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6 Kingdoms of Life Part 2: Plants and Animals

6 Kingdoms of Life Part 2: Plants and Animals. Asexual vs. Sexual. Recall that a ll organisms reproduce either sexually or asexually Sexual- there is a combining of genes from 2 parents but NOT always with egg and sperm (meiosis followed by fertilization)

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6 Kingdoms of Life Part 2: Plants and Animals

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  1. 6 Kingdoms of Life Part 2:Plants and Animals

  2. Asexual vs. Sexual • Recall that all organisms reproduce either sexually or asexually • Sexual- there is a combining of genes from 2 parents but NOT always with egg and sperm (meiosis followed by fertilization) • Asexual- the offspring are reproduced by copying the DNA of one parent (binary fission or budding)

  3. Plant Kingdom • All plants are multicellular • Their cells have a cell wall--cellulose • Autotrophs-make own carbs for energy through photosynthesis • Can reproduce sexually, asexually, or both

  4. What Plants Need to Survive… Sunlight Water Vitamins/Minerals Gas Exchange (O2 and CO2) A method of transport to move water and other materials to all parts of plant.

  5. What Plants Need to Survive… • Phototropism- a method of homeostasis and response to a light stimulus in which the direction of growth is determined by the direction of the light source. • Can plants move?

  6. General Life Cycle Plants Two alternating phases: 1) Diploid Phase—2 copies of all genes (Sporophyte) -Sporophyte makes spores by meiosis. -Spores develop into gametophyte form of plant. 2) Haploid Phase– 1 copy of all genes (Gametophyte) -Gametophyte produces male and female gametes by mitosis—makes more haploid cells. -Gametes eventually join to form sporophyte.

  7. Alternating Phases: Plant Life Cycle

  8. Example of a Plant Life Cycle

  9. Evolutionary Trends and Plants… Ancestors of 1st plants were multicellular green algae. Plants have evolved specific adaptations to help them survive in a variety of different climates. There are four major groups of plants which are separated by three distinct features: Water conducting tissue (vascular). Seeds Flowers

  10. 4 Major Groups of Plants GYMNOSPERMS ANGIOSPERMS BRYOPHYTES PTERIDOPHYTES Green Algae Ancestor

  11. 1. Plant groups by vascular tissue NO VASCULAR TISSUE VASCULAR TISSUE • Bryophytes (Moss) • Pteridophytes (Ferns) • Gymnosperms (Cone bearing plants) • Angiosperms (Flowering plants)

  12. Vascular- internal transportation system • Xylem – water carrying tubes • Phloem – sugar carrying tissues • Enabled plants to evolve into larger specimens. • Pteridophytes (Ferns), angiosperms and gymnosperms are all vascular Vascular Plants

  13. Simplest of all land dwelling plants  • Bryophytes • Nonvascular (no “veins”)-lack an internal means for water transportation • Obtain/transfer water by osmosis • Grow moist, shaded areas • No true roots, leaves, stems • Rhizoids anchor plant to ground Nonvascular Plants

  14. 2. Plants Groups by Seeding NO SEEDS SEED PLANTS • Bryophytes (Moss) • Pteridophytes (Ferns) • Gymnosperms (Cone bearing plants) • Form seeds in “cones.” • Angiosperms (Flowering plants) • Form seeds inside of “flowers.”

  15. Seed Plants Seed plants do not require water for reproduction like mosses so can live in most environments Seed plants produce “pollen” which is the male gamete and ovaries (ovules) which are female Pollen is extremely small and light and is easily carried by wind or small animals

  16. Seeds Plant gametes: Egg and sperm (pollen) of plant join together to form seed Seeds are embryos of seed plants encased in a protective coating and surrounded by a food supply.

  17. Bryophytes • Do not produce seeds, but have egg • and sperm only which must meet to • form a new bryophyte. • Require water for fertilization to • transport gametes

  18. Pteridophytes (Ferns) No seeds—have egg and sperm join and produce spores Contain vascular tissue 1st true land plants

  19. Gymnosperms • Means “naked seed” • Oldest vascular, seed-producing plants

  20. Gymnosperms Seeds are exposed Most common are “conifers” (spruce, firs, pines, etc.). Most have needles instead of leaves. Most conifers are “evergreens” meaning they keep their needles (leaves) year round.

  21. Angiosperms - Means “enclosed seed” • Flowering • Most common of all land plants

  22. 3. Plant groups by flowers NO FLOWERS FLOWERS • Bryophytes (Moss) • Pteridophytes (Ferns) • Gymnosperms (Cone bearing plants) • Form seeds in “cones.” • Angiosperms (Flowering plants) • Form seeds inside of “flowers.”

  23. Flowers Angiosperms are the only flowering plants Flowers attract animals to support pollination (very efficient) Seeds develop inside ovary within a “flower” After “fertilization” seed within flower develops into “fruit” Angiosperms are typically classified in two groups: Monocots Dicots

  24. Life Spans of Angiosperms Annuals- survive one season Biennials- take 2 years to complete life cycle Perennials- live many years

  25. All animals are: • Multicellular: cells lacking a cell wall • Heterotrophs • Capable of movement at some point in their lives. • 95% of all animals are invertebrates Animalia Kingdom

  26. Criteria for Animal Classification • Skeletal Characteristics • Invertebrates -have a hard external skeleton made of chitin known as an exoskeleton • Vertebrates have a hard internal skeleton made of bone or cartilage

  27. Kingdom Phylum Class Order Family Genus SpeciesMajor phylums of animals are…

  28. More c omplex • Nine major phyla of animals: • Poriferans (sponges) • Cnidarians (jellyfish) • Flatworms (tapeworm) • Roundworms (heartworm) • Annelids (earthworm) • Mollusks (clam) • Arthropod (grasshopper) • Echinoderm (starfish) • Chordate (human) Invertebrates

  29. Porifera • Sponges • Invertebrates • Sponges are filter feeders and depend on the movement of water to obtain nutrients/oxygen • Digestion is intracellular –no stomach • Reproduce asexually by budding or sexually through egg and sperm

  30. Cnidarians • Jellyfish, corals, and other stingers. . . Their stinger is called a nematocyst • Invertebrates • Belizes coral reef

  31. Mollusks • Octopi, squid, clams, oysters, snails, slugs • Invertebrates • Reproduce sexually • Cool Octopus video

  32. Platyhelminthes (flat worms) • Tapeworms & Liver Fluke & Planaria • Hermaphrodites-fertilize their own sex cells internally then zygotes are released into water to hatch • Invertebrates • Sexual or asexual reproduction Human liver fluke

  33. Nematodes (roundworms) • Heartworms, hookworm, pinworms • One of the most diverse animal phyla • Many are parasites • Sexual reproduction

  34. Annelids (segmented worms) • Worms & leeches • Invertebrates • Worms mating

  35. Echinoderms • Starfish, sea urchins, sea cucumbers • They have a hard exoskeleton under their skin • Invertebrates

  36. Arthropods • Shell fish, arachnids & BUGS! • Invertebrates—have exoskeleton • Reproduce sexually

  37. Chordates • All other animals that have a backbone of some form • Vertebrates

  38. Trends in Animal Evolution • Complex animals tend to have… • Specialized cells and organs • Bilateral body symmetry • A definite head with sensory organs (cephalization) • A body cavity • Complex embryonic development

  39. Trend #1: Specialized Cells and Organs • The more complex the animal, the more “specialized” its cells become. • Cells  Tissues  Organs  Organ system. • Some animals have no organs!

  40. Trend #2: Body Symmetry • With the exception to sponges, every animal exhibits one of two types of body symmetry: • Radial symmetry • Bilateral symmetry

  41. Radial Symmetry • Imaginary plane can pass through a central axis in any direction

  42. Bilateral Symmetry • Single plane can divide the body into two equal halves • Animals with bilateral symmetry have a right and left side and usually have segmented bodies

  43. Trend #3: Cephalization • Animals with bilateral symmetry have a definite head • Cephalization is the concentration of sense organs and nerve cells in the anterior end (front end) of the body • Animals with this trait tend to respond in more complex ways to their environment

  44. Trend #4: Body Cavity Formation • Most animals have a body cavity in which all major organs are attached. This area is called a coelom • Provides room for organs to grow and expand • Less complex animals do not have this area. They are called acoelomates

  45. Trend #5 Embryo Development During gastrulation, cells begin to differentiate (specialize).

  46. Worms, mollusks, arthropods, etc.  Chordates and Echinoderms 

  47. Protostomes vs. Deuterostomes • In protostomes (worms, mollusks, and arthropods), blastopore develops into mouth. • In deuterostomes (echinoderms and chordates), blastopore develops into anus. • Three layers of embryonic cells (germ layers): • Endoderm – Develops into digestive and respiratory tracts. • Mesoderm – Develops into muscles, heart, sex organs, and kidneys. • Ectoderm – Develops into brain, sense organs, and skin.

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