Mass Extinctions vs. Uniformitarianism in Biological Evolution

AbstractOne of the mainstays of the controversial ‘rare Earth’ hypothesis is the ‘Goldilocks problem’ regarding various parameters describing a habitable planet, partially involving the role of mass extinctions and other catastrophic processes in biological evolution. Usually, this is construed as support for the uniqueness of the Earth's biosphere and intelligent human life. Here it is argued that this is a misconstrual and that, on the contrary, observation-selection effects when applied to catastrophic processes make it very difficult for us to discern whether the terrestrial biosphere and evolutionary processes which created it are exceptional in the Milky Way or not. This agnosticism, in turn, supports the validity and significance of practical astrobiological and SETI research.

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United theory of biological evolution: Disaster-forced evolution through Supernova, radioactive ash fall-outs, genome instability, and mass extinctions

Geoscience Frontiers ◽

10.1016/j.gsf.2014.04.009 ◽

2015 ◽

Vol 6 (1) ◽

pp. 103-119 ◽

Cited By ~ 4

Author(s):

Toshikazu Ebisuzaki ◽

Shigenori Maruyama

Keyword(s):

Genome Instability ◽

Biological Evolution ◽

Mass Extinctions ◽

Ash Fall

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Thallium isotopes reveal protracted anoxia during the Toarcian (Early Jurassic) associated with volcanism, carbon burial, and mass extinction

Proceedings of the National Academy of Sciences ◽

10.1073/pnas.1803478115 ◽

2018 ◽

Vol 115 (26) ◽

pp. 6596-6601 ◽

Cited By ~ 42

Author(s):

Theodore R. Them ◽

Benjamin C. Gill ◽

Andrew H. Caruthers ◽

Angela M. Gerhardt ◽

Darren R. Gröcke ◽

...

Keyword(s):

Mass Extinction ◽

Biological Evolution ◽

Oxygen Depletion ◽

Early Jurassic ◽

Large Igneous Province ◽

Mass Extinctions ◽

Oceanic Anoxic Event ◽

Carbon Burial ◽

Anoxic Basins ◽

Bottom Waters

For this study, we generated thallium (Tl) isotope records from two anoxic basins to track the earliest changes in global bottom water oxygen contents over the Toarcian Oceanic Anoxic Event (T-OAE; ∼183 Ma) of the Early Jurassic. The T-OAE, like other Mesozoic OAEs, has been interpreted as an expansion of marine oxygen depletion based on indirect methods such as organic-rich facies, carbon isotope excursions, and biological turnover. Our Tl isotope data, however, reveal explicit evidence for earlier global marine deoxygenation of ocean water, some 600 ka before the classically defined T-OAE. This antecedent deoxygenation occurs at the Pliensbachian/Toarcian boundary and is coeval with the onset of initial large igneous province (LIP) volcanism and the initiation of a marine mass extinction. Thallium isotopes are also perturbed during the T-OAE interval, as defined by carbon isotopes, reflecting a second deoxygenation event that coincides with the acme of elevated marine mass extinctions and the main phase of LIP volcanism. This suggests that the duration of widespread anoxic bottom waters was at least 1 million years in duration and spanned early to middle Toarcian time. Thus, the Tl data reveal a more nuanced record of marine oxygen depletion and its links to biological change during a period of climatic warming in Earth’s past and highlight the role of oxygen depletion on past biological evolution.

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Evolutionary patterns from mass originations and mass extinctions

Philosophical Transactions of the Royal Society B Biological Sciences ◽

10.1098/rstb.1999.0397 ◽

1999 ◽

Vol 354 (1382) ◽

pp. 463-469 ◽

Cited By ~ 19

Author(s):

D. Hewzulla ◽

M. C. Boulter ◽

M. J. Benton ◽

J. M. Halley

Keyword(s):

Biological Evolution ◽

Power Spectra ◽

Exponential Model ◽

Mass Extinctions ◽

Evolutionary Patterns ◽

Marine System ◽

Self Organized Criticality ◽

Plant Families ◽

External Causes ◽

The Times

The Fossil Record 2 database gives a stratigraphic range of most known animal and plant families. We have used it to plot the number of families extant through time and argue for an exponential fit, rather than a logistic one, on the basis of power spectra of the residuals from the exponential. The times of origins and extinctions, when plotted for all families of marine and terrestrial organisms over the last 600 Myr, reveal different origination and extinction peaks. This suggests that patterns of biological evolution are driven by its own internal dynamics as well as responding to upsets from external causes. Spectral analysis shows that the residuals from the exponential model of the marine system are more consistent with 1/ f noise suggesting that self–organized criticality phenomena may be involved.

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The Tempo and mode(S) of Prebiotic Evolution

International Astronomical Union Colloquium ◽

10.1017/s0252921100014937 ◽

1997 ◽

Vol 161 ◽

pp. 419-429 ◽

Cited By ~ 1

Author(s):

Antonio Lazcano

Keyword(s):

Origin Of Life ◽

Organic Compounds ◽

Biological Evolution ◽

Current Evidence ◽

Early Diversification ◽

Time Period ◽

The Galaxy ◽

History Of ◽

Widespread Phenomenon ◽

The Origin Of Life

AbstractDifferent current ideas on the origin of life are critically examined. Comparison of the now fashionable FeS/H2S pyrite-based autotrophic theory of the origin of life with the heterotrophic viewpoint suggest that the later is still the most fertile explanation for the emergence of life. However, the theory of chemical evolution and heterotrophic origins of life requires major updating, which should include the abandonment of the idea that the appearance of life was a slow process involving billions of years. Stability of organic compounds and the genetics of bacteria suggest that the origin and early diversification of life took place in a time period of the order of 10 million years. Current evidence suggest that the abiotic synthesis of organic compounds may be a widespread phenomenon in the Galaxy and may have a deterministic nature. However, the history of the biosphere does not exhibits any obvious trend towards greater complexity or «higher» forms of life. Therefore, the role of contingency in biological evolution should not be understimated in the discussions of the possibilities of life in the Universe.

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