Stuart J. Brentnall scite author profile

[1] Biological and geochemical CO 2 proxies provide critical constraints on understanding the role of atmospheric CO 2 in driving climate change during Earth history. et al., 1994) is extended and calibrated using our experimental results. The potential for fossil liverworts to record past CO 2 changes is investigated by analyzing the d 13 C of specimens collected from Alexander Island, Antarctica dating to the ''greenhouse'' world of the mid-Cretaceous. Our analysis and isotopic model yield mid-Cretaceous CO 2 concentrations of 1000-1400 ppm, in general agreement with independent proxy data and long-term carbon cycle models. The exceptionally long evolutionary history of bryophytes offers the possibility of reconstructing CO 2 concentrations back to the midOrdovician, pre-dating all currently used quantitative CO 2 proxies.

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Stuart J. Brentnall

Atmospheric carbon dioxide linked with Mesozoic and early Cenozoic climate change

Numerical evaluation of mechanisms driving Early Jurassic changes in global carbon cycling

Plankton patchiness and its effect on larger-scale productivity

BRYOCARB: A process-based model of thallose liverwort carbon isotope fractionation in response to CO2, O2, light and temperature

Fossil bryophytes as recorders of ancient CO₂ levels: Experimental evidence and a Cretaceous case study

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Stuart J. Brentnall

Atmospheric carbon dioxide linked with Mesozoic and early Cenozoic climate change

Numerical evaluation of mechanisms driving Early Jurassic changes in global carbon cycling

Plankton patchiness and its effect on larger-scale productivity

BRYOCARB: A process-based model of thallose liverwort carbon isotope fractionation in response to CO2, O2, light and temperature

Fossil bryophytes as recorders of ancient CO2 levels: Experimental evidence and a Cretaceous case study

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Fossil bryophytes as recorders of ancient CO₂ levels: Experimental evidence and a Cretaceous case study