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BI305-Life on
Earth and
Endosymbiotic
Theory
DR. ALLISON E. MCDONALD
Microfossils?

Apex Chert, North Pole, Australia
Testing the Biogenicity of
Microfossils
 mm-scale morphology
 Carbon isotopic composition of the fossils or
associated materials
 Chemical composition of the objects
 All 3 must be satisfied to suggest that
microfossils are of biological origin
 Very difficult to do
Carbon Isotope Signatures

 2 stable isotopes of
carbon: Carbon 12
and Carbon 13
 Abiotic ratio in
mineral compounds
is 89
 Biotic ratio due to a
preference of
enzymes for Carbon
12 is 92
Very Early Earth (4500-3800
Mya)

 No atmosphere
 Volcanic activity
 Bombardment by objects from space
 Outgassing of water vapour, carbon
monoxide, carbon dioxide, nitrogen,
hydrogen from the various layers of the
planet
 Very hot
Early Earth (~3800 Mya)

 Planet starts to cool
 Water condenses to form oceans
 Volcanic activity
 Atmosphere starts to form-comprised of
nitrogen, carbon dioxide, carbon monoxide,
water vapour, hydrogen, and methane
 High levels of ultraviolet radiation
 Torrential rain and lightning
Hypotheses for the Origin of
Life on Earth
 Exogenesis/Panspermia
 Abiogenesis
 RNA World
 Metabolism First Models
Exogenesis
 Life originated elsewhere in the universe and the Earth
was “seeded” with this life by meteoroids, asteroids, and
planetoids
Exogenesis

 Requirements
Life must be able to survive travel through
space
Life must be able to survive impacts into
Earth
Life must have existed elsewhere in the
universe prior to the “seeding” of Earth
Can Life Travel Through
Space?
 Horneck et al. 2001 put spores of the
bacterium Bacillus subtilus into space for 2
weeks
 Spores exposed to UV radiation did not
survive
 Spores protected from UV radiation by
powder of clay, rock, or meteorites
Can Life Survive Impact with
Earth?
 Tested by Burchell et al. in 2000
 Fired projectiles coated with bacteria at
3.8/4.9 km/s at rock, glass, metal, and
aerogel
 Took samples from impact craters and
materials ejected during the impact and
cultured them
 Bacteria were cultured from the ejecta from a
rock surface
 Authors stress that the results need to be
replicated
Is there life elsewhere in the
universe?
 Difficult to test

 Currently scientists are looking in 2 ways:
Sending robot probes to Mars
SETI (Search for Extra Terrestrial
Intelligence)

Universal Pictures
Hypotheses for the Origin of
Life on Earth
 Exogenesis
 Abiogenesis
 RNA World
 Metabolism First Models
Abiogenesis
Abiogenesis
 Life arose from inanimate inorganic and organic
molecules through natural processes
Abiogenesis
 1871-Charles Darwin- life may have begun…"warm little
pond, with all sorts of ammonia and phosphoric salts,
lights, heat, electricity, etc. present, so that a protein
compound was chemically formed ready to undergo still
more complex changes".

English Heritage Photo Library
Abiogenesis
 1924-Alexander Oparin and J. Haldane- "primeval soup"
of organic molecules could be created in an oxygen-less
atmosphere through the action of sunlight; “living matter
evolving from self-replicating but nonliving molecules”
Abiogenesis

Origin of biological monomers

Origin of biological polymers

Transition from molecules to cells
Abiogenesis

 Requirements
Formation of monomers must be possible
under the conditions of early Earth
Some explanation of transition from
molecules to cells must be provided
Urey-Miller Experiment
Urey-Miller
Experiment

YassiYassine Mrabet
Yaseen Mirabet
Urey-Miller Experiment
 Results
22 amino acids formed
Several other organic compounds formed

Problems
o Relies upon a reducing atmosphere on early Earth
and certain types of gases being present