Topic 4 - Natural Selection And Genetic Modification

Question 1

What is evolution?

Answer 1

A gradual change in the inherited traits within a population over time

Occurs due to natural selection

Question 2

Outline the theory of natural selection

Answer 2

1. Genetic variation exists due to spontaneous mutations
2. Selection pressures ( competition , disease) exists
3. Random mutation gives an organism a selective advantage
4. Organism is better adapted to the environment and survives
5. Organisms reproduces, passing on it’s beneficial alleles
6. Frequency of advantageous alleles increase

Question 3

Why does competition between organisms in a habitat exist?

Answer 3

The resources within a habitat required for survival are limited

Question 4

Give some examples of competition between organisms within a habitat

Answer 4

Competition between animals for food, shelter , Mayes

Competition between plants for light, water , minerals

Question 5

Describe how antibiotic resistance in bacteria can be used as an example to illustrate the process of evolution

Answer 5

1. Genetic variation exists due to spontaneous mutation
2. Antibiotics act as a selection pressure
3. Mutations give a bacterium antibiotic resistance
4. If an antibiotic is administered, the bacterium is better adapted and survives whilst other bacteria are killed
5. Bacterium reproduces, passing on its resistant variant
6. Frequency of antibiotic resistance allele increases

Question 6

Why is the development of antibiotic resistance in bacteria a good study for evolution?

Answer 6

Bacteria reproduce very rapidly, allowing the first hand observation of evolution

Question 7

How can the observation of fossils provide evidence for evolution?

Answer 7

Older fossils ( found in rocks deeper in the ground) contain simpler organisms. Newer fossils ( found closer to the surface) contain more complex organisms. Comparisons of fossils show that simple organisms evolved into more complex life forms.

Fossils can be organised into chronological order, allowing the changes in organisms over time to be observed

Question 8

Describe the role of Darwin in the development of the theory of evolution by natural selection

Answer 8

• studied a variety of organisms whilst travelling around the world on the HMS Beagle
• noted traits that can be passed from parents to offspring
• proposed idea of survival of the fittest
• established theory of natural selection and published his ideas in ‘On the origin of species”

Question 9

Describe the role of Wallace in the development of the theory of evolution by natural selection

Answer 9

• he proposed a theory of natural selection that was similar to Darwin’s although the mechanisms were different
• he gathered greater evidence ( studying warning colouration in butterflies) to support the theory

Question 10

How has the theory of evolution by natural selection impacted modern biology ?

Answer 10

• enables the classification of organisms into taxa
• influences modern medicine by emphasising the importance of finsineinf antibiotic treatment and the need for the constant production of new antibiotics
• highlights the importance of high genetic diversity in habitats which aids conservation projects

Question 11

What fossils have provided evidence for human evolution?

Answer 11

• Ardi - 4.4 million years old
• Lucy - 3.2 million years old

Question 12

What clues does Ardi give scientists about human evolution ?

Answer 12

Female fossil. Show phenotype traits which encompass characteristics of both human and apes

• ape like characteristics- long arms large big toes
• human like characteristics- structure of her bones suggests she walked upright

Question 13

What clues does Lucy give scientists about human evolution?

Answer 13

Female fossil - more human than Ardi

More adapted to walking than climbing
Brain size like an ape

Question 14

How did Leakey’s findings provide evidence for human evolution?

Answer 14

He discovered many hominid fossils

The 1.6 million year fossil showed traits comparable to modern day humans

Question 15

How has the development of stone tools provided evidence for evolution

Answer 15

Correlation between the development of more complex tools and an increase in brain size

Primitive tools are older than more complex tools. Brain size has increased over time. As brain size increased advancements in tools use was made

Question 16

Describe methods used by scientists to date tools

Answer 16

Carbon 14 dating- estimating the age of carbon containing material that is found in tools or alongside tools

Stratigraphy- using the age of the layers of sediment surrounding the tool as an indicator of the age of the tool

Question 17

What is a pentadactyl limb?

Answer 17

A limb with five digits present in animals , birds, reptiles, and amphibians

Question 18

How does the pentadactyl limb provide evidence for evolution?

Answer 18

The presence of the pentadactyl limb suggests that all species which posses it have descended from a common ancestor

Question 19

What is classification?

Answer 19

The organisation of organisms into groups

Question 20

What is taxonomy?

Answer 20

The classification of organisms into a taxa: kingdom, phylum, class, order, family, genus, species

Question 21

Name the five kingdoms

Answer 21

Animals
Plants
Fungi
Protists
Prokaryotes

Question 22

What happens to the number of organisms in each taxon as you move down the hierarchy?

Answer 22

The number of organisms in each taxon group decreases

Question 23

Traditionally, organisms were grouped based on similarities and differences in their anatomy and behaviour. What is the problem with this?

Answer 23

Organisms that are not closely re,aged may look alike and behave similarly if they live in the same environment

Some closely related species look very different if they live in different habitat

Question 24

What advancements in science have led scientists to reconsider the five kingdoms classification system?

Answer 24

Microscopy
Biochemistry
DNA and RNA analysis

Question 25

Describe the three domains system of class

Answer 25

Organisms are initially dived into an extra three groups - archaea , bacteria , eukarya

Question 26

Which domain do eukaryotic organisms belong to?

Answer 26

Eukarya

Question 27

Which domain to prokaryotic organisms belong to?

Answer 27

Archea and bacteria

Question 28

Describe the domain bacteria

Answer 28

Consists of true bacteria - ecoli

Question 29

Describe the domain archea

Answer 29

Consists of primitive microorganisms

Contains extramophiles - adapted to live in extreme conditions

Question 30

What is selective breeding?

Answer 30

The process by which humans artificially select organs is with desirable characteristics and breed them to produce offspring with similar phenotypes

Question 31

Outline the main steps involved in selective breeding?

Answer 31

1. Identify a desired characteristic- disease resistance
2. Select a parent organisms that show the desired traits and breed them together
3. Select offspring with the desired traits and breed them together
4. Process repeated until all offspring have the desired traits

Question 32

What is the main advantage of selective breeding?

Answer 32

Creates organisms with a desirable features
- crops produce a higher yield of grain
- cows produce a greater supply of milk
- plants produce larger fruit
- domesticated animals

Question 33

Other than in agriculture, where else is selective breeding useful?

Answer 33

In medical, research
In sports - horse racing

Question 34

Outline the disadvantages of selective breeding

Answer 34

• reduction in the gene pool ( which becomes especially harmful if sudden environmental changes occurs )

Inbreeding results in genetic disorders

Development of other physical problems - respiratory problems in bulldogs

Potential to unknowingly select harmful recessive alleles

Question 35

How can plants be cloned?

Answer 35

Taking plant cuttings

Tissue culture

Question 36

What is tissue culture?

Answer 36

A method of growing living tissue in a suitable medium

Question 37

Describe how plants are grown using tissue culture

Answer 37

1. Select a plant that shows desired characteristics
2. Cut multiple small sample pieces from meristem tissue
3. Grow in a Petri dish contain g growth medium
4. Transfer to compost for further growth

Question 38

What must be ensured when preparing tissue cultures

Answer 38

Ensure aseptic conditions to prevent contamination by microorganisms

Question 39

What does growth medium contain ?

Answer 39

Nutrients and growth hormones

Question 40

What are the advantages of growing plants by tissue culture?

Answer 40

-Fast and simple process
-Requires little space
-Enables the growth of many plant clones with the same desirable characteristics
- useful in the preservation of endangered plant species

Question 41

What are the disadvantages of growing plants by tissue culture?

Answer 41

Reduction in the gene pool
Plant clones often have a low survival rate
Could unknowingly increase the presence of harmful recessive alleles

Question 42

Why is animal tissue culturing useful?

Answer 42

Useful in the preparation of tissue samples for medical research

Enables the investigation of how different factors may affect specific animal tissue without harming the animal itself

Question 43

Describe how animal tissue cultures are prepared

Answer 43

1. Extract a sample of tissue from an animal
2. Use enzymes to separate cells within the sample
3. Grow in a culture vessel containing growth medium
4. Once grown, store the sample

Question 44

What is genetic engineering?

Answer 44

The modification of the genome of an organism by the insertion of a desired gene from another organisms

Enables the formation of an organism with beneficial characteristics

Question 45

Describe the process of genetic engineering

Answer 45

1. DNA is cut at specific base sequences by restriction enzymes to create sticky ends
2. Vector DNA cut using the same restriction enzymes to create complementary sticky ends
3. Ligaments enzymes join the sticky ends of the DNA and vector DNA forming recombinant DNA
4. Recombinant DNA mixed with and taken up by target cells

Question 46

What is a vector ?

Answer 46

A structure that delivers the desired gene into the recipient cell - plasmid a , viruses

Question 47

Describe the benefits of genetic engineering

Answer 47

• increased crop yields for growing population - herbicide resistance , disease resistance
• useful in medicine e.g insulin producing bacteria, antthrombin in goats,milk
• GM crops produce scarce resources

Question 48

Describe the risks of genetic engineering

Answer 48

Long term effects of consumption of GM crops unknown

Negative environmental impacts e.g reduction in biodiversity, impact on food chain, contamination of non GM crops forming super weeds

Late onset health problems in Gm animals

GM seeds are expensive

Question 49

What is Bacillus thuringiensis ( Bt) ?

Answer 49

Insect larvae are harmful to crops
Bt is a bacterium which secrets a toxin that kills insect larvae

Question 50

How is genetic engineering used to protect crops against insects

Answer 50

• the gene for toxin production in Bt can be isolated and inserted into the DNA of crops
• Bt crops now secret the toxin which kills any insect larvae that feed on it

Question 51

What are the benefits of Bt crops?

Answer 51

Increase crop yield ( fewer crops damaged )
Lessens need for artificial insecticides
Bt toxin is specific to certain insect insect larvae so is not harmful to other organisms that ingest it

Question 52

What are the risks of Bt crops?

Answer 52

Long term effects of consumption of Bt crops unknown
Insect larvae may become resistant
Killing insect larvae reduces biodiversity

Question 53

Outline the agricultural methods of increasing food production

Answer 53

Intensive farming methods - battery farming and fertilisers and insecticides

Biological control

Question 54

What is the main advantage of intensive farming?

Answer 54

Increases crop yields

Question 55

What are the disadvantages of intensive farming methods?

Answer 55

Fertilisers can wash into nearby water sources and cause eutrophication

The use of herbicides and insecticide reduces biodiversity

Battery farming is often seen as unethical

Question 56

What is biological control?

Answer 56

When a new organism is introduced into an eco system to control a pest of pathogen

Question 57

What are the advantages of using biological control to increase food production?

Answer 57

The results of biological control generally last for a long period of time

The effects on wildlife are less sever

Question 58

What is the risk of using biological control?

Answer 58

Risk of the control organism becoming a pest