1. Available at http://planet.uwc.ac.za/nisl/Eco_people/Presentations/ Evolution: Basic Principles Vanessa Couldridge Richard Knight http://en.wikipedia.org/wiki/Image:Origin_of_Species_title_page.jpg

2.   Evolution can be defined as: Changes in the traits of living organisms over generations   Traits are genetically determined, inherited characteristics What is Evolution? http://en.wikipedia.org/wiki/Image:Phylogenetic_tree.svg   Evolution is responsible for the diversity of life that we observe today

3.   Genetic variation is necessary for evolution to occur   Three main sources of genetic variation:   Mutation   Migration   Recombination Genetic variation

4.   A mutation is a change in the base pair sequence of genetic material   Usually occurs as a result of errors in DNA replication or repair   Ultimate source of all genetic variation   Mutations are random Mutation http://www.scq.ubc.ca/wp-content/uploads/2006/07/dna1.gif

5.   Migration occurs when individuals move from one population to another   Introduces new genes into a population Migration

6.   Genetic recombination occurs as a result of sexual reproduction   Has the effect of reshuffling genetic material to create new combinations of genes Recombination

7.   Traits will increase or decrease in a population as a result of either:   Genetic drift (random)   Natural selection (non-random) Changes in Trait Frequencies

8.   Random fluctuation of the frequency of a trait in a population over time due to chance events   Can lead to a trait either becoming fixed in a population, or disappearing completely   Beneficial traits do not guarantee an individual’s survival, they only improve its odds   Small populations are more vulnerable to drift Genetic Drift

9.   Natural selection is the evolutionary process whereby beneficial traits become more prevalent in a population Natural Selection   Proposed in 1859 by Charles Darwin in his book “The Origin of Species” “I have called this principle, by which each slight variation, if useful, is preserved, by the term Natural Selection” http://en.wikipedia.org/wiki/Image:Charles_Darwin_aged_51.jpg

10.   In order for natural selection to occur, there needs to be:   Variation in a trait   Differential reproduction   Heritability of the trait   This process results in adaptations – traits that help an organism to survive and reproduce in its environment Natural Selection http://en.wikipedia.org/wiki/Image:LeafInsect.jpg

11.   Peppered moth (Biston betularia) in England   Two morphs – Light and Dark Natural Selection: Example http://www.biology.iupui.edu/biocourses/N100/images/16melanism.gif Lichen covered tree Soot covered tree   Majority of the population originally of the light morph   Light morphs better camouflaged against lichen covered trees on which they rested   Industrial Revolution caused trees to blacken from air pollution   Dark morph was now better camouflaged against the black trees and increased in frequency

12.   Adaptations may be classified into the following types:   Structural, e.g. body shape, colour   Physiological, e.g. digestion   Behavioural, e.g. migration Types of adaptations

13.   Traits that are not necessarily adaptive may arise as the result of pleiotropy   Pleiotropy occurs when a single gene has more than one phenotypic effect Pleiotropy http://en.wikipedia.org/wiki/Image:WhiteCat.jpg   Natural selection may operate to increase the frequency of a trait, while the pleiotropic effects are carried along   For example, the gene that codes for white fur in cats also causes deafness

14.   Darwinian fitness is the number of viable offspring a particular genotype contributes to the population relative to other genotypes Fitness Higher Fitness Lower Fitness Generation 1 Generation 2

15.   Inclusive fitness encompasses not only conventional fitness (production of viable offspring), but also indirect fitness through relations   An individual increases its fitness by leaving behind genes in the population and those genes can belong to either direct or indirect descendents   Behaviours that benefit close relatives will be selected for Inclusive Fitness http://www.msu.edu/user/mueckeem/BGS.html   The closer the relation, the more genes are shared, and the more likely an individual is to act in an altruistic way   For example, Belding ground squirrels produce an alarm call to warn others of predators, and are more likely to do so when in the vicinity of a close relative

16.   Sexual selection is a type of natural selection   Characteristics that help an individual to obtain mates or copulate successfully are selected for Sexual Selection http://upload.wikimedia.org/wikipedia/commons/1/1c/Pfau_imponierend.jpg   It was put forward by Darwin as an explanation for the presence of characteristics that did not appear to be adaptations to the environment

17.   Result of unequal parental investment by the sexes   Males are usually limited by the number of partners they can mate with, whereas females are limited by the rate at which they can produce eggs or young   Females become a limited resource for which males must compete   There are two types of sexual selection:   Male-male competition (intrasexual selection)   Female choice (intersexual selection) Sexual Selection http://www.getreligion.org/archives/ovum-lg-thumb.jpg

18.   Males compete directly for access to females   Traits that help males to win contests with other males will be selected for Male-Male Competition http://www.ports.parks.ca.gov/?page_id=23700 http://upload.wikimedia.org/wikipedia/commons/b/b6/RedDeerCaithness.jpg

19.   Can take on more subtle forms in situations where females mate with more than one male   These include sperm competition, copulatory plugs, anti-aphrodisiac scents Male-Male Competition http://en.wikipedia.org/wiki/Image:Red_Postman.JPG   For example, male Heliconius erato butterflies leave a scent on females after copulation that acts as a deterrent to other males

20.   Females choose to mate with males having certain ornaments or behaviours   Traits that serve to attract females will be selected for Female Choice http://library.thinkquest.org/J002558F/birdofparadise2.jpg   Females may select males on the basis of:   Direct benefits   Indirect benefits

21.   Female’s choice of mate has an immediate benefit on her reproductive success   Females select mates that provide them with resources   Example: Male dance flies give females a nuptial gift (food) which she eats while he copulates with her Direct Benefits http://www.elkhornslough.org/journal/journalpix/050309dance-flies.jpg

22.   Used to explain the presence of male traits that are often detrimental to the survival of the male, e.g. bright colours that attract predators Indirect Benefits http://www.sergiosakall.com.br/index/antilophia-bokermanni-ciro-albano.jpg   Females select males on the basis of genetic benefits   Elaborate male traits can arise through either:   Runaway selection   “Good genes”   Sensory bias

23.   Proposed by R. A. Fisher in 1930   Genes for a male trait and genes for female preference for that trait are correlated   Both preference and trait become more exaggerated – leads to a runaway process   Male trait is arbitrary Runaway Selection http://virtuallaboratory.net/Biofundamentals/lectureNotes/AllGraphics/irish%20elk.jpg   The Irish elk is sometimes used as an example – became extinct because its antlers became too big and cumbersome

24.   Females select male traits that are a reliable indicator of a male’s superior genetic quality Good Genes http://en.wikipedia.org/wiki/Image:Male_common_pheasant.jpg   Example: There is a positive correlation between survival ability and the size of the spurs on the legs of male pheasants. Females selecting males on the basis of spur size are therefore selecting males that are stronger and healthier

25.   Females have a pre-existing sensory bias for a male trait before it arises in the population   When the trait arises by chance, females will preferentially mate with males that have it   Example: In swordtail fish, the preference for swords appears earlier in the phylogeny than male swords do Sensory Bias http://en.wikipedia.org/wiki/Image:Xiphophorus_helleri_02.jpg

26.   Co-evolution is when two or more species influence each other’s evolution   Occurs when species have close ecological relationships   Three types:   Mutualism   Competition   Predator-prey or parasite-host Co-evolution http://en.wikipedia.org/wiki/Image:Bombus_6867.JPG

27.   Beneficial relationship between species   Example: Clownfish and anemones protect each other from predators   Example: Ants receive food and shelter and acacia receives protection from herbivores Mutualism

28.   Species compete with each other for a limited resource Competition   They evolve ways to reduce or avoid the competition   Example: Five species of warbler in the same spruce forest feed at different heights and at different areas in the same tree http://en.wikipedia.org/wiki/Image:Capemaywarbler02.jpg

29.   One species (predator/parasite) evolves strategies to better exploit another species (prey/host), while the species being exploited evolves strategies to avoid the other species Predator-Prey / Parasite-Host http://en.wikipedia.org/wiki/Image:Anolemeal6127.jpg http://en.wikipedia.org/wiki/Image:MistletoeInSilverBirch.jpg

30.   Species continually adapt and counter-adapt in order to gain an advantage over the other   Example: Passiflora produces toxins in leaves to avoid herbivory Evolutionary Arms Race http://uts.cc.utexas.edu/~gilbert/teaching/zoo369/lec6graphics/sarauric.jpg http://uts.cc.utexas.edu/~gilbert/teaching/zoo369/lec6graphics/fakeggs.jpg caterpillars of certain butterflies overcome these toxins plant evolves spots on leaves that mimic eggs to deter egg laying

31.   Animals sometimes evolve bright colouration as a warning to predators that they are unpalatable   Predators learn to associate the bright colours with unpalatability and so avoid eating them Warning Colouration http://en.wikipedia.org/wiki/Image:Dendrobates_pumilio.jpghttp://en.wikipedia.org/wiki/Image:Micrurus_tener.jpg

32.   Mimicry occurs when a species evolves to look similar to another species or to the environment   Batesian mimicry: A palatable species mimics an unpalatable one   Aggressive mimicry: An animal resembles an object that attracts prey   Defensive mimicry: an animal mimics a dangerous organism   Müllerian mimicry: different unpalatable species converge on a particular colour combination Mimicry Drone fly mimics a bee Tongue lure in a snapping turtle

33.   Most monarch butterflies are unpalatable   Viceroy butterflies resemble monarch butterflies and some are palatable (Batesian mimicry)   However, some viceroy butterflies are unpalatable (Müllerian mimicry)   Some monarch butterflies are palatable (automimicry) Mimicry: Example http://en.wikipedia.org/wiki/Image:Monarch_Butterfly_Showy_Male_3000px.jpg Monarch butterfly http://en.wikipedia.org/wiki/Image:Viceroy_Butterfly.jpg Viceroy butterfly