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Chapter 25: Brief History of Life
Transcript of Chapter 25: Brief History of Life
(Brief) History of Life prokaryotes eukaryotes multicellularity plants What was Early Earth like?* Hot: Due to the formation of the Earth
Violent: Due to the formation of the Solar System
Toxic: Lots of nasty gasses in the amosphere (CO2, NH3, SO2, H2O). NO OXYGEN GAS! The atmosphere was either reducing, or neutral (the modern atmosphere is oxidizing)...favoring increasing chemical complexity. * We Think Big Questions Make Sure You Can How old is the Earth? Where did it come from?
How did life begin?
How have the history of life and the history of Earth influenced each other? Explain how scientists are able to date the ages of all events discussed in this presentation.
Describe the hypothetical steps that had to occur for life to arise in the Universe.
Explain the significance of all time periods discussed in this presentation.
Describe the effects of oxygenation of the atmosphere, extinctions and adaptive radiation on the history of life.
Explain how the field of evo-devo has informed our thinking about the relationship between changes in genes and changes in forms. The Origin of Life in 4 Steps 1. Formation of Biol. Molec. 2. Accretion of proto-cells 3. Develop an info. molec. 4. Reproduction E used to convert inorg. molec. into org. molec. (monomers)
Monomers join to form polymers (emergent properties!) Stanley Miller (1953)- simulated "Early Earth" conditions in the lab.
Created amino acids, other organic molecules Other experiments have since demonstrated biological molecule formation in:
Asteroids (in space)
Comets (in space)
Asteroid/comet impacts Life requires internal metabolism different from ext. env. Seen in protobionts.
Have a primitive metabolism
Absorb & excrete biological molecules The "RNA World":
proposes RNA was first info. molec.
Based on fact that RNA has both info. storage & catalytic functions.
Ribozymes: RNA enzymes.
Artificial evol. of RNA molec. in vitro has been demonstrated in lab investigations. ? A couple things to keep in mind:
1. It could have taken hundreds of millions of years to happen
(we've got plenty of time).
2. Once it starts, evolution creates a positive feedback loop that leads to increasing efficiency & complexity of life. How do we know when things happened? NO! A Note about Ages Radioactive Decay:
The half-life of radioisotopes is a universal constant
Universe ~15 bill. years old (based on light years of background radiation from Big Bang)
Solar System & Earth: ~4.5 billion years old (dating of asteroids)
Life began about 3.5 bya
C-14 dating for more modern organic material Photosynthesis evolves ~500 million years after life evolves.
A successful metabolic process
Changed the earth Evolution of Eukaryotes Cyanobacteria: photosynthetic bacterial cells. Stromatolites: Large colonies of cyanobacteria Oxygenation of Earth Any life more complex than bacteria is eukaryotic.
linear chromo's, cytoskeleton, memb.-bound organelles, endomembrane system
Where did these organelles come from? Endosymbiosis: ...how should this effect life's evolution? And Away We Go! particular organelles (mitochondria & chloroplasts) evolved from free-living bacteria which were engulfed by larger bacteria. Extraordinary Evidence:
Chloroplasts & Mitochondria:
Reproduce independently from cell division
Have their own DNA (bacterial in structure)
DNA sequencing demonstrates bacterial origins
Have their own ribosomes (bacterial in size)
Have a double membrane
Endosymbiosis was a win-win situation. Multicellularity Communication b/w unicellular org's (quorum sensing) provides basis for cellular communication mechanisms seen in multicellular org's Patterns in the Evolution of Life After a slow start (~3.5 billion years). The biodiversity of life increases exponentially from ~550 million years ago until today.
This kind of pattern is indicative of a positive feedback relationship between evolution of complexity and time. Why would such a relationship exist? Radiations Extinction The Evolution of Homo Even though the diversity of life has increased, most species (99.9%) that have ever evolved have gone extinct.
Examination of fossil evidence has show that the history of life has been punctuated by 5 particularly large extinction episodes (the "great extinctions"). There is much debate about the causes. Following major extinctions, there is increased niche space. What would this lead to?
Adaptive Radiation: When one species rapidly evolves to fill many diverse niches. Typically happens on islands (finches) or after a big extinction (mammals) The evolution of humans is noteworthy for the effect that humans have had on the rest of the planet.
Holocene- The current geological period (from about 11,ooo years ago), wherein the actions of the human population are able to have a global impact. Evolution Up Close A little change can go a long way Very few genes are in control of development. Homeobox (aka "Hox") Genes:
Hox genes are responsible for the development of specific sections of animals.
Changes in the patterns of expression of these genes can lead to big changes in an animal's body plan. Modern Fossils The Action is staged, the age is not 1. 2. animals 3. No Oxygen 4. The Revolution of Photosynthesis 5. 6. 7. Evolutionary Increases Complexity of life increases in exponentially shorter time periods Don't see too many Dimetrodons anymore Extinction rate vs. Number of taxonomic families over time (can you spot the 5 great extinctions?) Artists rendering of the Chixulub impact event which is thought to have precipitated the KT extinction. The "Cambrian Explosion":
The radiation of all animal phyla Adaptive Radiation of Mammals
What made it possible? The progression of the hominid lineage from divergence with Chimpanzees to Homo sapiens. Three (of many) species that were driven to extinction by the actions of the human population:
The Passenger Pigeon
The Tasmanian Tiger
The Great Auk Human population growth vs. number of recorded extinctions since 1400 ad Hox gene expression correlated to body segments in a fruit fly Differences in 1 Hox gene expression in insects and crustaceans of the arthropod phylum The expression of a specific Hox gene (purple) is responsible for limbless segments in chordates snake chicken Putting this all a slightly different way... The availability of Oxygen in the atmosphere allows for the evolution of aerobic cellular respiration, a process that produces more than 10X the amount of ATP from breaking down biological molecules than oxygen-free ("anaerobic") respiration does. Review of Evidence of Common Ancestry morphology: homol./vestigial structures
biochem. similarities: glycolysis, cell. resp., chromo's