Carbon dioxide starvation, the development of C4 ecosystems, and mammalian evolution

Carbon dioxide starvation, the development of C4 ecosystems, and mammalian evolution

The decline of atmospheric carbon dioxide over the last 65 million years (Ma) resulted in the 'carbon dioxide-starvation' of terrestrial ecosystems and led to the widespread distribution of C4 plants, which are less sensitive to carbon dioxide levels than are C3 plants. Global expansion of...

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Bibliographic Details
Published in:Philosophical transactions of the Royal Society of London. Series B. Biological sciences Vol. 353; no. 1365; pp. 159 - 171
Main Authors: Cerling, T. E., Ehleringer, J. R., Harris, J. M.
Format: Journal Article
Language:English
Published: England The Royal Society 29-01-1998
Subjects:
Africa
Animals
Asia
Atmospherics
Biological Evolution
Biomass
C3 plants
C4 plants
Carbon Dioxide
Carbon Isotopes
Climate
CO2
Diet
Ecosystem
Evolution
Fauna
Grassland
Mammals
Neogene
North America
Plants
South America
Starvation
Time
South America
Asia
North America
Africa
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Summary:The decline of atmospheric carbon dioxide over the last 65 million years (Ma) resulted in the 'carbon dioxide-starvation' of terrestrial ecosystems and led to the widespread distribution of C4 plants, which are less sensitive to carbon dioxide levels than are C3 plants. Global expansion of C4 biomass is recorded in the diets of mammals from Asia, Africa, North America, and South America during the interval from about 8 to 5 Ma. This was accompanied by the most significant Cenozoic faunal turnover on each of these continents, indicating that ecological changes at this time were an important factor in mammalian extinction. Further expansion of tropical C4 biomass in Africa also occurred during the last glacial interval confirming the link between atmospheric carbon dioxide levels and C4 biomass response. Changes in fauna and flora at the end of the Miocene, and between the last glacial and interglacial, have previously been attributed to changes in aridity; however, an alternative explanation for a global expansion of C4 biomass is carbon dioxide starvation of C3 plants when atmospheric carbon dioxide levels dropped below a threshold significant to C3 plants. Aridity may also have been a factor in the expansion of C4 ecosystems but one that was secondary to, and perhaps because of, gradually decreasing carbon dioxide concentrations in the atmosphere. Mammalian evolution in the late Neogene, then, may be related to the carbon dioxide starvation of C3 ecosystems.
Bibliography:ark:/67375/V84-1W39127P-X
istex:7BD7CFE6BF4C8E40FE863E93E2ECBEFA8998F45A
Discussion Meeting Issue 'Vegetation-climate-atmosphere interactions: past, present and future' organized by D. J. Beerling, W. G. Chaloner and F. I. Woodward
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ISSN:0962-8436
1471-2970
DOI:10.1098/rstb.1998.0198