LIFE SCIENCES

LAST PUSH 2017

EVOLUTION

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 Evolution

TABLE OF CONTENTS PAGE

1. Foreword 3
2. From Australopithecus to human today 4
3. Evolution examination guidelines 5-7
4. TERMS and DEFINITIONS 8-9
5.Evidence that evolution occurred 9-16

6. Evolution in the present times 16

7. Human Evolution 17-18
8.Out of Africa hypothesis and evidence of 19-22
African origin
9.Web 23

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 Foreword

The purpose of this manual is to assist grade 12 learners in preparation for 2017 end
of year examination.

The activities in this document are meant to be a guide and not to replace any study
material/ text book.

It aims to assist learners with practice model activities.

The manual focuses on selected challenging content of evolution informed by
experience of dedicated subject advisors and diagnostic report

This manual is distributed free of charge, as a learning support material to all Life
Sciences teachers and learners in Mpumalanga province and it is fully funded by
Mpumalanga Department of Education

The materials are compiled from different sources. We hope that the guide will serve
as a valuable and helpful resource for both learners and teachers.

Well wishes to class of 2017.

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Evolution

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 TERMS and DEFINITIONS

Biological evolution: any genetic change in a population that is inherited over

several generations. These changes may be small or
large, noticeable or not so noticeable.
Hypothesis: a suggested explanation for an observable
phenomenon or proposal that predicts a possible
outcome.
Theory: an explanation for something which is reasonable or
scientifically acceptable, but which has not yet been
proved to be true.
Theory of evolution: is regarded as a scientific theory since various
hypotheses relating to evolution, have been tested and
verified over time.
Micro-evolution: small changes that take place within a species to
adapt to survive.
Macro-evolution: large changes in many species that take place over a
long period of time.
Fossil: the imprint, traces or preserved remains of an
organism that once lived. A fossil may be plant and
animal body parts as well as impressions in rocks or
traces left by the organisms.
Fossilisation: the process that took place to produce the fossil over a
period of time.
Anthropology: the study of the human race, including the different
belief systems, customs and social habits.
Palaeontology: the study of the earliest known periods of human
existence, e.g.: the Stone Age.
Archaeology: the study of ancient times by examining the buried
remains of buildings, tools, animal and plant fossil
remains found in rock strata.
Archaeologist: a scientist that digs up, studies and traces fossil
remains in rock strata. Archaeologists use carbon
dating to determine when the animals and plants lived.
Biodiversity: the variety of different plant and animal species found
on earth where diversity is the result of change over
time.
Natural selection: is the process of change over time, that takes place in
species.
Species: a group of organisms that are similar in appearance,
share the same DNA sequences, perform the same
mating rituals and interbreed to produce viable
offspring.
Population: a group of organisms of different ages, that belong to
the same species, live in the same area and
interbreed.
Variation: small changes that will assist an organism where
phenotypic variation (physical appearance) is as a
direct result of genetic variation.
Continuous variation: the variation of a trait in a population, where the trait

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 ranges continuously from one extreme to another
preventing the subdivision into distinct classes.
Discontinuous variation: the variation of a trait in a population that can be
ascribed to two or more distinct forms.
Artificial selection: the selective breeding of plants and animals where
specific traits are modified, to satisfy human needs.
Speciation: the evolutionary process by which new biological
species arise, due to the splitting of the lineage.
Genetic diversity: is the level of biodiversity and refers to the total number
of genetic characteristics in the genetic makeup of a
species.
Genetic divergence: the process of one species diverging over time, into two
or more species where genetic characteristics are
passed from one generation to the next. The sequence
of the genes as they appear on the DNA that will differ
from species to species, so when the genetics are
altered, divergence takes place.
Extinction: all the individuals of a species die and are eliminated
permanently because they are unable to adapt to
survive.

Evidence that Evolution has occurred:

Theories of human evolution are based on research and scientific evidence that
support the concept of continual change. Sources like geology, anatomy,
embryology, genetics and physiology have been used as explanations for the
theories. Further lines of evidence are fossil records, modification of descent,
Biogeography and genetics.

a) Fossil evidence: The evidence that shows characteristics that make us similar to
or different from African apes comes largely from a study of fossils (thousands of
fossil fragments). The first record of living material preserved as a fossil, is from the
Palaeozoic era (540 million years ago).

b) Genetic evidence: Scientists state that organisms are closely related and are
likely to have a common ancestor if they have:

 Identical DNA structure

 Similar sequence of genes and
 Similar portions of DNA with no functions
Species that are closely related have a greater similarity to each other than distant
species.

c) Modifications by descent: modifications obtained from the study of the details

of the structures of body parts and systems of organisms that belong to a specific
phylum.

 Homologous organs: (homo = the same) similarity of the formation of a body

part or organ due to a common evolutionary origin, e.g.: the structure of the

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 pentadactyl limb in seals, bats and humans. The bones, muscles and nerves are
arranged in a similar manner in a front paw, wing and arm.

d) Cultural evidence: Cultural evidence from studies of tools and weapons, as well
as language is also used to show similarities and differences between humans and
African apes.

e) Biogeography: Biogeography is the study of the distributions of organisms in

space and time. It can be studied with a focus on ecological factors that shape the
distribution of organisms, or with a focus on the historical factors that have shaped
the current distributions

VARIATION
Sources of variation

The genotypes and therefore phenotypes (appearance) of individuals are different

from each other because:

a) Crossing over in Prophase I of meiosis involves an exchange of genetic

material, leading to new combinations of maternal and paternal genetic material
in each new cell resulting from meiosis
b) Random arrangement of maternal and paternal chromosomes at the equator
during metaphase allows different combinations of chromosomes/chromatids to
go into each new cell resulting from meiosis making them different
c) Chance/ Random fertilisation between different egg cells and different sperm
cells formed by meiosis result in offspring that are different from each other
d) Random mating between organisms within a species lead to a different set of
offspring from each mating pair
e) Mutation changes the structure of a gene and therefore the organisms genotype.
Since the genotype influences the phenotype, it creates organisms with new,
different characteristics from one generation to the next.

CONTINUOUS AND DISCONTINUOUS VARIATION

Continuous variation: Variation within a population in which a graded series of

intermediate phenotypes falls between the extremes. Height in human beings, for
example, exists in continuous variation

Discontinuous variation: This is where individuals fall into a number of distinct

classes or categories, and is based on features that cannot be measured across a
complete range. You either have the characteristic or you don't. Blood groups are a
good example: you are either one blood group or another - you can't be in between.

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 ideas about origins:

Lamarckism Darwinism Punctuated

Equilibrium
Jean Batiste de Lamarck Charles Darwin
(Theory proposed by Mayr in
(1744 to 1829) (1809 to 1888)
1954 and recognised in
1972 after a paper was
submitted by Eldredge and
Gould)

De Lamarck suggested two Charles Darwin wrote On Punctuated Equilibrium

main themes: the Origin of Species, explains the speed at which
published in 1859. Here he evolution takes place.
1. ‘Use and disuse’: the concludes that organisms  Evolution involves long
environment gives rise to periods of time where
have evolved by small,
changes in animals e.g.: species do not change or
gradual changes that took change gradually through
blindness in moles, the place over many successive natural selection (known
presence of teeth in generations. as equilibrium).
mammals, the absence of  This alternates with (is
teeth in birds and vestigial Darwin was influenced by punctuated by) short
organs (reduced pelvic the writings of Alfred periods of time where
structures present in a Wallace and stated that the rapid changes occur
whale skeleton). present species are through natural selection.
modified descendants  During which new
2. ‘Inheritance of acquired from the species of the past,
species may form in a
characteristics’ that short period of time.
i.e.: one common ancestor.
caused change in Evolution can be explained
organisms de Lamarck as the constant change
used the giraffe to explain that has taken place.
his theory - as the giraffe
stretched its neck to reach Darwin’s book was the first
higher leaves, it’s neck theory about evolution to be
stretched and grew longer published. His theory was
with each generation. supported by scientific
evidence and was regarded
Lamarck’s theories are as credible.
based on his belief that
there are two forces he saw The process of change was
as comprising evolution; called natural selection.

 a force driving animals The long-term changes in

from simple to complex the species were called
forms, and evolution.
 a force adapting animals

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 to their local The result of this change
environments thereby over time results in
differentiating them from Diversity.
each other.

Reason for theory being

rejected:

It is agreed that physically

stretching the neck cannot
alter the gene make-up of
the animal. Only the
genetics of the organism
can cause a physical
change.

Observations upon which Darwin based his theory:

 Organisms of a species produce a large number of offspring.
 The offspring shoe a great deal of variation.
 Of the large number of offspring produced, only a few survive.
 Characteristics are inherited from the surviving parents to the offspring.

Darwin’s theory of evolution by natural selection:

 Organisms produce a large number of offspring.
 There is a great deal of variation amongst the offspring.
 Some have favourable characteristics and some do not.
 When there is a change in the environmental conditions or if there is competition,
 the organisms with characteristics that make them more suited, will survive.
 While organisms with characteristics that make them less suited, will die.
 The organisms that survive, will be able to reproduce,
 thus they will pass the allele for the favourable characteristics on to their
offspring.
 The next generation will therefore have a higher proportion of individuals with the
favourable characteristics.
 In this way the characteristics of a population gradually change over a long period
of time.

The variation between individuals is due to differences in genes. Only individuals

who have characteristics that are adapted to the environment will survive. They
reproduce and pass the suitable characteristics to the next generation by natural
selection and so, evolution results. If the characteristics are not suitable for

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survival, the organism cannot adapt and will die leading to eventual extinction of the
species. Conservation is a process to ensure that biodiversity is maintained so that
populations do not become extinct.

Artificial selection in plants and animals

Artificial selection is the selective breeding of plants and animals, where specific
traits are modified, to satisfy human needs. Humans have conducted experiments to
develop organisms with selected and desirable characteristics, like cattle that
produce better quality and quantity meat and milk, drought resistant wheat and sugar
cane with more sugar etc.

This is an evolutionary mechanism that results in:

 new breeds (animals)

 new strains (micro-organisms) and
 new varieties (plants).

New varieties of plants and animal breeds are produced relatively quickly by
selecting parent organisms with the desired traits. The commercially viable
organism would be homozygous for all the genes involved, whether dominant or
recessive, for their desired trait.

Animals

Inbreeding Outbreeding

What is it? Inbreeding is the mating or Outbreeding is the mating of

breeding of two genetically individuals of totally unrelated
related individuals to strains. This leads to offspring
enhance the desirable traits. that are better adapted for
survival, than either of the
parents. This phenomenon is
termed hybrid vigour.

Examples:  thorough bred racing and  mongrel dogs are crossed

show jumping horses from two different dog sub-
 milk producing cows species and are far stronger
 many varieties of dog and hardier than highly
breeds pedigreed purebreds.
 sheep with better quality  mules are a cross between a
and quantity of wool horse and a donkey and are
production much stronger and better
suited to many more tasks
than either parent.
Advantages: Desirable traits are enhanced When sub-species are crossed, a
in the species without stronger more resilient breed

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 contamination from other results since desirable traits are
species, resulting is a very bred into the species.
pure breed. Animals with
undesirable or weak traits
should be culled.

Disadvantages: The gene pool becomes In some cases of cross species

restricted. The strain may breeding, the hybrid may not be
become homozygous for able to reproduce, because
multiple defective traits: chromosomes cannot form
homologous pairs during meiosis.
 certain dog breeds like This will result in hybrid sterility,
German shepherds are
e.g.: mules are unable to breed.
vulnerable to hip
dysplasia (weak hips) and
congenital femur
dislocation
 fighting dogs like the
South African Boerboel
often become very
aggressive and go mad as
adults resulting in them
having to be put to sleep.

Plants: Artificial selection in plants is the deliberate altering of the genetic make-
up. The interbreeding of desired traits continues until a new variety is produced.
Homologous recombination of the chromosomes is used to generate genetic
diversity. Cross-pollination between varieties would be part of the process. For
example, fast growing wheat may be crossed with high-yielding but slow growing
wheat. The offspring will be crossed again until a new species result that is fast
growing and high yielding. Refer to Mendel’s tall and short varieties of pea plants.
Plant breeding and genetic engineering is used to produce crops that are high-
yielding, fast growing, pest and disease resistant, drought resistant, frost resistant
and require less water.

Similarities between natural selection and artificial selection (Not in Exam

Guideline but can be asked):

 Organisms with the desirable traits survive and pass these traits on to their
offspring
 Organisms that are weak or with the undesirable traits do not survive
 Hybrids are often sterile e.g.: mules, seedless fruit etc.

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 Differences between natural selection and artificial selection (Not in Exam
Guideline but can be asked:

Natural Selection Artificial Selection

The environment or nature is the Humans are the selective force

selective force
Selection is in response to suitability to Selection is in response to satisfying
the environment human needs
It occurs within a species May involve 1 or more species e.g.:
cross breeding different traits in each
species

Formation of new species

Speciation results because of:

o If a population of a single species

o Becomes separated by a geographical barrier (sea, river, mountain,
lake)
o Then the population splits into two populations.
o There is now no gene flow through the two populations.
o Since each population may be exposed to different environmental
conditions/the selection pressure may be different,
o Natural selection occurs independently in each of the two populations
o So that the individuals of the two populations become very different from
each other
o Genotypically (their genes are different) and phenotypically (their physical
appearance)
o Even if the two populations were to mix again,
o They will not be able to interbreed
o The two populations are now different species.

Keeping species separate:

When one species gives rise to two new species (speciation), the two new species
cannot reproduce with each other if they mix. They remain as separate species due
to mechanisms that restrict gene flow between them. This is termed reproductive
isolation and result because of:

 Seasonal isolation: when breeding/reproduction takes place at different times

of the season or year. In plants, anthers and stigma mature at different times, to
prevent cross-pollination.
 Behavioural isolation: animals behave differently during courting and mating
rituals - females are not responsive, so no mating takes place.
 Mechanical isolation: when male and female reproductive parts change,
making gene transfer impossible. In flowers, the stigma normally releases
enzymes to stimulate the growth of the pollen tube. In this case, the enzyme will
not stimulate growth, so pollen grain will not grow. In animals, the genitals

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 change so the sperm cannot be transferred into the female, should mating be
attempted.
 Gamete isolation: when genes change, gametes become chemically altered, so
fusion of the gametes is impossible. Should the gametes fuse, gamete isolation
will prevent the recycling of the genetic material, e.g.: donkey + horse = infertile
offspring called a mule.
Evolution in present times:
Natural selection and evolution are still taking place in present times.

 DDT (dichloro-diphenyl-trichloroethane)
Many years ago, mosquito breeding areas were sprayed with an insecticide
called DDT to prevent malaria by killing the mosquito larvae and were initially
very effective. However, some insects with mutations in their sodium channel
gene were resistant to DDT and with breeding took about 7 years for DDT to lose
its effectiveness. The genetic trait that caused the resistance to DDT was
homozygous recessive and eventually resulted in the evolution of the mosquito
into a new DDT resistant species. However, the impact of DDT on the
environment continues because it is non-biodegradable and toxic. DDT was
washed from the soil and leached into underground water and eventually the sea.
The weak solution of DDT was absorbed by micro-organisms and through the
food chain link, the concentration increased and resulted in bio-accumulation.
Cancer and many other diseases may result in humans. In animals and birds, the
toxin accumulation results in uncharacteristic behaviour, egg-shell thinning and
death. In 1972, the use of DDT was officially banned worldwide.

 Resistant strains of TB
Tuberculosis is caused by a bacterium called Mycobacterium tuberculosis that
attacks the lungs, kidneys and bones. Symptoms would include chest pains,
fever, coughing, weight loss and shortness of breath. Eventually, mucus and pus
block the alveoli causing them to burst, resulting in the person coughing infected
spray droplets of blood. Loss of alveoli causes lack of oxygen, resulting in
physical weakness. TB is also transmitted in infected milk. The TB bacteria are
destroyed when exposed to sunlight and infected people should be isolated and
treated with antibiotics for a minimum of six months. Children are immunised
with inoculations at the local clinics. The TB bacteria have evolved into ‘multi-
drug resistant strains’ (MDR-TB), where normal drugs are ineffective. In 2006,
‘extensively drug-resistant tuberculosis’ (XDR-TB) was identified. MDR-TB
tends to develop when patients miss doses of antibiotics or do not complete the
full treatment. This strain seems less virulent and does not appear to dominate
naturally. But XDR-TB has a much higher mortality rate than MDR-TB and does
not seem to transmit in healthy populations but appears to be more prevalent in
individuals who are HIV positive. With the XDR-TB strain, from onset of the
disease to death takes approximately 15 to 20 days as this strain does not
respond to any of the drugs presently available in South Africa.

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 Human evolution

Evidence of common ancestors for living hominids, including humans

The term ‘Homo’ refers to the genus and means ‘human’. Studies of human
evolution must include hominids such as the Australopithecines, as it is theorized
that the Homo genus diverged (split) from them about four million years ago in
Africa. Scientists have estimated that humans branched from their common
ancestor with the chimpanzee about five to six million years ago. Other species of
Homo like Homo erectus and Homo neanderthalensis have all become extinct.
Substantial fossil proof exists to explain hominid evolution, although it is not enough
to make specific conclusions.

Fossil Evidence:

 Archaeologists have provided fossil evidence to prove that relationships existed

between the Early Stone Age cultures in Europe and Northern Africa.
 Discoveries in South Africa, Kenya and Zimbabwe have been used to prove and
validate that Africa was the home of early man.

Genetic Evidence:

 Mitochondrial DNA: MtDNA is the smallest chromosome located in the

mitochondria and forms part of the organisms’ genome. In most species, mtDNA
is inherited from the mother (maternal inheritance). The sequencing of the
mtDNA shows a link in phylogenetics and evolutionary relationships between
species. The age of the common ancestral mtDNA can be estimated to have
existed approximately 140,000 to 290,000 years ago linking humans to
Mitochondrial Eve.

Cultural evidence: tool-making

 The earliest hominids to use simple tools known as Oldowan stone tools, were
Homo habilis that lived around 2.6 Ma and signifies the start of the Stone Age.
 Homo habilis fossils have been found in many parts of Africa with tools that were
made of stone and used to aid hunting and cutting of food.
 Homo erectus developed more advanced tools that included sharpened stones
placed on wooden handles, like an axe.
 They were also the first species to use flints and quartzite to make fire.
 Later fossil evidence shows tools like scrapers probably used to clean animal
skins, slicers and needles used to sew animal pelts into the first form of clothes.
 From this point, tools progressed to knives and blades used by the
Neanderthals used for hunting and protection.
 Fossil evidence shows that as the different species developed larger brains and
greater intelligence, so their tools became more complex.

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 Characteristics that humans share with African apes:

 Olfactory brain centres reduced/ reduced sense of smell

 Eyes in front/ Binocular vision / stereoscopic vision
 Eyes with cones/ colour vision
 Freely rotating arms
 Elbow joints allowing rotation of forearm
 Flat nails instead of claws/ bare, sensitive finger tips
 Opposable thumbs
 Bipedal/ upright posture / foramen magnum in a more forward position
 Sexual dimorphism/ distinct differences between males and females
 Parts of the brain that process information from the hands and eyes are enlarged
 Longer upper arms
 Large brains / skulls compared to their body mass
 Five digits per limb

Anatomical differences between Humans (Homo sapiens) and African Apes

FEATURE Humans (Homo sapiens) African Apes

Cranium Large cranium/brain Small cranium/brain

Brow Ridges Brow ridges are not well Brow ridges well developed
developed

Spine More curved spine Less curved spine

Pelvic girdle Short, wide pelvis Long, narrow pelvis

Canines Small canines Large canines

Palate shape Small and semi-circular Long and rectangular

Jaws - Small jaws - Large jaws

- Less protruding - More protruding jaws/
jaws/less-prognathous more prognathous

Cranial ridges No cranial ridge Cranial ridge across the top of the
cranium

Foramen Foramen magnum in a Foramen magnum in a backward

Magnum forward position position

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Out of Africa hypothesis and evidence for African origins of
modern humans
This hypothesis states that modern Homo sapiens evolved in Africa about 200,000
years ago and migrated outwards to Europe and Asia, according to the Southern
Dispersal theory.

Most scientists agree that modern humans (Homo sapiens) evolved in Africa and
spread outwards across the continents.

The following lines of evidence have been used to support this hypothesis:

 Fossils of Ardipithecus were found ONLY in Africa

 Fossils of Australopithecus and Homo habilis were found ONLY in
Africa
 The oldest fossils of Homo erectus and Homo sapiens have been
found in Africa
 Analysis of mitochondrial DNA shows that the oldest female ancestors
of humans are from Africa
 Analysis of Y chromosome shows that the oldest male ancestors of
humans are from Africa

Fossil Records:

Organism When Fossil site Discovered Characteristics

organism by
existed
Ardipithecus 5-4 mya North-East Tim White Brain size: 300-350 ml
ramidus Ethiopia Forward position of
foramen magnum. Very
prognathous (more
protruding jaws). Heavy
brow ridges. Pelvis
structure: bipedal and
tree climbing.
Australopithecus 4-2,7 mya Ethiopia Donald Brain size: 375 – 550 ml
afarensis Kenya Johanson Forward position of
Tanzania foramen magnum
Very prognathous
Heavy brow ridges
Canines large and
pointed
Long arms
No cranial ridge
Australopithecus 3-2 mya Taung Raymond Dart Brain size: 428-625 ml
africanus Sterkfontein Forward position of
foramen magnum
Prognathous
Brow ridges
Teeth large; canines not
long
Long arms
No cranial ridge

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 Organism When Fossil site Discovered Characteristics
organism by
existed
Australopithecus 1,9-1,8 mya Malapa Cave – in Lee Burger Brain Size: 420 ml
sediba the cradle of Lee prognathous
humankind Brow ridges
Large teeth; canines not
long
Long arms
No cranial ridge
Homo habilis 2,2-1,6 mya Tanzania Louis and Mary Brain size: 650 ml
Leakey Less prognathous
Less pronounced brow
ridges
Human-like teeth;
smaller canines
Long arms
Homo erectus 2-0,4 mya Java in Indonesia Eugene Dubois Brain size: 900 ml
and then Prognathous
Swartkrans Cranial ridges
Short canines
Longer legs and shorter
arms
Homo sapiens 200 000 Makapansgat in Tim White Brain size: 1200-1800 ml
years ago - Limpopo No brow ridges
present Border Cave in Small teeth
KZN Short arms
Blombos Cave in
the Western Cape

Phylogenetic trees:

A phylogenetic tree is a schematic form that shows the evolutionary relationships

within a set of organisms or groups of organisms. Phylo = organism’s phylum group
and genetic = from the genes/relationship between the genes

Hints on interpreting phylogenetic trees:

(Modified from Mind the Gap: Grade 12 Life Sciences)

Reading a phylogenetic tree is similar to understanding a family tree. The base of

the tree represents the oldest ancestor and the tips of the branches represent the
most recent descendants of that ancestor. As you move from the base of the tree, to
the tips of the branches, you are moving forward in time. .

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When speciation occurs, it is represented as branching on the tree.

Each lineage has a part of its history that is unique and parts that are shared with
other lineages.

Similarly, each lineage has ancestors that are unique to that lineage and common
ancestors that are shared with other lineages.

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23
 Web links
The article below is a good summary of some recent work published about a human skeleton found in Ballito
Bay.
https://www.thetimes.co.uk/edition/comment/it-took-10-000-generations-to-make-an-iphone-
8phfggzqz

Natural selection
http://www2.edc.org/weblabs/NaturalSelection/NaturalSelectionMenu.html

Exploring evolution
http://www2.edc.org/weblabs/ExploringEvolution/ExploringEvolutionMenu.html

The Hardy-Weinberg Equation

http://www2.edc.org/weblabs/Hardy%20W/HardyWeinbergMenu.html

Peppered Moths
http://www3.district125.k12.il.us/faculty/nfischer/Moth/default.htm

Biology in Motion – Evolution Lab

http://biologyinmotion.com/evol/

Sex and the Single Guppy

http://www.pbs.org/wgbh/evolution/sex/guppy/index.html

Wonderful animations
http://www.sumanasinc.com/webcontent/animation.html

Evolution
http://evolution.berkeley.edu/

Evolution
www.maropeng.co.za

Peppered moth simulation

https://www.biologycorner.com/worksheets/pepperedmoth.html

For videos:
www.eChalk.ca.uk.

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