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Life Cycle Summary Diploid Life cycle Haploid Life cycle Alternation of Generations Yes Yes Yes Yes Yes Yes Yes Yes Yes Mitosis after meiosis? No Yes Yes Mitosis after fertilization? Yes No Yes Multicellular diploid stage? Yes No Yes Multicellular Haploid Stage? No Yes Yes Mitosis? Meiosis? Fertilization Evolution: Classically: A change in the relative frequencies of heritable traits within a population across generations Relative frequency: 50% Tall plants 50% Short plants 55 generations later 25% Tall plants 75% Short plants Modern: A change in the distribution of relative frequencies of genes (which code for heritable traits) within a population across generations Requirements for Evolution to occur: Variation in traits [via genes (alleles)] Heredity Darwin’s Observations Biogeography: species are distributed in distinct clumps across the globe Biogeography: species are distributed in distinct clumps across the globe Fossils Evidence of organisms no longer present Evidence that many living organisms were not present in the past. Loxodonta africana (African savannah Elephas maximus elephant) (Asian elephant) Today 10,000 years ago 2 million years ago Mammut (mastodon) Stegodon Deinotherium 5.5 million years ago 24 million years ago Moeritherium Bary-therium 34 million years ago Mammuthus (mammoth) Platybelodon Agriculture: Selective breeding Agriculture: Selective breeding Plate tectonics Cenozoic About 250 million years ago Eurasia India South America Laurasia Mesozoic Plate movements and geological studies indicated the earth was older than the estimated 6,000 years Paleozoic Madagascar Antarctic Millions of years ago Africa Figure 14.20 Economics: Competition for resources and the effects of overpopulation Struggle for existence Evolution by Natural Selection (a mechanism of evolution) Population level: If variation exists and If variation is heritable and If differential reproduction (differential selection) exists Then over time, those variations that enhance the ablitiy of the organism to reproduce will increase in any population Mutation occurs in the trait Mutation directly changes gene frequencies An example of a spontaneous mutation during the development of plant leaves For evolution to occur via this mechanism, what has to be true of the mutation? The mutation has to be heritable The mutation of fruit flies with four wings is an inherited mutation The population size is small Genetic drift – random fluctuations in the allele frequencies Only 5 of 10 plant s leave offspr ing Generation 1 p (frequency of R) = 0.7 q (frequency of r) = 0.3 Only 2 of 10 plants leave offspri ng Generation 2 p = 0.5 q = 0.5 Generation 3 p = 1.0 q = 0.0 Gene flow Immigration or emigration occurs based on the trait Sexual Selection Mating is non-random in the population with respect to the trait Which mechanism leads to adaptation to the environment? Natural selection: Adaptations are traits that increase the probability that an organism will survive and reproduce in the current environmental conditions. What is an adaptation? A heritable characteristic of an organism that helps it to survive and reproduce in a particular environment. Mimicry of a poisonous animal will increase the probability of survival and survival until the organism is able to reproduce Example: Marine Iguana Adaptations do not have to be one trait, they can be a suit of traits “The guanas are small, and of a sooty black, which, if possible, heightens their native ugliness. Indeed, so disgusting is their appearance, that no one on board could be prevailed on, to take them as food.” Captain James Colnett (1798) Flattened tail – aids in swimming Salt gland – Allows drinking of salt water Long, sharp claws – Aid in clinging to rocks Diving adaptations. While diving they: Reduce blood flow to body surface- helps retain heat Lower metabolic rate – conserves O2 Adaptation refers to traits that are heritable Acclimation: Changes in the structure or physiology of an individual over its lifetime Examples: Increasing muscle mass via weightlifting High altitude acclimation: Organizational level evolution occurs? Living organisms display a natural hierarchy of organization and emergent properties that are more than the simple sum of their parts Atoms lead to Molecules, which lead to Organelles, which are arranged within Cells, which make up Tissues, which make Organs, which form Organ systems, which together make an Organism, which is part of a Population within a Community in an Ecosystem, the largest of which is the Biosphere (=Earth)
