1. Biology, 9th ed, Sylvia Mader
Chapter 24
Chapter 24
Evolution and Diversity of Plants
Evolution and Diversity of Plants

2. Outline Evolutionary History Nonvascular Plants Vascular Plants
Alternation of Generations
Nonvascular Plants
Vascular Plants
Seedless
Seed
Angiosperms
Monocots and Eudicots
Flowers

3. Evolutionary History of Plants
More than 98% of all biomass is plants
Multicellular photosynthetic eukaryotes
280,000 known species
Thought to have evolved from freshwater algae over 500 mya
Evolution of plants marked by four evolutionary events associated with four major groups of plants
Nonvascular Plants
Advent of nourishment of a multicellular embryo within the body of the female plant

4. Representatives of the Four Major Groups of Plants

5. Evolutionary History of Plants
Seedless vascular plants
Advent of vascular tissue
Gymnosperms and angiosperms
Produce seeds
Flowering Plants
Attract pollinators that give rise to fruits

6. Evolutionary History of Plants

7. Alternation of Generations
Life cycle involves alternation of generations
Multicellular 1n individuals (gametophytes) produce multicellular 2n individuals (sporophytes)
Multicellular 2n individuals (sporophytes) produce multicellular 1n individuals (gametophytes)
Sporophyte (2n):
Multicellular individual that produces spores by meiosis
Spore is haploid cell that will become the gametophyte
Gametophyte (1n):
Multicellular individual that produces gametes
Gametes fuse in fertilization to form zygote
Zygote is a diploid cell that will become the sporophyte

8. Alternation of Generations

9. Alternation of Generations
Appearance of generations varies widely
In ferns, female portions are archegonia and are fertilized by flagellated sperm
In angiosperm, female gametophyte (embryo sac), consists of an ovule
Following fertilization, ovule becomes seed
In seed plants, pollen grains are mature sperm- bearing male gametophytes

10. Reduction in the Size of the Gametophyte

11. Other Terrestrial Adaptations
Vascular tissue transports water and nutrients to the body of the plant
Cuticle provides an effective barrier to water loss
Stomata bordered by guard cells that regulate opening, and thus water loss

12. Protection of Eggs and Embryos

13. Leaves of Vascular Plants

14. Nonvascular plants (bryophytes)
Lack specialized means of transporting water and organic nutrients
Do not have true roots, stems, and leaves
Gametophyte is dominant generation
Produces eggs in archegonia
Produces flagellated sperm in antheridia
Sperm swim to egg in film of water to make zygote

15. Nonvascular Plants
Hornworts (phlym Anthocerophyta) have small sporophytes that carry on photosynthesis
Liverworts (phylum Hepatophyta) have either flattened thallus or leafy appearance
Mosses (phylum Bryophyta) usually have a leafy shoot, although some are secondarily flattened
Can reproduce asexually by fragmentation
Dependent sporophyte consists of foot, stalk, and sporangium

16. Hornwort

17. Liverwort, Marchantia

18. Moss (Polytrichum) Life Cycle

19. Xylem conducts water and dissolved minerals up from roots
Vascular Plants
Xylem conducts water and dissolved minerals up from roots
Phloem conducts sucrose and other organic compounds throughout the plant
Lignin strengthens walls of conducting cells in xylem
Most seedless vascular plants are homosporous
Windblown spores are dispersal agents
All seed plants are heterosporous and have male and female gametophytes
Seeds disperse offspring

20. Cooksonian Fossil

21. Vascular Tissue

22. Seedless Vascular Plants
Club Mosses (phylum Lycophyta)
Typically, branching rhizome sends up short aerial stems
Leaves are microphylls (have only one strand of vascular tissue)
Sporangia occur on surfaces of sporophylls
Grouped into club-shaped strobili

23. Club Moss, Lycopodium

24. Seedless Vascular Plants
Ferns and Allies
Horsetails (phylum Sphenophyta)
Rhizome produces tall aerial stems
Contains whorls of slender, green branches
Small, scalelike leaves also form whorls at the joints

25. Horsetail, Equisetum

26. Whisk Ferns (phylum Psilotophyta)
Branched rhizome has rhizoids
Mutualistic mycorrhizal fungus helps gather nutrients
Ferns (phylum Pterophyta)
Large conspicuous fronds
Divided into leaflets
Dominant sporophyte produces windblown spores

27. Whisk fern, Psilotum

28. Diversity of ferns

29. Fern Life Cycle

30. Seed plants are the most plentiful plants in the biosphere
Seed coat and stored food allow an embryo to survive harsh conditions during long period of dormancy
Heterosporous
Drought-resistant pollen grains
Ovule develops into seed

31. Seed Plants

32. Gymnosperms
Gymnosperms have ovules and seeds exposed on the surface of sporophylls
Confiers
Cycads
Ginkgoes
Gnetophytes

33. Conifers, as well as other gymnosperm phyla, bear cones
Tough, needlelike leaves of pines conserve water with a thick cuticle and recessed stomata
Considered a “soft” wood because it consists primarily of xylem tissue

34. Pine Life Cycle

35. Cycads (phylum Cycadophyta)
Large, finely divided leaves that grow in clusters at the top of the stem
Pollen and seed cones on separate plants
Pollinated by insects

36. Cycad Cones
Figure 24.19

37. Ginkgoes (phylum Ginkgophyta) Dioecious
Some trees producing seeds
Others producing pollen
One surviving species (Gingko biloba)

38. The Ginkgo Tree

39. Ephedra
Figure 24.21

40. Welwitschia miribilis

41. Gnetophytes (phylum Gnetophyta)
Have similarly structured xylem
None have archegonia
Strobili have similar construction

42. Angiosperms
Angiosperms (phylum Anthophyta)
An exceptionally large and successful group of plants
Ovules are always enclosed within diploid tissues
Became dominant group of plants in the late Cretaceous and early Paleocene periods

43. Amborella trichopoda

44. Two classes of flowering plants
Monocots and Eudicots
Two classes of flowering plants
Monocotyledones (Monocots)
One cotyledon in seed
Eudicotyledones (Dicots)
Two cotyledons in seed

45. Flower Diversity

46. Peduncle (flower stalk) expands at tip into a receptacle
The Flower
Peduncle (flower stalk) expands at tip into a receptacle
Bears sepals, petals, stamens, and carpels, all attached to receptacle in whorls
Calyx (collection of sepals) protect flower bud before it opens
Corolla (collection of petals)

47. Each stamen consists of an anther and a filament (stalk)
The Flower
Each stamen consists of an anther and a filament (stalk)
Carpel has three major regions
Ovary - Swollen base
Fruit
Style - Elevates stigma
Stigma - Sticky receptor of pollen grains

48. Generalized Flower

49. Flowering plant life cycle

50. Flowers and Diversification
Wind-pollinated flowers are usually not showy
Bird-pollinated flowers are often colorful
Night-blooming flowers attract nocturnal mammals or insects
Usually white or cream-colored
Fruits of flowers protect and aid in dispersal
Utilize wind, gravity, water, and animals for dispersal

51. Review Evolutionary History Nonvascular Plants Vascular Plants
Alternation of Generations
Nonvascular Plants
Vascular Plants
Seedless
Seed
Angiosperms
Monocots and Eudicots
Flowers

52. Biology, 9th ed, Sylvia Mader
Chapter 24
Ending Slide Chapter 24
Evolution and Diversity of Plants
Evolution and Diversity of Plants