Climate Science 4 - The Ice Core CO2 Record is 'Probably Wrong' Too

This the fourth in my Climate Science series debunking the so-called 'greenhouse effect'.

Climate Science 4; The Ice Core Record of CO2 is "Probably Wrong" Too.

Climate Science 1 revealed that our atmosphere is not like a greenhouse; instead it's the exact opposite - it's capable of expansion and convection.

Climate Science 2 explored the science and the climate cycles which the IPCC forgot to mention, and how they are totally controlling all current climate change.
We find that there actually is no 'extra' warming that we need to invoke a supposed 'greenhouse effect' from CO2 or other 'greenhouse gases' to fill.

Climate Science 3 looked into the claim that Venus is hot because of the 'greenhouse effect' of carbon dioxide.

Climate Science 4 looks into the ice core record for CO2, and critically examines whether it is correct or not.

REFERENCES;

UAH MSU satellite temperature graph, 1979-2019
EPICA DOME C ice core record, NOAA Luthi, 2008.
Earth System Laboratory, Moana Loa CO2 record, 1958-2019n
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Shaviv, N. J., & Veizer, J. (2003). Celestial driver of Phanerozoic climate? GSA today, 13(7), 4-10.
IPCC AR5 Synthesis Report 2014
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Steinthorsdottir, M., Wohlfarth, B., Kylander, M. E., Blaauw, M., & Reimer, P. J. (2013). Stomatal proxy record of CO 2 concentrations from the last termination suggests an important role for CO 2 at climate change transitions. Quaternary science reviews, 68, 43-58.
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Liu, Y., Cai, Q., Song, H., An, Z., & Linderholm, H. W. (2011). Amplitudes, rates, periodicities and causes of temperature variations in the past 2485 years and future trends over the central-eastern Tibetan Plateau. Chinese science bulletin, 56(28), 2986-2994.
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Lepori, L., Bussolino, G., Matteoli, E., & Spanedda, A. On the increase of fossil CO2 in the atmosphere.
Segalstad, T. V. (1998). Carbon cycle modelling and the residence time of natural and anthropogenic atmospheric CO2. BATE, R.(Ed., 1998): Global Warming, 184-219.
Quirk, T. (2009). Sources and sinks of carbon dioxide. Energy & Environment, 20(1), 105-121.
Harde, H. (2014). Advanced Two-Layer Climate Model for the Assessment of Global Warming by CO2.
Harde, H. (2017). Scrutinizing the carbon cycle and CO 2 residence time in the atmosphere. Global and Planetary Change, 152, 19-26.
Lepori, L., Bussolino, G., Matteoli, E., & Spanedda, A. On the increase of fossil CO2 in the atmosphere.
Allen, M. R., Barros, V. R., Broome, J., Cramer, W., Christ, R., Church, J. A., . . . Dubash, N. K. (2014). IPCC Fifth Assessment Synthesis Report-Climate Change 2014 Synthesis Report.
Essenhigh, R. H. (2009). Potential dependence of global warming on the residence time (RT) in the atmosphere of anthropogenically sourced carbon dioxide. Energy & Fuels, 23(5), 2773-2784.
Lüdecke, H.-J., Weiss, C., & Hempelmann, A. (2015). Paleoclimate forcing by the solar De Vries/Suess cycle. Climate of the Past Discussions, 11(1), 279-305.
Last Graph; Neff, U., Burns, S., Mangini, A., Mudelsee, M., Fleitmann, D., & Matter, A. (2001). Strong coherence between solar variability and the monsoon in Oman between 9 and 6 ky ago. Nature, 411(6835), 290-293.

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Thank You!
Dr Robert Ian Holmes