LEARNING OUTCOMES  Define the term variation.  Discuss the fact that variation occurs within, as well as between, species.  Describe the differences.

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LEARNING OUTCOMES  Define the term variation.  Discuss the fact that variation occurs within, as well as between, species.  Describe the differences between continuous and discontinuous variation, using examples of a range of characteristics found in plants, animals and other organisms.  Explain both the genetic and the environmental causes of variation.

 Give a definition of Variation Variation is the range of differences that there are between individual organisms.

Variation can be within species (Think of all the differences between individual humans) These carrot roots are different varieties of the same species

Or between species: Gorilla Proboscis monkey

Variation can be CONTINUOUS, ie have any value between two extremes. Eg: Height of human Body mass of cats Trumpet length of daffodils Leaf width of shrub Length of bacteria Continuous variables are measurable, quantitative characteristics All these features show normal distribution (see graph)

 Variation can be DISCONTINUOUS, in this case there only a few possible categories that the characteristic can fall into. It is a qualitative characteristic  EG: Flower colour in a single species Human blood group or ear lobe type Bacteria that are or are not resistant to an antibiotic

Genetic variation Each tomato is different because it comes from a plant with different alleles, that code for different characteristics Environmental variation These plants are genetically identical, the flower colour difference is due to the effects of soil pH.

GENETICENVIRONMENTAL Differences that are due to the DNA inside the cells of the organism rather than the effect that its surroundings have on it. Differences that are due to the external environment. For example availability of water, nutrients, light, prevailing winds.

 Many of the differences between species are present because they help the individuals to survive.  We call these differences ADAPTATIONS. You should understand that there are Adaptations to: ANATOMY or body FORM, PHYSIOLOGY or body FUNCTION BEHAVIOUR

SAGUARO CACTUS  How do these features help the cactus survive?  Accordion folded stem  Roots mostly less than 15cm deep but cover huge area  1 deep tap root  Leaves reduced to spines  Waxy cuticle  Stomata only open at night

 SAGUARO CACTUS  Accordion folded stem is fleshy and can expand to store water  Roots mostly less than 15cm deep but cover huge area and1 deep tap root  Can absorb 750 litres water in a single storm  Leaves reduced to spines to reduce transpiration rate  Waxy cuticle reduces transpiration  Stomata only open at night so reduces loss of water vapour during hottest part of day

 Adaptations of Marram Grass, a xerophyte  Thin walled cells cause leaf to roll when water is lost  Thick cuticle  Sunken stomata  Epidermal hairs What is the advantage of these adaptations? Explain how they work using AS vocabulary Make notes on the diagram provided

 Outline the behavioural, physiological and anatomical (structural) adaptations of organisms to their environments  You should be able to suggest several different types of adaptations of organisms that help them to survive.  Make note of some examples from the DVD  Choose one example from the DVD or page 213 of text book and research its adaptations further

 Explain the consequences of the four observations made by Darwin in proposing his theory of natural selection.  What are the 4 observations that Darwin made?

 Explain the consequences of the four observations made by Darwin in proposing his theory of natural selection.  What are the 4 observations that Darwin made?  1.Offspring generally appear similar to parents. (Why?)  2.No two individuals are identical. (Why not?)  3.Most organisms have the ability to produce large numbers of offspring  4.Populations in nature tend to remain fairly stable in size. (Why?)  SO what are the consequences?

 Because individuals over produce, yet populations remain stable COMPETITION must take place.  In COMPETITION there are “winners” and “losers”. Winners are better adapted with more useful characteristics, they are more able to survive and breed, so pass on their beneficial alleles (not genes!)  Over time when this happens continually, accumulated changes can give rise to a new species.

Outline how variation, adaptation and selection are major components of evolution. Differences in organisms  How do they arise?  Where do these changes happen?  How can they be passed on?

1. Variation in organisms characteristics are caused by the organisms having different alleles of genes. The different alleles arise through mutation 2. Some differences enable the organism to survive better (compete more successfully, what for?) 3. The ones with beneficial alleles survive, breed and pass on their alleles to the next generation 4. Those without beneficial alleles die before they reproduce (why?) so their alleles are less likely to be passed on. 5. The beneficial alleles increase in frequency in the population and may eventually produce a new species.  Produce a cartoon that represents this sequence

 Competition for food, water, minerals  Predation, grazing  Disease  Physical and chemical factors  Competition for mates  Competition for space, nesting sites, territory etc An allele that helps an organism compete better is “selected for”, increases in frequency An allele that fails to help an organism survive is usually “selected against”, decreases in frequency 

Darwin proposed that Natural Selection could lead to new species being produced over time. This was his explanation for the large number of different species of finch found in the Galapagos Islands. Each species has adaptations to its body, beak and feet that allow it to feed on specific types of food in specific areas.

 Speciation occurs when there is a “Reproductive Barrier”, some thing that stops members of an original population passing their alleles freely among all members  The barrier may be a geographical barrier = ALLOPATRIC speciation  The barrier may be behavioural, biochemical, or anatomical =SYMPATRIC speciation

 One large interbreeding population exists at the start of the process  Two isolated populations are created by the formation of a barrier - in this case, rising sea level.  Subsequent to their separation, the two populations diverge in response to differing selective pressures.  At this point, the two populations are proto-species.  They may diverge even further and become unable to interbreed at all.

 When there is NO geographical barrier  Initially individuals in the original species may have variations that can be divisive of the population.  Eg in birds some might have slightly: different shaped beaks  shorter wings,  better nocturnal vision,  different colour plumage or courting behaviour, etc

 Fossil record- simplest organisms in oldest rocks, old species extinct, new species develop. Reptile/bird link, horse evolution, human evolution.  Biochemical- Similar biochemistry of all living things, closely related species have similar biochemistry, the longer ago they diverged the more different the biochemistry.  Amino acid sequences in cytochrome c (used in respiration). Species with same amino acid sequences are closely related, the bigger the differences the less closely related they are and the further back they diverged  DNA and RNA polymerase are made of basic polypeptide chains in all organisms but higher organisms have extra sub units to help regulation of DNA and RNA production. Similar sub units can indicate closely related species  DNA differences are greater between species which are not closely related

Humans have about 75% of their DNA the same as Fruit Flies Humans have about 95% of their DNA in common with Chimpanzees

 The larger the number of differences between the 2 groups the further back in time they diverged.

 This evidence can be used to support decisions made about classification.  Phylogeny is the study of evolutionary relationships between organisms (p201)  Decisions are made using the criteria from the previous slide and other tests  Natural Classification groups organisms according to how closely related they are; this should match the evolutionary tree produced by considering how recently organisms shared a common ancestor.

© Pearson Education Ltd 2008 This document may have been altered from the original

 Variation amongst individuals (caused by mutations to genes) in a population means some are better adapted to survive the presence of these chemicals than others  The individuals able to survive in the presence of antibiotic or pesticide have beneficial alleles.  Those without the beneficial alleles die and do not reproduce  Those with the beneficial alleles reproduce and pass on their alleles to the next generation  Resistance in the population increases  The frequency of the alleles in the population changes

 Enzymes may break down the antibiotic/ pesticide/ toxin  Receptors for pesticide/ antibiotic/ toxin may be altered so binding no longer occurs  Membrane or body is less permeable to antibiotic/ pesticide/ toxin  Excretion rate of antibiotic/ pesticide/ toxin increases and keeps levels in cells too low to have an effect.

 F212 Jan 2010 Q3 parts c,d,e

 Old system-”Plants” and “Animals”  Plants included anything that wasn’t an animal! Not just photosynthetic organisms but also fungi and bacteria  Developments in microscopy and other techniques showed big differences in the structure and biochemistry of many organisms in the “plant” group that prompted changes to the classification system

 In 1969 Robert Whittaker proposed that living organisms should be divided into 5 “Kingdoms”  Prokaryotes/ Monera  Protoctista  Fungi  Plants  Animals  Look at important features of each kingdom and LEARN! Page

 Make a table to include the following features of each kingdom:  Nucleus  Cell walls  Organelles and microtubules  Type of nutrition  Motility (ability to move themselves)  Nervous co-ordination  Give an example of an organism from each kingdom

FeaturesKingdoms ProkaryoteProtoctistaFungiPlantsAnimals Nucleus Cell wall Present? Made of? Organelles + microtubule Type of nutrition (auto/hetero) Motility Nerves co- ordination Examples

FeaturesKingdoms ProkaryoteProtoctistaFungiPlantsAnimals NucleusnoyesYesyes Cell wall Present? Made of? Yes, made of peptidoglycan Sometimes present Yes, made of chitin Yes, made of cellulose no Organelles + microtubule noyes Type of nutrition (Auto/hetero) Autotrophic or heterotrophic HeterotrophicAutotrophicHeterotrophic MotilitySome have flagella Some have undulipodia or cilia no Yes, muscular tissue Nerves co- ordination no yes ExamplesBacteria and cyanobacteria Algae, slime moulds, paramecium Mould fungi, yeast Liverworts, mosses, ferns, conifers, flowering plants Jellyfish, corals, worms, insects, vertebrates

 Divisions of the Kingdoms into “taxa” (classification groups/levels). See pages  Kingdom  Phyla  Class  Order  Family  Genus  Species Make up a mnemonic for KPCOFGS  The Genus and species give us the binomial Latin names of organisms Eg Homo erectus, Pongo pygmaeus

 See pages

 As more and more information has become available scientists have considered reorganising classification into 3 “Domains” which are then divided further  1990 Carl Woese suggested the following domains  Bacteria (Eubacteria-true bacteria)  Archae (Archaebacteria- ancient bacteria-like organisms)  Eukaryote