variation and evolution

Question 1

how do organisms show variation in there phenotypes

Answer 1

• having different genotypes
• having the same genotype but different epigenetic modifications
• exposed to different environments

Question 2

how is variation heritable and how does it arise

Answer 2

■ Gene (point) mutations.
■ Crossing over during prophase I of meiosis.
■ Independent assortment during metaphase I and II of meiosis.
■ Random mating, i.e. that any organism can mate with another.
■ Random fusion of gametes, i.e. the fertilisation of any male gamete with any female gamete.
■ Environmental factors leading to epigenetic modi cations.
■ Environmental factors can also lead to non-heritable variation within a population, e.g. diet.

Question 3

what are the two types of variation

Answer 3

• continuous
• discontinuous

Question 4

what is countinuous variation give an examples

Answer 4

• height
• range of phenotypes seen
• controlled by many genes - polygenic
• follows normal distribution
• environmental factors have a major influence eg diet on weight

Question 5

what is discontinuosu variation and give an example

Answer 5

• characteristics fit into distinct groups
• no intermediates
• usually controlled by one gene with two or morre allels (monogenic)
• environmental factors have little influence eg diet has no effect on blood group

Question 6

what is the mean

Answer 6

measure of central tendency

Question 7

what is standard deviation

Answer 7

measure of variation in the data either side of the mean

Question 8

when do you see that difference are not due to chance

Answer 8

• t value exceed the critical value
• 0.05 probabiity and degrees of freedom (total number of observations - 2)

Question 9

selection pressure

Answer 9

an environmental factor that can alter the frequency of allels in a popu.ation when it is limiting

Question 10

natural selectio

Answer 10

the increased chance of survival and reproduction of organisms with phenotypes suited to their environment,
enhancing the transfer of favourable alleles from one generation to the next.

Question 11

give an example of how environmental influences affect the way the genotypes is expressed

Answer 11

• result in different phenotypes
• e.g. industrial melanism in the peppered moth Biston betularia.
• There are two forms of the peppered moth: speckled and dark (melanic). In polluted habitats where trees are covered with soot the dark form prevails,
• but in unpolluted habitats where lichens are found the speckled form is more common.
• In each instance the moth’s colour
  camouflages it against the environment conferring a selective advantage, so it
  is more likely to survive, and reproduce transmitting advantageous alleles to
  the next generation and so the numbers increase within the population.

Question 12

what are the two types of competition

Answer 12

intraspecific competition
interspecific comepetition

Question 13

what is intraspecific competition

Answer 13

• where members of the same species vie for the same resource in an ecosystem
• eg food , light , nutrients , availability of nesting sites

Question 14

what is interspecific competition

Answer 14

• where individuals of different species via for the ssamee resouce in an ecosystem
• different plant species competiting for water

Question 15

what is a selection pressure and competition lead to evolution

Answer 15

• different resouces being competed for act as a selection pressure therefore individuals with an advantage meaning
• they are more successful in gaining food and shelter are more likely to survive and pass those advantageous alleles onto the next generation
• increased chance of survival and reproduction of organisms with phenotypes suited to their environment is called natural selection and can lead to evolution

Question 16

gene pool

Answer 16

all alleles present in a population at a given time

Question 17

allele frequency

Answer 17

the frequency of an allele is its proportion fraction or percentage of all the alleles of that gene in a gene pool

Question 18

genetic drift

Answer 18

chance of variations in allele frequencies in a population

Question 19

what is population genetics and how is it influenced by environmental change

Answer 19

• population genetics considers the relative proportions of the different alleles of allele frequenciess within a gene pool
• if environment is stable then allele frequencis also remain stable
• however if enviornments change they bring different slection pressures which favour some alleles over others so their frequency increase

Question 20

what is genetic drift and how does it come about

Answer 20

• genetic drift is the change variations in the relative frequency of alleles in a population
• due to random sample (which alleles are inherites) and chance (than an individual may survive and breed)

Question 21

what does genetic drift lead to

Answer 21

• change in allele frequencies over time and is most significant in small or isolated populations where a change with consititute a much larger proportion of the population because the population is small and so it may be an important evolutionary process

Question 22

what happens to small number of individuals being isolated

Answer 22

• when a small number of individuals become isolated and start a new population say by colonising a new island the fouder members of a new population are a small sample of the population from which they orginated (the founder effect)and may be subjected to genetic drift
• seen in adaptive radiation seen in darwin’s finches on the galapagos islands

Question 23

founder effect

Answer 23

loss of genetic variation in a new population established by a very small number of individuals from a larger population

Question 24

what is the hardy wiengberg principle

Answer 24

states the idea conditions in which allele and genotype frquencies in a population are constant

Question 25

desctibe the idea conditions for which the hary wiengberg euqattion is true

Answer 25

* organisms are diploid have equal allele freqencies in both sexes reproduce secually , mating is random and generations don't overlap * the population size is very large and there is no migration, mutation or selection

Question 26

what are the two hardy weingberg equations

Answer 26

* p + q =1 * p2+2PQ +q2 =1

Question 27

species

Answer 27

a group of individuals with similar characterists that can interbreed to produce fertile offspring

Question 28

what is natural selection

Answer 28

* organisms overproduce offspring so there is a large variation of phenyotypes in a populatio * changes to environmental conditions bring new selection pressures through competition/predation/disease which results in a change in the allele frequency

Question 29

what is speciation and the two types

Answer 29

* evolution of new species from existing ones * allopatric speciation * sympatric speciation

Question 30

what is allopatric speciation

Answer 30

* involves geographical isolation which reproductivley isolates two sub groups (demes) within a population of the same species preventing gene flow between them * This is followed by exposure to different environmental conditions that favour different individuals within each deme. * After thousands of generations exposed to the differing conditions, allele frequencies within the demes change as a result of different mutations. * If the barrier is removed, the two populations have changed so much that they can no longer interbreed.

Question 31

what is sympatric speciation

Answer 31

* involves populations living together becoming reproductively isolated by means other than a geographical barrier, * e.g. behavioural isolation occurs in animals with elaborate courtship behaviours where members of a sub-species fail to attract the necessary response, e.g. sticklebacks.

Question 32

give examples of mechanisms of sympatric speciation

Answer 32

■ Seasonal (temporal) isolation where organisms are isolated due to reproductive cycles not coinciding and so are fertile at different times of the year. This is seen in frogs where each of four types has a different breeding season, e.g. wood frog, pickerel frog, tree frog and bullfrog. ■ Mechanical isolation as a result of incompatible genitalia. ■ Gametic isolation from the failure of pollen grains to germinate on stigma or sperm fail to survive in oviduct, e.g. fruit ies. ■ Hybrid inviability – embryo development may not occur.

Question 33

allopatric speciation

Answer 33

evolution of new species from demes isolated in different geographicl locations

Question 34

sympatric speciation

Answer 34

evolution of new species from demes sharing a geographical location

Question 35

what is hybrid sterlitiy

Answer 35

* results when two closely related species interbreed but due to differences in choromosome number of structure chromosomes fail to pair during prophase 1 of meiosis and so gametes do not from * resulting offspring are sterile

Question 36

what is evolution

Answer 36

* process by which new species are formed from pre existing ones over a long period of time

Question 37

what led to the theory of natural selection and darwininan evolution

Answer 37

darwins obserations of variation wihtin a populaion

Question 38

what is the process of natural selection

Answer 38

■ Organisms overproduce offspring, so that there is a large variation of genotypes in population. ■ Changes to environmental conditions bring new selection pressures through competition/predation/disease. ■ Only those individuals with bene cial alleles have a selective advantage, e.g. sandy colour of the fennec fox that lives in deserts of North Africa and Asia, which helps provide camou age, increasing their chances of survival. ■ These individuals then reproduce more successfully than those without the bene cial alleles. ■ Offspring are likely to inherit the bene cial alleles. ■ Therefore the bene cial allele frequency increases within the gene pool.