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The Characteristics of Living Things

The Characteristics of Living Things. The Characteristics of Living Things. Great Complexity & Organization Composed of Cells Reproduction & Development Mechanism for Inheritance Metabolism & Homeostasis Interaction with the Environment Evolution (Adaptation).

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The Characteristics of Living Things

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  1. The Characteristics of Living Things

  2. The Characteristics of Living Things • Great Complexity & Organization • Composed of Cells • Reproduction & Development • Mechanism for Inheritance • Metabolism & Homeostasis • Interaction with the Environment • Evolution (Adaptation)

  3. Great Complexity and Organization • Living things are made of the same materials as everything else in the universe • are assembled into molecules • Living things are more organized , more complex • Living things require energy to carry out life processes

  4. The Hierarchy of Life • Atoms • Molecules • Organelles • Cells • Tissues • Organs • Organ Systems • Organisms • Populations • Communities • Ecosystems • Biosphere

  5. Atoms proton neutron electron hydrogen atom helium atom carbon atom 1p, 0n, 1e- 2p, 2n, 2e- 6p, 6n, 6e-

  6. Some Elements

  7. Simple Inorganic Molecules • Water (H2O) • Carbon Dioxide (CO2) • Molecular Oxygen (O2) • Ammonium (NH3) • Sodium Chloride (NaCl)

  8. Biological Compounds Categories: Carbohydrates Lipids Proteins Nucleic Acids

  9. Organic Building Block Molecules Simple Sugars (e.g., glucose: C6H12O6) Amino Acids (e.g., glycine: C2H5O2N) Nucleotide Bases (e.g., adenine: C5H5N4)

  10. Cell Organelles nucleus smooth ER mitochondria rough ER golgi

  11. Cells Nerve cell Osteocyte Muscle cell Blood cell

  12. Levels of Body Organization

  13. Organisms

  14. Populations

  15. Communities

  16. Ecosystems

  17. The Biosphere

  18. DNA molecule carbon atom organelle cell tissue biosphere ecosystem organ organ system community organism population Levels of Sturctural Organization

  19. Prokaryotic Cell

  20. Eukaryotic Animal Cell

  21. Eukaryotic Plant Cell

  22. Classification: Six kingdom system : Eubacteria Archaebacteria E. coli Cyanobacteria Protista Paramecium Diatom Slime mold Plantae Fungi Animalia

  23. Asexual Reproduction Coral polyp budding

  24. Sexual Reproduction

  25. Both Sexual & Asexual

  26. Development

  27. DNA Contains information for almost all cell activities

  28. Metabolism • The sum total of the chemical processes that occur in living organisms, resulting in growth, production of energy, elimination of waste material, etc. • Anabolism- build up of complex molecules • Catabolism- break down of complex molecules

  29. Cellular Respiration C6H12O6 + 6O2 6H2O + 6CO2 + energy

  30. Photosynthesis 6H2O + 6CO2 + light  C6H12O6 + 6O2

  31. Autotrophs • Organisms that make their own food (like plants, some protists, and some bacteria) • Plants capture energy from the sun, use water and carbon dioxide to make sugars and starches Photosynthesis Chemosynthesis

  32. Heterotrophs • Organisms that take in food to meet their energy needs • Animals must consume autotrophs (plants), and other heterotrophs to meet their energy needs

  33. Is a Coral a Heterotroph or Autotroph?

  34. Homeostasis • Maintenance of constant internal conditions in varying environments • Adaptation of organisms to specific environments

  35. Homeostasis Three big problems • Obtaining energy and nutrients • Maintaining temperature • Obtaining and holding onto water

  36. Body Temperature Regulation

  37. Temperature Control Ectotherms (Poikilotherms) • Generate body heat metabolically, but cannot maintain constant internal body temperature • Body temperature mimics the surrounding environment

  38. Ectotherms • Most ectotherms regulate their body temperature by • basking • moving between shade/sun • being active at certain times of day

  39. Temperature Control Endotherms (homeothermic) • Generate body heat metabolically and body temperature does not match the temperature of the surrounding environment • These organisms retain metabolic heat and can control metabolism to maintain a constant internal temperature

  40. Interaction with the environment • Living things interact with each other and with the environment • Ecology – the study of these interactions • Hawaiian Monk seals eat fish • Humans eat fish • What if something happened to the fish?

  41. Interaction with the Environment

  42. Evolution Change in the genetic composition of a population through time

  43. Evolution • Inherited change in the characteristics of organisms over time • Living things are slowly changing • Process ofnatural selectionresults in change over time • Organisms with favorable genes are more likely to survive, reproduce, and pass on those favorable genes

  44. Mechanisms Contributing to Evolutionary Change • Production of heritable variations • Natural Selection • Chance

  45. Heredity • Transmission of characteristics from parent to offspring • Instructions from parent to offspring are passed on in the form of genes

  46. Heritable variations Banding pattern Dwarfism Eye color Beak Depth Blood type

  47. Adaptations The structural, functional, and behavioral features that contribute to the success of a species.

  48. Natural Selection • Peppered Moths: study in England 1800’s More light than dark moths • Industrial pollution turned trees dark • Population shifted to mostly dark moths Peppered Moth Exercise http://www.techapps.net/interactives/pepperMoths.swf

  49. Natural Selection

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