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Chapter 14- Origin of Species • • • • • • • • • • • Adaptive radiation Allopatric speciation Behavioral isolation Biological species concept Ecological species concept Gametic isolation Genealogical species concept Gradualist model Habitat isolation Hybrid breakdown Hybrid inviability • • • • • • • • • • Hybrid sterility Mechanical isolation Morphological species concept Polyploidy cells Punctuated equilibrium Reproductive barrier Speciation Sympatric speciation Taxonomy Temporal isolation Something to remember: • Most of the time evolution is gradual, sometimes though it can be observed over several generations Speciation • Evolution of a new species – Biological species conceptpopulation or group of populations whose members can interbreed and produce fertile offspring • Ring species- forms a ring around geographic feature (may cause speciation) Speciation con’t – Morphological species concept- classify species by measureable phenotypic traits – Genealogical species concept- defines species by a set of organisms with unique genetic history – Ecological species concept- idendifies by ecological niche (role in env) Reproductive barriers • Keep species separate • Can cause speciation – Ex: mosquitoes in London Underground Prezygotic reproductive barriers • Prevents mating • Temporal isolation- mating/flowering occurs at different times/seasons • Habitat isolation- populations live in different habitats and don’t meet • Behavioral isolation- no attraction between sexes • Mechanical isolation- genitalia structure/flowers differs, prevents copulation • Gametic isolation- gametes die before uniting Postzygotic reproductive barriers • Prevents development of fertile adults • Hybrid inviability- zygotes fail to develop or reach sexual maturity • Hybrid sterility- don’t produce functional gametes • Hybrid breakdown- offspring of hybrids are weak or infertile Geographic isolation • Causes speciation • Allopatric speciation • Ex: lakes dry up into smaller lakes, fish can’t move from one to another • Ring species sometime end up as new species • Occurs when gene pool changes to create a reproductive barrier • More likely to happen in small, isolated pop’s Geographic isolation con’t • Galapagos finches • Adaptive radiation- evolution of many species from a common ancestor due to new environments Sympatric speciation • Reproductive isolation develops and new species arise without geographic separation – Widespread in plants • Accident in meiosis produces cells with extra chromosome sets • Polyploid cells- cells that has more than 2 sets of chromosomes • 2n gametes can self-fertilize and produce a 4n plant • Production of a 4n cell is an instant speciation event, because it now can’t reproduce with parent species – Ex: strawberries • 2n gamete fused with 1n gamete produces 3n which is sterile b/c odd chromosomes can’t form homologous pairs Sympatric speciation con’t – Chemicals can be used to induce these errors to hybridize plants • Ex: yield of wheat with resistance of rye – Polyploid crops: oats, potatoes, bananas, peanuts, barley, plums, apples, sugarcane, coffee, wheat, cotton, strawberries – 25-50% of plant species are polyploid Tempo of speciation Tempo of Speciation con’t • Gradualist- populations evolve gradually as they become adapted to new environments – Very few fossil sequences show the steady accumulation of small changes • Punctuated equilibrium- long periods of little change with abrupt episodes of speciation • * although evolution is jumpy when viewed as a whole its relatively steady