Abstract
Axel Kleidon (Clim Change 66:271–319, 2004) proposed that the organisms that constitute Earth’s biota have free parameters that can be selected to create states of maximum entropy production (MEP) on various scales, from the biota to the planetary radiation balance of the Earth system. I show that Kleidon’s concept, here called the biotic-MEP hypothesis, is fundamentally mistaken. A thought experiment with a life form that would be selected against even though it would generate a higher degree of entropy demonstrates my case: A hypothetical tree that puts forth a non-productive but high-entropy producing black carpet of tissue clearly separates out entropy production from other biological processes and shows that entropy production is not a functional adaptation and therefore it cannot be selected for. A real world example comes from dimethyl sulfide-emitting plankton, which, by increasing cloud albedo, do not raise but rather lower the entropy flux of the Earth system. I provide a number of other examples of biotic processes that individually either decrease or increase the environmental entropy production. It is argued that biological effects on environmental entropy production can be expected to include both positive and negative examples, because these effects are merely by-products of the actual processes that are selected for by evolution. Given my framework of entropy production as a by-product of the true processes that are being selected for, the concept of MEP on environmental scales has no great relevance for discussions of biological evolution or the time history of the effects of life on the global system.
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References
Berner RA (1994) Geocarb II: A revised model of atmospheric CO2 over Phanerozoic time. Am J Sci 294:56–91
Caldeira K (1989) Evolutionary pressures on planktonic production of atmospheric sulfur. Nature 337:732–734
Charlson RJ, Lovelock JE, Andreae MO, Warren SG (1987) Oceanic phytoplankton, atmospheric sulfur, cloud albedo, and climate. Nature 274:246–248
Kirschner JW (2002) The Gaia hypothesis, fact, theory, and wishful thinking. Clim Change 52:391–408
Kleidon, A (2004) Beyond Gaia: thermodynamics of life and Earth system functioning. Clim Change 66:271–319
Robinson JM (1990) Lignin, land plants, and fungi: biological evolution affecting Phanerozoic oxygen balance. Geology 15:607–610
Schwartzman DW, Volk T (1989) Biotic enhancement of weathering and the habitability of Earth. Nature 340:457–460
Schwartzman DW, Volk T (1991) Biotic enhancement of weathering and surface temperatures on Earth since the origin of life. Palaeogeogr Palaeoclimatol Palaeoecol 90:357–371
Volk T (1989) Sensitivity of climate and atmospheric CO2 to deep-ocean and shallow-ocean carbonate burial. Nature 337:637–640
Volk T (1998) Gaia’s body: toward a physiology of Earth. Springer, Berlin Heidelberg New York
Volk T (2002) Towards a future for Gaia theory. Clim Change 52:423–430
Volk T (2003) Natural selection, Gaia, and inadvertent by-products; a reply to Lenton and Wilkinson’s response. Clim Change 58:13–19
Watson AJ, Liss PS (1998) Marine biological controls on climate via the carbon and sulphur geochemical cycles. Philos Trans R Soc Lond B 353:41–51
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Volk, T. The properties of organisms are not tunable parameters selected because they create maximum entropy production on the biosphere scale: A by-product framework in response to Kleidon. Climatic Change 85, 251–258 (2007). https://doi.org/10.1007/s10584-007-9319-3
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DOI: https://doi.org/10.1007/s10584-007-9319-3