Origin Of The Earth And Evolution Of Life PDF

Summary

This document provides a general overview of the origin of Earth and the evolution of life. It details the conditions of early Earth, the process of abiogenesis, and the development of various life forms, including the emergence of oxygen-rich environments and photosynthesis. The information is presented in a readily understandable format.

Full Transcript

Origin of the Earth
and
Evolution of Life
Origin of Life
Environmental conditions of primitive Earth
Earth was “born” about 4.5 billion years ago.

The planets probably formed from debris cast
off from our Supernova following its
condensation from interstellar gas and dust of a
nebula about 5–7 Bybp.

At first, Earth was semi-molten, but gradually
cooled enough to form a solid rock crust
The oldest rocks are 3.964 Bybp.
 Decay of radioactive elements of Earth
caused partial melting of the planet’s
interior, with denser materials making up
the core.

Differential temperatures of the core and
crust set convection currents in motion in
the mantle.
The conditions of Earth upon its formation
about 4.5 billion years ago is described as
“hellish”.
Earth during early years:
extremely hot
the surface mostly consisted of molten
rocks
the atmosphere contained gases with
only small traces of oxygen.
 continually bombarded by
radiations and meteors.

not conducive to any form of life.
Earth’s position relative to the Sun
ensure that the planet was conducive to
life.
“habitable zone”

- It radiates light and heat, or solar
energy, which makes it possible for life
to exist on Earth.
Water vapor was present in the Earth’s
atmosphere and large bodies of water
formed on the planet’s surface.

Gradually causes:
absorbed the carbon dioxide from the
atmosphere.
lowering the levels of gases
trapping heat

= regulates the planet’s temperature.
 As Earth cooled, there was a period of
intense volcanic activity that released
gases into the primitive atmosphere,
primarily:
ammonia = NH3
carbon monoxide = CO
hydrogen sulfide = H2S
methane = CH4
nitrogen = N2
water vapor = H2O
 As the rate of radioactive decay slowed,
water vapor condensed and fell through the
atmosphere, dissolving gases and forming a
“poisonous” rain.

Run-off of rainwater from the land carried
dissolved minerals into a shallow
water/ocean.

The collective materials in the water/ocean
formed a “primordial soup”.
 Earth’s surface was bombarded by solar energy,
especially ultraviolet (UV) radiation.

Intense electrical storms generated lightning that
assaulted the surface.

Together, the UV and lightning provided energy
necessary to arrange simple molecules of CH4,
NH3, PO4 salts, and H2O into the basic building
blocks of organic compounds, and then into
complex macromolecules.
 This chemical evolution of organic molecules is
called abiogenesis
 Life began with the first self-replicating
“organism”
The earliest organism may have been no
more than a ribozyme
A ribozyme is an RNA molecule capable of
enzymatic actions, e.g., the self-splicing introns
of some RNAs, which can excise themselves
from the molecule without the help of protein
enzymes.
 These first self-reproducing organisms
appeared about 3.5 Bybp
They were prokaryotes and anaerobic
heterotrophs that fed on organic
molecules in the primordial soup
[anaerobic, without oxygen]
[heterotrophs, consume organics from
other sources]
 Early life forms were continuously
bombarded by UV radiation, causing
mutations that produced new life
forms
As new life forms evolved, the
predatory mode appeared
Consumption of prey organisms required
catabolism of their organics through the
process of respiration
 The ozone accumulated into the ozone
layer in the stratosphere, and blocked most
of the UV radiation from penetrating to
surface
Formation of the ozone layer enabled
development of terrestrial life forms
Other organisms developed the ability to
utilize energy released from breaking
chemical bonds to manufacture their
own organic compounds in the process
called chemosynthesis
 About 2.7 Bybp, still other organisms
developed the ability to utilize energy
from sunlight to manufacture their own
organic compounds in the process
called photosynthesis
Photosynthesis released a new gas
into the atmosphere, oxygen
CO2 + H2O → C6H12O6 + O2
carbon water glucose oxygen
dioxide
 At first, all of the oxygen released by
photosynthesis reacted with iron in
the lithosphere
Gradually, free elements reached
oxidized states, and O2 began to
accumulate in the atmosphere
Because oxygen interferes with
anaerobic respiration, another great
change in life occurred, the
development of aerobic respiration
C6H12O6 + O2 → energy + CO2+H2O
 The oxygen-rich atmosphere and aerobic
respiration are thought to have led to the
evolution of eukaryotes
 Refers to the
separation of the
Earth’s
Continents

Drifting across
oceanic bed