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Classification

Classification. The evolution of Complexity: single cell prokaryote to multicellular eukaryotes. Aristotle to Linneaus. Taxonomy- classifying organisms, by placing them into taxa

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Classification

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  1. Classification The evolution of Complexity: single cell prokaryote to multicellular eukaryotes

  2. Aristotle to Linneaus Taxonomy- classifying organisms, by placing them into taxa Binomial nomenclature is the system of assigning a scientific name to each species. Made up of genus and species. Canis lupus, Turdismigratoris, Feliscatus Systematics- the study of biodiversity and its classification, create phylogenies Phylogeny- an organism’s evolutionary history, a phylogenetic tree

  3. Modern Classification System • 3 Domains • 6 Kingdoms • Phylum • Class • Order • Family • Genus • Species • 3 Domain Archea, Eubacteria, and Eukarya • 6 Kingdom Archeabacteria, Eubacteria, Protista, Fungi, Plant, Animal • GenusFirst part of Scientific name • SpeciesSecond part of Scientific name

  4. The Evolution of Complexity • Earth is approximately 4.5 billion years old • 1st living things, prokaryotic bacteria cells are found in the fossil record dating 3.5 billion years ago • 1st eukaryotic cells appear in fossil record dating 2.1 billion years ago • Between 635-530 million years ago the fossil record shows the diversity of algae and small animal like organisms

  5. Origin of Life • Spontaneous Generation: life from non-life was replaced with – Biogenesis • Oparin’s hypothesis of the origin of life was tested by Miller and Urey, creating organic compounds like amino acids but not life • Endosymbiosis- the hypothesis behind the evolution of eukaryotes from prokaryotes

  6. What is a Virus?- nonliving… Composed of genetic material, RNA or DNA, and a protein coat Genetic material surrounded by a protein coat, must have a host cell in order to reproduce Life cycles:Lytic (kills host cell) or Lysogenic (incorporates DNA into host)

  7. Human viral diseases Virus- disease • Flavivirus- Yellow Fever • HIV- AIDS • Herpes virus 3- Chicken pox • Filovirus- Ebola • Hepatitus B- Hepatitus • Influenza virus- Influenza or pneumonia • Epstien- Barr virus- Mono • Polio virus- Polio • Rhabdovirus- Rabies • Voriola virus- Smallpox • Paramyxovirus- Mumps

  8. 3 Domains • Archea • Eubacteria • Eukarya Bacteria once belonged to the same Kingdom, Monera, but through Molecular Biology and the study of evolution, Biologist realized they had critical differences and should be placed into their own category so the “Domain” classification level was created.

  9. 6 Kingdoms

  10. Archea and Eubacteria • Archea Kingdom All prokaryotic single celled organisms. No Peptidoglycan in cell wall Most ancient and extreme They live in the harshest environments Methanogens (anaerobic), thermoacidophiles (hot) and halophiles (salty) • Eubacteria Kingdom True bacteria, all prokaryotic single celled Have Peptidoglycan in cell wall Classified by their shape and gram staining Gram + have more peptidoglycan and stain purple Gram – have less peptidoglycan and stain pink

  11. Shapes and Examples • Sphere- Cocci, can occur in chains Streptococcus Pneumoniae which can cause strep throat or Scarlet fever, or grapelike clusters Staphylococcus aureus which can cause skin infections and Toxic Shock syndrome • Rod- Bacillus ex Escherichia coli (E.coli), Lactobacilli which can cause tooth decay or one strain makes Sourdough bread, other bacilli can cause botulism, typhoid fever, and anthrax • Spiral- Spirilla comes in 3 shapes 1. Vibro which is curved caused Cholera, 2. Spirillum (thick spiral), and 3. Spirochete (thin spiral) ex. Treponema pallidum causes Syphilis and another strain can cause Lyme disease

  12. Images of bacteria Syphilis and Cholera Strep- chain Staph - cluster E. coli

  13. Essential Bacteria: ecosystems depend on these small organisms • Cyanobacteria- photosynthetic/producers, building blocks of most aquatic food webs • Nitrogen- Fixing Bacteria- symbiotic relationship with plants, they help them absorb nitrogen from the soil. • Helpful: fermentation, digestion, biotechnology, nitrogen fixing, decomposers, oxygen producers • Antibiotics kill bacteria by destroying the cell wall, gram negative have an extra lipid layer that prevents the antibiotics from entering the cell.

  14. Reproduction • Bacteria reproduce asexually, binary fission • Each bacteria has a single chromosome but can have additional DNA in the form of plasmids. • Plasmids increase Bacterial genetic variation and contribute to Bacteria evolution • Plasmids can be exchanged between different bacteria (even different species) by a process called conjugation. • Plasmids can also be taken up by bacteria from their environment via transformation. • Additional DNA recombination can be introduced via a bacteriophage, this is called transduction.

  15. All bacteria: Reproduce asexually Single celled Have cell wall Single strand of DNA Some Bacteria: Autotrophic Heterotrophic Some move by flagella, slime, spiral motion Some produce endospores which allow them to go dormant during hostile conditions Some produce toxins Review of Bacteria

  16. Kingdom Protista • Kingdom of Mostly single celled organisms • Categorized by their likeness to 3 other kingdoms • All Eukaryotic some Autotrophic and some Heterotrophic

  17. Algae- Plant like Protist • Algae or Plant-like, Autotrophic, classified by pigment with no cell wall, come form elaborate colonies and multicellular structures (kelp and seaweed) • Chrysophyta- Golden Algae ex diatoms • Pyrrophyta- bioluminescent/glow ex. Dinoflagellates • Euglenaphyta- ex Euglena • Rhodophyta- red • Phaeophyta- brown, seaweed and kelp • Chlorophyta- green, ex Volvox, Spirogyra

  18. Images of algae • Volvox • Spirogyra • Red algae • Seaweed • Kelp • Diatoms

  19. Protozoa or Animal like Protist Protozoa or Animal-like, classified by mode of movement • Sarcodina ex. Amoeba- move by pseudopodia “false foot” • Ciliophora ex Paramecium- move by cilia, tiny hairs • Zoomastigina ex Trypanosoma (African Sleeping Sickness) moves by flagella • Sporozoa, are the parasitic animal like protista, include Plasmodium which causes Malaria

  20. Images of Protozoa • Amoeba • Paramecium • Trypanosoma

  21. Fungus-like Protista • Fungus-like are all Heterotrophic with no cell wall, absorbing nutrients directly through cell membrane • Include Plasmodium or Slime Molds and Downy Mildews

  22. Kingdom Fungi • All Eukaryotic, multicellular, heterotrophs (saprotrophs or detrivores living off dead and decaying organisms or decomposers), cell wall made of chitin (type of protein), and classified by reproductive structures. • Mycoses is the term for Fungal Infection, Fungus destroys the cells around the infection site, to fight fungal infection you have to destroy the cell wall • Fungi are important part of an ecosystem because they recycle nutrients/ decomposers

  23. Classifications of Fungi • Club Fungi – Basidiomycota , Basidia, ex Mushrooms • Sac Fungi- Ascomycota, Asci, ex. Truffles, Morels,Yeast, and Athletes Foot Fungus • Zygote Fungi – Zygomycota, Sporangia, ex. Bread molds • Imperfect- Deuteromycota, reproduce asexually, ex Penicillian • Lichen- Mycophycophyta, symbiotic relationship between fungus and photosynthetic cells of cyanobacteria or algae.

  24. Images of Fungi

  25. Kingdom Plante • Multicellular, Eukaryotic, Cell wall made of cellulose, Autotrophs, not capable of movement, reproduce sexually some produce spores and others seeds. • Most have vascular tissues which include roots, stems, and leaves, and specialized tissues called xylem and phloem.

  26. Plant evolution • Evolved from green algae, 400-450 mya • Evidence: they both… • Chlorophyll a, b, and carotenoids • Thylakoid membranes • Cell walls of cellulose • Stored carbohydrates as starch **Primitive plants were aquatic, but adaptations have allowed them to be successful on land.

  27. Plant evolution cont’d • Adaptations to terrestrial life • Cuticle (leaf)- keep water in • Stoma (leaf)- control gas exchange • Development of specialized tissues leaf, root, stem, root hairs, vascular tissue • Symbiosis with fungi and bacteria to increase nutrient uptake • Secondary growth- lateral meristem to thicken structures • Spores and seeds not dependent on water

  28. Basic Plant Anatomy • The leaf • Cuticle - Vascular bundles • Stoma - mesophyll

  29. Figure 10.20 A review of photosynthesis

  30. Photosynthesis relies on CO2 entering the leaf and O2 leaving the leaf Leaf surfaces contain stomata 18 µm Pore Stoma Guard cells

  31. Carbon dioxide diffuses into leaves through stomata H2O BUT: water also escapes through the stomata This is a PROBLEM! Leaf cross-section CO2

  32. Spore Producing Divisions of Plant 9 Phyla of Plants: can be divided into spore or seed producers Spore producers • Bryophytaonly nonvascular plants, ex moss and liverwort (gametophyte dominant stage of life cycle know as alternation of generations) • Lycopodophytaex. 1,000 species of Club and Spike moss • Pterophytes12,000 species of ferns, horsetails, and whisk ferns have compound leaves called fronds (dominant stage is the sporophyte)

  33. Spore producing plant images

  34. Seed producers • Gymnosperms: reproductive structure is the cone , “naked seed” • Cycadophyta 130 species of these tropical plants • Ginkgophyta 1 species remains the Gingko tree • Coniferophyta 600 species of conifers, pine, spruce, cypress, juniper, fir • Gnetophyta75 species of these arid/semi-desert dwelling plants

  35. Seed producers Angiosprems- reproductive structure is the flower, seeds are surrounded by fleshy or dry fruit that ripen to encourage animals to disperse the seeds. 30,000 or more identified species maple, hickory, oak, aloe, roses, tulips, dogwood, magnolia, corn, beans, tobacco, apple tree, pecan tree 2 classes: Monocots – with one seed leaf or cotyledon and parallel veins on the leaf, orchids, lilies, grass, corn, grains Dicots- with two seed leafs and branched veins on the leaf, roses, peas, beans, and oaks

  36. Seed producers- gymnosperms “Cone Bearers”

  37. Seed plants- Angiosperm

  38. Flowering Plant images • Produce flowers and fruits (fleshy or dry)

  39. Dry and Fleshy fruits • Fruit is the mature ovary of the flower. • It surrounds the seed and is often used to promote seed dispersal. • Animals eat the fruit and seed and poop it somewhere else, this reduces competition with the parent plant.

  40. Parts of a Flower • Pollination- fertilization of the female gamete by the male gamete • Flowers are designed to attract a pollinator, either by color, smell, or offer of food. • Birds, insects, and mammals act as pollinator

  41. Other Plant Info. Symbiotic relations ships: • Plants and Nitrogen fixing Bacteria • Flower patterns and scent attract pollinators • Fruits promote seed dispersal by offering a sweet reward to animals.

  42. Plant Adaptations: • Tropism- plant activities controled by hormones • phototropism (light), geotropism (gravity), and thigmotropism (touch) • specialized leaves (needles, spines, fuzzy, waxy) help reduce water loss in arid environments

  43. Animalia multicellular, eukaryotic, no cell wall, heterotrophs, capable of movement, reproduce sexually, body symmetry (radial or bilateral) 9 Phyla- 8 invertebrate and 1 vertebrate

  44. Invertebrate- Porifera • Porifera- two cell layers, collar cells w/flagella, filter feeders, ex. sponges

  45. Invertebrate- Cnidarian • Cnidarians- Stinging cells (nematocytes), radial symmetry, simple nervous system only stimulus and response, central cavity only one body opening, ex. jellyfish, coral, hydra, sea anemone

  46. Invertebrate- worms • Plathyhelmenthes: flat worms, only one body opening, three cell layers,ex. Tapeworm, Fluke, Planarian, Marine worms • Nematode: round worms, first with two body openings, 3 cell layers, many parasitic, Heartworm, Roundworm, Vinegar Eel • Annelid: segmented worms, two body openings, 3 cell layers, beginning of circulatory system, and digestive system (crop), ex. Earthworm and Leech

  47. Worm images • Plathyhelmenthes Nematode • Annelid

  48. Invertebrate Mollusk • soft body, more complex body systems developing, eyes and nervous system, levels of communication beyond stimulus and response 3 classes • Gastropod (snails and slugs), • Cephalopod (squid octopus cuttlefish and chambered nautilus), • Bivalve (oyster, clam, mussel, scallop)

  49. Mollusk images • Bivalves Gastropods Cephalopods

  50. Invertebrate- Arthropod • jointed legs, exoskeleton, body segments (head, thorax, and abdomen), metamorphosis (complete or incomplete) 4 classes: Insect -6 legs (ant, grasshopper, beetle, bee, wasp) Arachnid -8 legs (spider, tick, horseshoe crab), Crustacean -10 legs (shrimp, lobster, barnacles, crayfish) Myrapods -many legs, centipede and millipedes

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