1. Chapter 23 Introduction to Plants

2. I. Establishment of Plants on land Plants probably evolved from multicellular aquatic green algae that could not survive on land

3. A. Absorb Nutrients On land, most plants take nutrients from the soil with their roots The first plants had no roots and probably formed symbiotic relationships with fungi to get nutrients from rocky surfaces

4. B. Prevent water loss A watertight covering called the cuticle reduced water loss The cuticle is a waxy layer that covers the nonwoody parts of a plant that are above ground Pores called stomata allow oxygen gas (O 2 ) and carbon dioxide (CO 2 ) to pass through the cuticle

5. C. Reproduce without water Aquatic algae reproduce sexually when sperm swim through water to fertilize eggs The sperm of plants must be able to move without water Pollen is a structure that encloses sperm to prevent them from drying out - pollen allows sperm to be carried by wind or animals rather than by water

6. II. Vascular Tissue, Seeds, and Flowers A. Advantages of conducting tissue The vascular system allowed for plants to grow larger and more complex The vascular system is composed of well- developed vascular tissues that distribute materials more efficiently Specialized cells in vascular tissue are connected end to end and transport water and nutrients within a plant

7. Plants with a vascular system are called vascular plants Plants without a vascular system are called nonvascular plants - three groups of plants today are nonvascular

8. B. Advantages of seeds Seeds contain the embryo of a plant Seed plants are vascular plants that produce seeds - make up largest part of plant population Seeds offer a plants offspring several survival advantages

9. 1. Protection A seed coat protects the seed from drying out and from mechanical injury or disease 2. Nourishment Most seeds have a supply of nutrients stored in them

10. 3. Plant dispersal Can be carried away from the parent plant by wind, water, or animals Prevents competition for water, nutrients, light, and living space between plants 4. Delayed growth Seeds can wait to sprout until conditions are most favorable

11. C. Advantages of Flowers The flower is a reproductive structure that produces pollen and seeds Flowers attract animals which can carry pollen directly from one flower to another

12. III. Plant Life Cycle In algae, the zygote is the only diploid (2n) cell - zygotes undergo meiosis right after fertilization so bodies of these algae are haploid (n)

13. In plants, meiosis is delayed after fertilization resulting in an alternation of generations between haploid and diploid plants

14. Summary: - haploid plants (gametophytes) make haploid gametes by mitosis - diploid plants (sporophytes) make haploid spores by meiosis

15. In nonvascular plants, the gametophyte (n) generation is dominant In vascular plants, the sporophyte (2n) generation is dominant

16. IV. The Vascular-Plant Sporophyte A. Vascular System The sporophytes of vascular plants have a vascular system with two types of vascular tissue

17. 1. Phloem Relatively soft-walled cells that transport organic nutrients 2. Xylem Hard-walled cells that transport water and mineral nutrients The thick walls of cells in the xylem help support the plant body - allows the plant to grow to great heights

18. B. Distinctive body form The part of a plant that grows mostly upward is called the shoot The part of a plant that grows mostly downward is called the root

19. Meristems are zones of actively dividing plant cells that produce plant growth

20. V. Kinds of Plants A. Nonvascular Plants Do not have a vascular system for transporting water and nutrients Lack true roots, stems, and leaves

21. 1. Key Features of Nonvascular Plants a. Small size Water and nutrients are transported short distances by osmosis and diffusion - this greatly limits the size of nonvascular plants

22. b. Larger gametophyte Hairlike projections called rhizoids anchor the gametophytes to the surfaces on which they grow Sporophytes grow on the gametophytes and depend on them for nutrients

23. c. Require water for sexual reproduction Eggs and sperm form in separate structures usually on separate plants Nonvascular plants must be covered by a film of water for sperm to swim to neighboring individuals to fertilize their eggs

24. 2. Kinds of nonvascular plants a. Mosses “leafy” green plant parts are gametophytes Most sporophytes grow from the tip of the gametophyte Most have a cuticle, stomata, and some simple conducting cells that carry water short distances

25. b. Liverworts The gametophytes are flattened and have lobes The sporophytes are very small and consist of a short stalk topped by a spore capsule Do not have cuticles, stomata, or conducting cells

26. c. Hornworts Gametophytes are green and flattened Sporophytes are green and hornlike Have cuticles and stomata but no conducting cells

27. B. Seedless Vascular Plants 1. Key features of seedless vascular plants Larger and more complex than nonvascular plants

28. a. Vascular system Contains both a xylem and phloem Develop true roots, stems, and leaves

29. b. Larger sporophyte Sporophytes are larger than the gametophytes Large spores are easier to disperse Water is needed for fertilization of eggs by sperm swimming to them c. Drought-resistant spores Spores have thickened walls that are resistant to drying

30. 2. Kinds of seedless vascular plants a. Ferns Have a rhizome, or underground stem, that is anchored by roots Leaves are called fronds Spores are produced in sporangia that grow in clumps on the lower sides of fronds Gametophytes are flattened, heart-shaped, green plants

31. b. Club mosses Have roots, stems, and leaves that branch from a rhizome Spores develop in sporangia that form on specialized leaves Some of these specialized leaves cluster together to form a structure called a cone

32. c. Horsetails Have roots, stems, and leaves that branch from a rhizome Stems are hollow and have joints Spores form in cones located at the tips of stems

33. d. Whisk ferns Highly branched stems No leaves or roots Spores produced in sporangia that form at the tips of short branches

34. C. Gymnosperms Seed plants whose seeds do not develop within a sealed container (a fruit)

35. 1. Key features of gymnosperms a. Seeds Protect plant embryos, provide them with nutrients, and permit them to survive unfavorable conditions

36. b. Greatly reduced gametophytes Two types of gametophytes (male and female) form within the tissues of sporophytes Grains of pollen are male gametophytes and develop in male cones Female gametophytes form within structures that become seeds and develop in female cones

38. c. Wind pollination Water is not required for fertilization allowing sexual reproduction in dry conditions

39. 2. Kinds of gymnosperms a. Conifers Leaves are either needle-like or reduced to tiny scales Berrylike structures are the female cones

40. b. Cycads Short stems and palmlike leaves - cones that produce pollen and those that produce seeds develop on different plants

41. c. Ginkgo Fan-shaped leaves Male and female gametophytes develop on separate trees Female seeds do not develop within a cone

42. d. Gnetophytes Diverse group of trees, shrubs, and vines Produce pollen and seeds in cones that resemble flowers

43. D. Angiosperms Produce seeds that develop enclosed within a specialized structure called a fruit

44. 1. Key features of angiosperms a. Flowers Male and female gametophytes develop within flowers Promotes pollination and fertilization more efficiently than do cones by attracting insects and animals

46. b. Fruits Promote seed dispersal as they are eaten by animals and dispersed as they pass undigested from the animals bodies

47. c. Endosperm A supply of stored food that is absorbed by the embryo before the seeds mature

48. 2. Kinds of angiosperms a. Monocots Flowering plants that produce seeds with one seed leaf Long, narrow leaves with parallel veins Flowers in multiples of 3

49. b. Dicots Flowering plants that produce seeds with two seed leaves Leaves have branching veins Flowers are in multiples of two, four, or five

51. VI. Plants as Food Plant parts contain organic nutrients (carbohydrates, fats, and proteins) and minerals (calcium, magnesium, and iron)

52. A. Fruits and Vegetables To a botanist, a fruit is the part of a plant that contains seeds A vegetative part is any nonreproductive part of a plant

53. B. Root Crops Crops that grow underground i.e. potatoes, carrots, radishes, turnups, beets, and cassava These vegetables are enlarged roots that store starch

54. C. Legumes Produce protein-rich seeds in long pods i.e. peas, peanuts, beans, and alfalfa

55. VII. Cereals Cereals are grasses that produce a dry fruit called a grain i.e. wheat, corn, and rice A grain is covered by a dry, papery husk called the bran which includes the wall of the ovary and the seed coat Rich in carbohydrates and contain protein, vitamins, and dietary fiber

56. VIII. Nonfood uses of plants A. Wood B. Medicines People have always used substances obtained from plants to treat a variety of ailments

57. 1. Foxglove Yields digitalis, a drug used to stabilize irregular heartbeats and to treat cardiac disorders

58. 2. Rosy periwinkle Original source of two cancer-treatment drugs – vinblastine and vincristine

59. C. Fibers Strands of cellulose in plant cell walls are ideal for making paper, cloth, and rope