Anthropology

1. Anthropology Chapters 1 & 2

2. What is Anthropology? From the Greek Anthropos = man Logos = study • Anthropology is the study of man

3. Fields of Anthropology Biological (Physical) Anthropology • Human paleontology a.k.a. paleoanthropology - studies the emergence and evolution of humans • Human variation studies why contemporary human populations vary biologically Cultural Anthropology • Archaeology - study of past cultures through material remains • Anthropological linguistics – study of languages • Ethnology – study of existing & recent cultures (How & why peoples today & in the recent past differ in their customary ways of thinking & acting e.g. marriage customs, political & economic systems, religion, music, etc… Ethnographers live in a population for at least a year observing their customs

4. How do we learn from hominids? • Experimentation * Physiological Science 1. How will a system respond to a disturbance? 2. Create the disturbance 3. Compare observations with expected results • Comparison * Evolutionary Science * Comparative anatomy * Molecular biology * Cell biology

5. Anthropological Evolution • The history of hominids (Present day & extinct)

6. Phylogeny • The history of hominid life depicted as a branching tree • Earliest hominids are placed at the trunk • Each branch represents a new species which inherits many traits from the ancestor but also has a new trait which appear for the 1st time

7. Phylogenetic Tree

8. Famous Quote “It is not the strongest of the species that survive, nor the most intelligent, but the one most responsive to change.” -Charles Darwin

9. Charles Darwin(1809-1882) • Born in England • Attended medical school, HATED IT, and dropped out to become a priest • Boarded the H.M.S. Beagle for a 5 year UNPAID journey as a naturalist

10. Journey of the H.M.S. Beagle

11. Alfred Russel Wallace(1823-1913) Presented a paper with identical ideas as Darwin on July 1, 1858 at the Linnaean Society meeting Was a botanist who came up with virtually the same concept of natural selection more or less independently through his studies on the Malay archipelago. Darwin panicked because he was not ready with his book yet!

12. Where did Darwin and Wallace get the idea of evolution?

13. Jean Baptiste Lamarck (1744-1829) • Lamarck claimed that evolution was driven by "use vs. disuse" • A used structure will become larger, stronger and more important. • A disused structure will atrophy and become VESTIGIAL.

14. The long necks of giraffes were due to their stretching for food, and giraffes passed their stretched necks on to their offspring. Similarly, the big, “ripped” muscles developed by the village blacksmith with all his hammering and slinging of heavy metal objects would be expected to be passed on to his offspring. Theory of “Use vs. Disuse”

15. Theory of “Acquired Characteristics” • Lamarck claimed that traits acquired during an organism's lifetime could be inherited by that organism's offspring.

16. Georges Cuvier(1769-1832) • Created Paleontology (The study of fossils) • He noted that deeper layers of sedimentary rock had diversity of organisms far different from present day life found in more recent layers • Proposed the idea of extinction based on fossils

17. James Hutton(1726-1797) • A Scottish geologist who challenged Cuvier's view in 1795 with his idea of GRADUALISM • Proposed that large changes in the earth's surface could be caused by slow, constant processes such as erosion.

18. Charles Lyell (1797-1875) • Earth processes had been going on constantly, and could explain the appearance of the earth. • This theory, uniformitarianism, was a strong basis for Darwin's later theory of natural selection.

19. Thomas Malthus(1766-1834) • Suggested that much of humanity's suffering (disease, famine, homelessness and war) was the inevitable result of overpopulation: humans reproduced more quickly than their food supply could support them. • Malthus showed that populations, if allowed to grow unchecked, increase at a geometric rate.

20. Darwin made some profound observations, from which he inferred some brilliant conclusions... • Observation #1. All species have huge potential fertility • Observation #2. Except for seasonal fluctuations, populations tend to maintain a stable size. • Observation #3. Environmental resources are limited.

21. Inference #1 • The production of more individuals than the environment can support leads to a "struggle for existence," with only a fraction of offspring surviving in each generation.

22. Observations • Observation #4: No two individuals in a population are exactly alike • Observation #5: Much of the observed variation in a population is heritable

23. Inference #2 • Survival in this "struggle for existence is not random, but depends, in part, on the hereditary makeup of the survivors. • Those individuals who inherit characteristics that allow them to best exploit their environment are likely to leave more offspring than individuals who are less well suited to their environment.

24. Inference #3 • Unequal reproduction between suited and unsuited organisms will eventually cause a gradual change in a population, with characteristics favorable to that particular environment accumulating over the generations.

25. SO WHAT IS THIS THEORY OF NATURAL SELECTION? It can be broken down into four basic tenets, or ideas

26. Theory of Natural Selection 1. Organisms are capable of producing huge numbers of offspring. 2. Those offspring are variable in appearance and function, and some of those variations are heritable.

27. Theory of Natural Selection 3. Environmental resources are limited, and those varied offspring must compete for their share. 4. Survival and reproduction of the varied offspring is not random. Those individuals whose inherited characteristics make them better able to compete for resources will live longer and leave more offspring than those not as able to compete for those limited resources.

28. Evolution • Theory - an accepted hypothesis that has been tested over and over again without yet being disproved • Definition - Evolution is the change in the overall genetic makeup of a population over time • Three Basic Componentsa.  Individuals cannot evolve.  Populations evolve.b.  Natural selection is the mechanism of evolution.c.  Evolution occurs by chance.

29. Evolution • Evolution is the genetic change in a population over time • Populations are a group of interbreeding individuals belonging to the same species and sharing a common geographic area • Natural selection favors individuals, so multiple generations must be examined

30. What is speciation and who studies it? • Speciation is the creation of a new species • Scientists who study the processes and mechanisms that lead to such speciation events are called EVOLUTIONARY BIOLOGISTS.

31. Allopatric Speciation • A population becomes physically separated from the rest of the species by a geographical barrier that prevents interbreeding.  • Because gene flow is disrupted by this physical barrier, new species will form.

32. Sympatric Speciation • Two populations are geographically close to each other, but they are reproductively isolated from each other by different habitats, mating seasons, etc.

34. Reproductive Barriers A reproductive barrier is any factor that prevents two species from producing fertile hybrids, thus contributing to reproductive isolation. • Habitat Isolation • Temporal Isolation • Behavioral Isolation • Mechanical Isolation • Gametic Isolation

37. Species • A SPECIES is a group of similar organisms that can mate to produce fertile, viable offspring. • Different species are, by definition, REPRODUCTIVELY ISOLATED from one another.

39. Adaptive Radiation • Adaptive Radiation - Evolutionary process in which the original species gives rise to many new species, each of which is adapted to a new habitat and a new way of life.  E.g. Darwin's Finches 

41. Adaptive Radiation of Hominids

42. Evidence for Evolution • HOMOLOGY is a characteristic shared by two species (or other taxa) that is similar because of common ancestry. • Artificial Selection Farmers had been conducting this controlled breeding of livestock and crops for years in order to obtain the most milk from cows or the best cobs from corn plants.

43. Evidence for Evolution • Paleontology - Study of Fossilsa.  Fossil - preserved evidence of past lifeb.  Radioactive Dating - method by which fossil age can be determined by the amount of organic matter remaining in the specimen.  This is possible because some substances break down at a known rate (half-life).

44. Types of homology • morphological homology – species placed in the same taxonomic category show anatomical similarities. • ontogenetic homology - species placed in the same taxonomic category show developmental (embryological) similarities. • molecular homology - species placed in the same taxonomic category show similarities in DNA and RNA.

45. MORPHOLOGICAL HOMOLOGY • Structures derived from a common ancestral structure are called: HOMOLOGOUS STRUCTURES

47. Comparison of Pelvis and Foot Bones

50. Ontogenetic Homology The human embryo has gills, a tail, webbing between the toes & fingers, & spends its entire time floating and developing in amniotic fluid has similar salt concentration as ocean water