Post on 25-Dec-2015
a process of change through time
evolution explains the differences in structures, function, and behavior among all life forms
EVOLUTION IS A UNIFYING PRINCIPLE FOR BIOLOGY
evolution and molecular genetics help explain the change of characteristics of populations through generations
FOSSILS
direct or indirect remains of organisms preserved in rock, amber, ice, or tar
some fossils are over 3 billion years old; we can tell this by radioactive dating, which looks at the amounts of radioactive elements in the substance
by the fossil record, we have discovered that the earth is between 4 1/2 and 5 billion years old
the deeper down fossils are found in SEDIMENTARY ROCK (the layers), the older they are
upper layers of rock have more complex and relatively newer organisms than the lower layers
fossils that resemble each other in different layers show COMMON ANCESTRY (also shown by the following)
COMPARATIVE CYTOLOGY remember the cell theory, cells are the
basic unit for all living things organelles such as:
plasma membraneribosomes
mitochondriastructure of the nucleus of eukaryotes
...are very similar in all organisms
COMPARATIVE BIOCHEMISTRY nucleic acids (DNA and RNA) are in EVERY
organism many different organisms have similar
genetic makeups... ...therefore they have similar enzymes and
proteinsex. pig insulin was used for treatment for
people that suffer from diabetes the closer the genetic code matches up
between organisms, the closer they are related...
humans and chimpanzeesDNA is 98.5% the SAME
COMPARATIVE ANATOMY some anatomical structures are similar in
living things homologous structures- parts of organisms
that are similar in structure but may have different functions
ex. homologous bones in forelimbs (forearms)in frogs, birds, bats, horses, whales, humans
COMPARATIVE EMBRYOLOGY during early stages of development,
embryos of many different members of the animal kingdom (vertebrates) are almost indistinguishable from each other
this is believed to be a carryover from the development pattern of a common ancestor
EARLY THEORIES OF EVOLUTIONA) SPONTANEOUS GENERATION
the belief that living organisms could arise spontaneously (naturally) from nonliving matter
example of "proof": 1) leave out a piece of meat2) watch maggots grow from meat 3) maggots came from meat
THIS IS NOT PROOF! you must carry out a controlled
experiment
Francesco Redi disproved spontaneous generation in the mid-1600 by using a control--some meat was placed in an open jar, other meat was placed in a covered jar (one variable--easy to study)...RESULTS:
1) flies landed on the uncovered meat--then maggots2) no flies on covered meat--no
maggots, flies could not land on meat to lay eggs!
other theories were based on ADAPTATIONS--features (structural behavioral, of functional) which make a species better able to live and reproduce in its environment
B) LAMARCK'S THEORY OF EVOLUTION (MID 1800'S) explained the changing of species over time with two principles:
1) USE AND DISUSE new organs will arise according to the needs of a particular
organism the size of the organ depends on how much they are used
2) TRANSMISSION OF ACQUIRED TRAITS useful characteristics were acquired by an individual organism
during its lifetime and were passed on to its offspring Lamarck was disproved by Weismann Weismann removed the
tails of several generationsof mice and found that thistrait was not passed on to the offspring!
C) DARWIN'S THEORY OF EVOLUTION
explained the changing of species over time with the principle of NATURAL SELECTION (mid 1800's)
1) OVERPRODUCTION more offspring are born in a population than can possibly
survive2) COMPETITION because of the large amount of organisms, there is a
struggle to survive limited resources such as space, food, water, light,
minerals keep populations at bay3) VARIATIONS due to genetic recombination (crossing over and sexual
reproduction) and mutations, members of a population show variations
these can possibly help or hurt an organism to survive its respective environment
4) SURVIVAL OF THE FITTEST those individuals who do survive are the ones that have
the variations that are best adapted to its environment ex. in the woods, brown fur is helpful for hiding and
white fur is not helpful...brown lives!
5) REPRODUCTION the individuals that do survive in a
population will pass their variations (genes) to their offspring
those that had unfavorable adaptations do not survive and do not pass on their traits
6) SPECIATION over time...a LONG PERIOD OF TIME,
these adaptations will result in a new species; called SPECIATION
Because Darwin (19th century) didn't know what DNA/genes/chromosomes were, he could not explain the genetic basis for
variation!
COMPARING LAMARCK AND DARWINThe ancestor of the modern day giraffe had a short
neck, as seen by fossils. LAMARCK would have explained the change in the
giraffe's neck by saying that the giraffe's ancestor was a grass-eating, short-necked animal. When the grass became scarce, the giraffes needed to stretch their necks to reach for food. Each generation had to stretch more to reach their food. The longer neck then was passed on to the next generation and each following generation had a longer and longer neck.
DARWIN would have said that the giraffe's ancestors had different neck lengths. Through natural selection, the giraffes with the longer necks could reach food and survived, while the giraffes with short necks starved and died. Long necked giraffes would survive to reproduce and pass along their traits to the next generation.
MODERN EVOLUTIONARY THEORY
supports and explains the genetic basis for Darwin's concepts of variation and natural selection
A) SUPPORTING VARIATION
1) MUTATIONS are changes in DNA are spontaneous cause for change!
2) SEXUAL REPRODUCTION the sorting out and recombination of
genes during meiosis and fertilization forms new combinations of genes!
B) NATURAL SELECTION traits which are beneficial to survival of an
organism will be passed to new generations and will increase in gene frequency
traits which are not beneficial will not be passed on and will decrease in gene frequency
IF THE ENVIRONMENT CHANGES......some traits not beneficial may
become so--or vice versa!ex. moths during the industrial revolution,
bugs becoming resistant to insecticide,bacteria becoming resistant to anti-biotics such as penicillin
C) EXTINCTION
throughout history, species have evolved together
not all species survive...99% of all species that have existed on earth are no longer present
you can track different species using the "tree model“
some branches change over time, some remain the same, some do not survive
TYPES OF NATURAL SELECTIONA) Geographic Isolation when members of a species are
physically separated from one another they can evolve (change) separately
according to their new environment
B) REPRODUCTIVE ISOLATION
groups that are separated can become so different over time that they no longer can produce offspring that can survive (genetic drift)
so now, you have two separated species
C) TIME FRAME FOR EVOLUTION
there are two separate theories that attempt to explain how long evolution takes
based on fossil record
1) GRADUALISM evolutionary change is a slow, gradual, continuous
process
2) PUNCTUATED EQUILIBRIUM species remain stable (no changes) for a long period
of time, then a big change happens in a brief time... meteors? volcanoes?
the fossil record show that most invertebrate species only last between 5-10 million years
HOW DID LIFE BEGIN ON EARTH
THE HETEROTROPH HYPOTHESIS(the following is based off of years of human experiments, observations,
analyses, and conclusions)
A LONG, LONG TIME AGO... the earth was a hot place filled with
inorganic material as the planet cooled down, water
condensed and collected into the seas carrying dissolved gases (NH3 H2O H2 methane) and minerals
energy from lightning, cosmic rays (no ozone layer yet) , and radioactive material provided an energy rich environment
FROM THESE CONDITIONS, SIMPLE ORGANIC MOLECULES FORMED! (PROVEN IN THE MILLER/UREY EXPERIMENTS)
in time, these simpleorganic molecules aggregated (clumped)to form larger, more complex organic molecules
WHAT HAPPENED NEXT IS COOL...AND TOOK A VERY LONG TIME...
as these molecules became more advanced, they gained the capability to take in other molecules (nutrition) as well as being able to make copies of themselves (reproduction) by trial and error of code
meanwhile, there is no oxygen O2 gas the simple life forms got their energy
through simpler anaerobic (no oxygen) respiration and released carbon dioxide (CO2) into the atmosphere
soon, some life forms were able to use CO2 to carry out photosynthesis--which releases oxygen!
others then gained the ability to use the oxygen to carry out aerobic (using oxygen) respiration...lots more energy released...evolution speeds up!
SUMMARY OF HETEROTROPHIC HYPOTHESIS
SIMPLE MOLECULESCOMPLEX MOLECULES
(Heterotrophic nutrition)SIMPLE ORGANISMS
(heterotrophic nutrition)(anaerobic respiration--releases CO2)
SIMPLE ORGANISMS(autotrophic nutrition--releases O2)
(anaerobic respiration)SIMPLE ORGANISMS
(aerobic respiration--uses O2lots of energy!!!)
COMPLEX ORGANISMS