Does the Tail Wag the Dog?, SCC Vol 4.2, 36-78.
• Pavel Kalendra: What was the First+ Temperature or CO2, SCC Vol 4.3, 32-38
Se spesielt på figur 6 korrelasjon mellom dCO2/dt og DT/dt = zero (fra Salby 2012)
• Demetris Koutsoyiannis: The Relationship between Atmospheric Temperature and Carbon Dioxide Concentration, SCC Vol 4.3, 3949
• James Croll: Does the Geological evidence indicate a Causal Link between Co2 and Climate Change?, SCC Vol 4.3, 50-63
• Dai Ato: Pitfalls in Global Warming and Climate Change Research: Flaws in Ice Core Reconstructions of Atmospheric CO2The Naked King of 280 ppm at the Industrial Revolution, SCC V5.1,Recent paper
• Patrice Poyet, 2022, The Rational Climate e-book, Cooler is Riskier, Extended 2nd Edition.
• Cammille Veyres og Jean-Claude Maurin 2022, Revisiting the Carbon Cycle, mauskript under publisering