270 likes | 462 Views
Lesson 9 the origin of species. Charles Darwin and the Origin of Species. Charles Robert Darwin(1809.02.12 - 1882.04.19), who is the father of the theory of origin of species. Background information. This article is about Charles Darwin's book.
E N D
Charles Darwin and the Origin of Species Charles Robert Darwin(1809.02.12-1882.04.19), who is the father of the theory of origin of species.
Background information • This article is about Charles Darwin's book. • It introduced the theory that populations evolve over the course of generations through a process of natural selection. Darwin's book was the culmination of evidence he had accumulated on the voyage of the Beagle in the 1830s and expanded through continuing investigations and experiments after his return.
Background information • In biology, evolution is the changes in the inherited traits of a population of organisms from one generation to the next. These changes are caused by a combination of three main processes: variation, reproduction, and selection. • Genes that are passed on to an organism's offspring produce the inherited traits that are the basis of evolution. These traits vary within populations, with organisms showing heritable differences in their traits.
Background information • When organisms reproduce, their offspring may have new or altered traits. These new traits arise in two main ways: either from mutations in genes, or from the transfer of genes between populations and between species. • In species that reproduce sexually, new combinations of genes are also produced by genetic recombination, which can increase variation between organisms. Evolution occurs when these heritable differences become more common or rare in a population.
Background information • Two major mechanisms drive evolution. • The first is natural selection, a process causing heritable traits that are helpful for survival and reproduction to become more common in a population, and harmful traits to become more rare. • This occurs because individuals with advantageous traits are more likely to reproduce, so that more individuals in the next generation inherit these traits. Over many generations, adaptations occur through a combination of successive, small, random changes in traits, and natural selection of those variants best-suited for their environment.
Background information • The second major mechanism is genetic drift, an independent process that produces random changes in the frequency of traits in a population. • Genetic drift results from the role probability plays in whether a given trait will be passed on as individuals survive and reproduce. Though the changes produced in any one generation by drift and selection are small, differences accumulate with each subsequent generation and can, over time, cause substantial changes in the organisms. This process can culminate in the emergence of new species.
Glossary • allopatric speciation 异域物种形成,异地物质形成 • [7AlE5pAtrik7spi:Fi5eiFEn] • Allopatric speciation: the new species arises from a population that is geographically separated • allo-或 all- [`AlEJ] (前缀),表示“分歧,不同”之义 • 其它的,不同的 allopatric.分布在邻近不同地区的 • 同分异构的 allocholesterol.异胆固醇
sympatric speciation • [sim5pAtrik 7spi:Fi5eiFEn] • 同域物种形成,同地物质形成,分布区重叠物质形成 • sym- pref (用在字母b, m, p之前) = syn- 表示“共, 合”之义 • synecology 群体生态学; • syncarp 合心皮果; • sympatric 同域的
polyploid [5pCli7plCid]n. 倍数体, 有多倍染色体adj.多倍体的
analogy[E5nAlEdVi] 相似,同功 • convergence [kEn`v\:dVEns] • n.集中, 收敛;(生物学)趋同 • convergent adj. • divergence [daI`v\:dVEns] • n.分歧;(生物学)趋异 • divergent adj.
homology [hC5mClEdVi]n. 同源性,同种性,同系性 • phalange[5fAlEndV]n.[解]指骨, 趾骨
evolution • convergent evolution • divergent evolution • parallel evolution
extinction[iks5tiNkFEn] • In biology and ecology, extinction is the cessation of existence of a species or group of taxa. The moment of extinction is generally considered to be the death of the last individual of that species.
macroevolution µevolution • macroevolution[7mAkrEu7evE5lu:FEn]//macro- • n.(动、植物的)宏(观)进化, 种外进化,大进化 • microevolution[`maIkrEJ9i:vE`lU:FLn]//micro- • n.微进化,种内进化 • Macroevolution is the origin of new taxonomic groups, as opposed to microevolution, which is genetic variation between generations within a species.
genetic drift遗传漂变 • Random fluctuations in the frequency of the appearance of a gene in a small, isolated population, presumably owing to chance rather than natural selection.
gene flow基因流动 • Transfer of genes from one population to another of the same species, as by migration or the dispersal of seeds and pollen.
phylogeny [faI`lCdVInI] 种系发生,系统发生,系统发育
reproductive isolation • An important concept in evolutionary biology, reproductive isolation is a category of mechanisms that prevent two or more populations from exchanging genes. • Reproductive isolation can occur either by preventing fertilization, or by the creation of a degenerate or sterile hybrid, such as the case with the common mule.
1 how biologists define a species • A species is a population or group of populations whose members have the potential to interbreed with one another and produce viable offspring, but who cannot produce viable offspring with other species.
The biological species concept is based on inter-fertility, rather than physical similarity.
Alternative concepts of species • a. Ecological species concept • - Species are defined by their use of environmental resources; their ecological niche (e.g. species that are defined by their food source such as butterflies with certain flowers). • niche 小生境,生物居所的特定区间
Alternative concepts of species • b. pluralistic species concept • - Factors that are most important for the maintenance of individuals as a species vary. These factors include reproductive isolation, i.e. not being in the same area so mating is precluded.
Alternative concepts of species • c. Morphological (形态学)species concept • - Species are characterized according to a unique set of structural features. This is still the most widely used concept by taxonomists(分类学家). • d. Genealogical species concept • genealogical[7dVi:njE5lCdVikEl]adj.宗谱的, 系谱的, 家系的 • - Recognizes species are sets of organisms with unique genetic histories. This idea is based often on molecular analyses such as DNA sequences.