Bio 1B Spring 2008 Evolution section 1 of 3 Lecture 7 Updated 3 13 08 11 24 AM 7 Sex and sexual selection Reading 7th edition 468 469 6th edition 459 461 Recombination Diploid organisms The first step in sexual reproduction is the production of gametes each of which has half the chromosomes of the parent Chromosomes assort independent into gametes Mendel s second law Crossing over occurs within chromosomes creating chromosomes that differ from chromosomes in the parents Fertilization creates individuals that have genotypes different from either of their parents Siblings differ in genotype from one another Bacteria and viruses Although sexual reproduction occurs only in eukaryotes bacteria and viruses have other mechanisms that result in new combinations of alleles Sexual reproduction is an evolved trait There is great variety in modes of sexual reproduction Isogamy vs aniogamy isogamous species produce gametes of the same size and form anisogamous species produce gametes that differ in size and form Some fungi and algae are isogamous All other sexually reproducing species are anisogamous The sex that produces the larger gamete is defined to be the female Hermaphroditic individuals vs separate males and females most plants are hermaphroditic most animals have separate sexes Some hermaphrodites for example peas can self fertilize some for example slugs cannot Genetic vs environmental sex determination in humans as in many other species with separate sexes sex is determined by genotype In mammals XX individuals are female XY individuals are male In birds males are ZZ and females are ZW Other genetic mechanisms are found in other groups For example in bees ants and wasps males are haploid and females are diploid In some species of plants and animals sex is determined by the environment For example in most species of turtles and in all crocodilians the sex of an individual depends on the temperature of the egg during a critical period of development Usually males are produced when eggs are incubated at low temperatures and females are produced when eggs are incubated at higher temperatures Capable or incapable of asexual reproduction Some plants and animals can produce new genetically identical individuals by budding or fission Some plants can produce seeds asexually apomixis Some animals can produce diploid eggs asexually parthenogenesis Both apomixis and parthenogenesis result in offspring that are genetically identical to their mother Some species never engage in sexual reproduction For example several species of whiptail lizards including the endangered California species Cnemidophorus hyperythrus are comprised of females that reproduce only by parthenogenesis Bio 1B Spring 2008 Evolution section 2 of 3 Lecture 7 Updated 3 13 08 11 24 AM Many species including aphids can reproduce both sexually and asexually Typically they undergo several generations of asexual reproduction followed by one generation of sexual reproduction Do not confuse self fertilization with parthenogenesis or apomixis Self fertilization occurs when a female gamete is fertilized by a male gamete from the same individual Siblings produced by self fertilization have genotypes that differ from one another and from their parent In contrast offspring produced by parthenogenesis or apomixis are except for mutation identical to one another and to their parent Sexual modes of reproduction persist despite the two fold cost of sex Because sexual reproduction requires that equal numbers of sons and daughters be produced females who reproduce asexually will on average produce twice as many daughters as females who reproduce sexually This is the two fold cost of sexual reproduction The fact that many species retain the capacity for both sexual and asexual reproduction tells us that sexual reproduction could be eliminated by natural selection The question is why sexual reproduction persists One answer is that genetically diverse offspring are better able to survive in different conditions Sexual reproduction is often associated with dispersal as in Pilobolus mushroom discussed by Dr Feldman Dispersing individuals would be expected to encounter environmental conditions different from those experienced by their parents A second answer is that asexually reproducing species are not able to eliminate deleterious mutations as efficiently as sexually reproducing species Although completely asexual species have evolved they do not seem to be very successful and do not have large geographic ranges Sexual selection Darwin s theory of sexual selection explains sexual dimorphism Darwin recognized that some features of plants and animals cannot be explained by natural selection because they do not make species better adapted to their environments Instead sexually dimorphic characters such as the peacock s tail the antlers of a deer or the horn of a stag beetle seem to reduce chances of survival Darwin recognized that the struggle for existence was both a struggle to survive and a struggle to reproduce Darwin noted that sexual dimorphism was associated with male male competition and female choice In birds of paradise sexual dimorphism is associated with female choice The extravagant plumage of males serves no purpose other than being attractive to females Big horn sheep are an example of sexual dimorphism associated with male male competition The large horns of males are used in fights with other males Females mate with the winners Bio 1B Spring 2008 Evolution section 3 of 3 Lecture 7 Updated 3 13 08 11 24 AM Anisogamy explains Darwin s generalization that sexual dimorphism results from competition by males for females In anisogamous species many more male gametes than female gametes are produced The reproductive capacity of females is limited by their ability to produce eggs all the eggs they produce can be fertilized The reproductive capacity of males is limited by their ability to fertilize eggs not by the number of gametes they produce Therefore sexual selection results from a struggle among males for access to females Sample questions Which pair of words best fills the blanks in the following sentence Sexual selection results from competition between because of a species the struggle for existence b males anisogamy c females anisogamy d chromosomes polyploidy e alleles genetic drift Which statement best explains the two fold cost of sexual reproduction a There are twice as many males as females in sexually reproducing species b
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