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Seedless Reproduction Chapter 4

Seedless Reproduction Chapter 4. Mr. Patterson. What Is a Plant? Review. Multicellular eukaryotes that are photosynthetic autotrophs Cell walls made of cellulose Store surplus carbohydrates as starch Mostly terrestrial. Alternation Of Generations. Occurs in life cycle of all plants

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Seedless Reproduction Chapter 4

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  1. Seedless Reproduction Chapter 4 Mr. Patterson

  2. What Is a Plant?Review • Multicellular eukaryotes that are photosynthetic autotrophs • Cell walls made of cellulose • Store surplus carbohydrates as starch • Mostly terrestrial

  3. Alternation Of Generations • Occurs in life cycle of all plants • One generation is a multicellular haploid condition and the next is a multicellular diploid condition

  4. Gametes • Archegonia • Produce eggs • Antheridia • Produce sperm • When water is available, sperm swim to the eggs

  5. Moss Gametophyte

  6. Mosses with Sporophyte Growing on the Gametophyte

  7. Features of Vascular Plants • Dominate sporophyte • Specialized conducting cells: xylem and phloem • Distinctive body form • Meristem • Shoots • Roots

  8. Life Cycle of a Fern

  9. Sori Containing Sporangia

  10. Seedless Reproduction 2 The Fern Life Cycle • Fern spores are produced in structures called sori usually located on the underside of the fronds.

  11. Fern Gametophyte

  12. Archegonia Produce Eggs

  13. Fiddle Head

  14. Fern Sporophyte

  15. Section Check 2 Question 1 _______ plants do not have structures that transport water and substances throughout the plant. Answer The answer is nonvascular. Water and substances simply move from cell to cell in nonvascular plants.

  16. Section Check In this illustration of the fern life cycle, stage D shows the process of fertilization and the production of a _______. 2 Question 2

  17. Seedless Reproduction 2 The Fern Life Cycle • The life cycle of a fern is shown here.

  18. Section Check 2 Answer The answer is zygote. A zygote is the first cell of the new organism produced during fertilization.

  19. Section Check 2 Question 3 Seedless plants reproduce by forming _______. A. fronds B. rhizomes C. spores D. zygotes

  20. 3 Seed Reproduction The Importance of Pollen and Seeds • Oak, maple, and other shade trees are seed plants. • All flowers are produced by seed plants. In fact, most of the plants on Earth are seed plants. • How do you think they became such a successful group? Reproduction that involves pollen and seeds is part of the answer.

  21. Seed Reproduction 3 Pollen • In seed plants, some spores develop into small structures called pollen grains. • A pollen grain has a water-resistant covering and contains the male gametophyte or sperm cell and a tube nucleus.

  22. Seed Reproduction 3 Pollen • The pollen grain is carried by gravity, wind, water currents, or animals. • The transfer of pollen to the female part of the plant is called pollination.

  23. Seed Reproduction 3 Pollen • After the pollen grain reaches the female part of a plant, the tube nucleus produces a pollen tube. • The sperm moves through the pollen tube to the egg, then fertilization can occur.

  24. Seed Reproduction 3 Seeds • A seed consists of an embryo, endosperm or stored food, and a protective seed coat. Endosperm • The embryo has structures that eventually will produce the plant’s stems, leaves, and roots.

  25. Seed Reproduction 3 Seeds • The stored food provides energy that is needed when the plant embryo begins to grow into a plant. • A new plant can develop more rapidly from a seed than from a spore.

  26. Seed Reproduction 3 Gymnosperm Reproduction • Cones are the reproductive structures of gymnosperms. • Each gymnosperm species has a different cone. • The pine is a familiar gymnosperm.

  27. Seed Reproduction 3 Cones • A pine tree is a sporophyte plant that produces male cones and female cones. • Male and female gametophyte structures are produced in the cones but you’d need a magnifying lens to see these structures clearly.

  28. Seed Reproduction 3 Cones

  29. Seed Reproduction 3 Gymnosperm Seeds • Pollen is carried from male cones to female cones by the wind. • To be useful, the pollen has to be blown between the scales of a female cone. • If the pollen grain and the female cone are the same species, fertilization and the formation of a seed can take place.

  30. Seed Reproduction 3 Gymnosperm Seeds • It can take a long time for seeds to be released from a female pine cone. • From the moment a pollen grain falls on the female cone until the seeds are released, can take two or three years. Click image to view movie.

  31. Seed Reproduction 3 Angiosperm Reproduction • All angiosperms have flowers. • The sporophyte plant produces the flowers. • Flowers contain gametophyte structures that produce sperm or eggs for sexual reproduction.

  32. Seed Reproduction 3 The Flower • Most flowers have four main parts—petals, sepals, stamen, and pistil.

  33. Seed Reproduction 3 The Flower

  34. Seed Reproduction 3 Importance of Flowers • The appearance of a plant’s flowers can tell you something about the life of the plant. • Large flowers with brightly colored petals often attract insects and other animals.

  35. Seed Reproduction 3 Importance of Flowers • As they move about the flower, the animals get pollen on their wings, legs, or other body parts. • Later, these animals spread the flower’s pollen to other plants that they visit.

  36. Seed Reproduction 3 Importance of Flowers • Other flowers depend on wind, rain, or gravity to spread their pollen. • Their petals can be small or absent.

  37. Seed Reproduction 3 Angiosperm Seeds • The development of angiosperm seeds is shown here.

  38. Seed Reproduction 3 Seed Development • Seeds of land plants are capable of surviving unfavorable environmental conditions. • Immature plant 2. Cotyledon(s) 3. Seed coat 4. Endosperm

  39. Seed Reproduction 3 Seed Development • In the seeds of some plants, like beans and peanuts, the food is stored in structures called cotyledons. • The seeds of other plants, like corn and wheat, have food stored in a tissue called endosperm.

  40. Seed Reproduction 3 Seed Dispersal • Plants have many ways of dispersing their seeds. • Most seeds grow only when they are placed on or in soil. • They fall onto the soil from the parent plant on which they grew.

  41. Seed Reproduction 3 Seed Dispersal • In nature some seeds can be spread great distances from the parent plant. • Wind dispersal usually occurs because a seed has an attached structure that moves it with air currents.

  42. Seed Reproduction 3 Seed Dispersal • Animals can disperse many seeds. • Some seeds are eaten with fruits, pass through an animal’s digestive system, and are dispersed as the animal moves from place to place. • Attaching to fur, feathers, and clothing is another way that seeds are dispersed by animals.

  43. Seed Reproduction 3 Seed Dispersal • Water also disperses seeds. • Raindrops can knock seeds out of a dry fruit. • Some fruits and seeds float on flowing water or ocean currents.

  44. Seed Reproduction 3 Germination • A series of events that results in the growth of a plant from a seed is called germination. • Seeds will not germinate until environmental conditions are right.

  45. Seed Reproduction 3 Germination • Temperature, the presence or absence of light, availability of water, and amount of oxygen present can affect germination.

  46. Seed Reproduction 3 Germination • Germination begins when seed tissues absorb water. • This causes the seed to swell and the seed coat to break open. • Next, a series of chemical reactions occurs that releases energy from the stored food in the cotyledons or endosperm for growth.

  47. Seed Reproduction 3 Germination • Eventually, a root grows from the seed, followed by a stem and leaves.

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