chapter 19 plants man: ©g. r. "dick" roberts/natural sciences image library copyright ©...
TRANSCRIPT
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Chapter 19 Plants
Man: ©G. R. "Dick" Roberts/Natural Sciences Image Library
Copyright © McGraw-Hill Education. All rights reserved. No reproduction or distribution without the prior written consent of McGraw-Hill Education.
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Plants Have Changed the World
Section 19.1 Figure 19.1
Members of kingdom Plantae are nearly everywhere.
Snow: ©Design Pics/Carson Ganci/Getty Images RF; Prairie: ©Tetra Images/Tetra Images/Corbis RF; Forest: ©Ted Mead/Getty Images RF
Plants harness the energy that sustains ecosystems. They also release O2, which consumers use for respiration.
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Section 19.1
Highlights in the History of Plants
Figure 19.3
The presence or absence of vascular tissue, pollen and seeds, and flowers defines each plant group.
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Section 19.1
Highlights in the History of Plants
Figure 19.3
Bryophytes have no vascular tissue, seeds, or flowers. Mosses are bryophytes.
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Section 19.1
Highlights in the History of Plants
Figure 19.3
The origin of vascular tissue, which transports water and nutrients in the plant, allowed plants to grow taller. Taller plants reach
above their neighbors in the struggle for sunlight.
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Section 19.1
Vascular tissue consists of phloem and xylem. Phloem transports sugars. Xylem transports water.
Highlights in the History of Plants
Figures 19.3, 19.4Stem cross section: © Dr. John D. Cunningham/Visuals Unlimited
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Section 19.1
Lignin is a complex polymer that strengthens cell walls in vascular tissue.
Highlights in the History of Plants
Figures 19.3, 19.4Stem cross section: © Dr. John D. Cunningham/Visuals Unlimited
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Section 19.1
Highlights in the History of Plants
Figure 19.3
Modifications in vascular tissue led to the evolution of seedless vascular plants, like ferns.
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Section 19.1
Highlights in the History of Plants
Figure 19.3
The origin of seeds—dormant, protected plant embryos with a nutrient supply—was also adaptive. Seeds might travel far from the parent and only germinate when conditions are favorable.
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Section 19.1
Highlights in the History of Plants
Cone scale
Seed
Gymnosperms are plants with vascular tissue and seeds, such as pine trees.
Pine cones: © Westend61/Alamy RF Figures 19.3, 19.4
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Section 19.1
Highlights in the History of Plants
Figure 19.3
More recently, the origin of flowers and fruits introduced new reproductive adaptations. Angiosperms are flowering plants.
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Section 19.1
Highlights in the History of Plants
More recently, the origin of flowers and fruits introduced new reproductive adaptations. Angiosperms are flowering plants.
Seed containsembryo and its
food supply
Fertilized flowers develop into fruits that protect and
disperse seeds
Figures 19.3, 19.4Pea pods: ©Corbis RF
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Section 19.1
The plant life cycle is called alternation of generations, in which a multicellular diploid stage alternates with a multicellular haploid stage.
All Plants Have Similar Life Cycles
Figure 19.5
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Section 19.1
A zygote develops by mitotic cell division into a multicellular, diploid sporophyte.
All Plants Have Similar Life Cycles
Figure 19.5
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Section 19.1
The sporophyte produces haploid spores by meiosis.
All Plants Have Similar Life Cycles
Figure 19.5
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Section 19.1
Haploid spores divide by mitosis into a multicellular, haploid gametophyte.
All Plants Have Similar Life Cycles
Figure 19.5
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Section 19.1
The haploidgametophyte produces gametes by mitotic cell division.
All Plants Have Similar Life Cycles
Figure 19.5
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Section 19.1
These sex cells fuse at fertilization, forming a diploid zygote and starting the cycle anew.
All Plants Have Similar Life Cycles
Figure 19.5
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Section 19.1
The sporophyte and gametophyte shown in this generalized plant life cycle are those of a seedless vascular plant.
All Plants Have Similar Life Cycles
Figure 19.5
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Section 19.1
Substituting images in the alternation of generations produces diagrams of other plant life cycles.
All Plants Have Similar Life Cycles
Figure 19.21
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Section 19.2
Bryophytes Are the Simplest Plants
Figure 19.3
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Section 19.2
Bryophytes Are the Simplest Plants
Bryophytes are seedless plants that lack vascular tissue. They also lack true leaves and roots.
Figure 19.7Liverwort: ©Edward S. Ross; Hornwort: ©William E. Ferguson; Moss: ©Steven P. Lynch/The Mcgraw-Hill Companies
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Section 19.2
Bryophytes Are the Simplest Plants
Materials move from cell to cell within the plant by diffusion and osmosis.
Figure 19.7Liverwort: ©Edward S. Ross; Hornwort: ©William E. Ferguson; Moss: ©Steven P. Lynch/The Mcgraw-Hill Companies
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Section 19.2
Bryophytes Are the Simplest Plants
Examples of bryophytes include:
LiverwortsHornwortsMosses
Figure 19.7Liverwort: ©Edward S. Ross; Hornwort: ©William E. Ferguson; Moss: ©Steven P. Lynch/The McGraw-Hill Companies
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Section 19.2
Bryophytes Are the Simplest Plants
The bryophyte life cycle is an alternation of generations.
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Section 19.2
Bryophytes Are the Simplest Plants
Figure 19.9Bryophytes: ©Ed Reschke
Bryophyte life cycle overview
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Key
Haploid (n)
Diploid (2n) Protonemata(n)
“Bud”
“Bud”
Malegametophyte(n)
Femalegametophyte (n)
Gametophore
Rhizoid
Spores
Sporedispersal
Peristome
Sporangium
MEIOSIS SetaCapsule(sporangium)
Foot
Maturesporophytes
Capsule withperistome (SEM)
Femalegametophytes
2 m
m
Raindrop
Sperm
Antheridia
Egg
Archegonia
FERTILIZATION
(within archegonium)Zygote(2n)
Embryo
Archegonium
Youngsporophyte(2n)
Moss Life Cycle
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Section 19.3
Seedless Vascular Plants
Figure 19.3
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Section 19.3 Figure 19.10
Seedless Vascular Plants
Examples of seedless vascular plants include:
Lycopods (not shown)Whisk fernsTrue fernsHorsetails
Whisk fern: ©W. Ormerod/Visuals Unlimited; Horsetail: ©Ed Reschke; Beech fern: ©Rod Planck/Science Source
Seedless vascular plants have xylem and phloem but not seeds. These plants typically have true roots, stems, and leaves.
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Section 19.3
The seedless vascular plant life cycle is an alternation of generations.
Seedless Vascular Plants
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Section 19.3
Seedless Vascular Plants
Figure 19.11Spores: ©Ed Reschke/Peter Arnold/Getty Images; Fern gametophyte: ©Les Hickok and Thomas Warne, C-Fern
Seedless vascular plant life cycle overview
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Fern Life CycleKey
Haploid (n)
Diploid (2n)
MEIOSISSporedispersal
Sporangium
SporangiumMaturesporophyte(2n)
Sorus
Fiddlehead
Spore(n)
Younggametophyte
Maturegametophyte(n) Archegonium
Egg
Antheridium
Sperm
FERTILIZATION
Newsporophyte
Gametophyte
Zygote(2n)
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Section 19.4
Gymnosperms Are “Naked Seed” Plants
Figure 19.3
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Section 19.4
The sporophytes of most gymnosperms are woody trees or shrubs. Reproductive structures and leaf types are diverse.
Figure 19.12
Gymnosperms Are “Naked Seed” Plants
Cycad tree: ©Alena Brozova/Alamy; cycad seed: ©Pat Pendarvis; ginko tree: ©Light of Peace/Flickr/Getty Images RF; ginko seed: ©G. R. "Dick" Roberts/Natural Sciences Image Library; conifer tree: ©Jack Dykinga/Nature Picture Library; pine cone: ©Ed Reschke/Peter Arnold/Getty Images; ephedra: ©Gerald & Buff Corsi/Visuals Unlimited; ephedra reproductive structures: ©Edward S. Ross
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Section 19.4
Gymnosperms are divided into four groups:
Figure 19.12
Gymnosperms Are “Naked Seed” Plants
Cycads Ginkgo Conifers Gnetophytes
Cycad tree: ©Alena Brozova/Alamy; cycad seed: ©Pat Pendarvis; ginko tree: ©Light of Peace/Flickr/Getty Images RF; ginko seed: ©G. R. "Dick" Roberts/Natural Sciences Image Library; conifer tree: ©Jack Dykinga/Nature Picture Library; pine cone: ©Ed Reschke/Peter Arnold/Getty Images; ephedra: ©Gerald & Buff Corsi/Visuals Unlimited; ephedra reproductive structures: ©Edward S. Ross
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Section 19.4
Gymnosperm life cycle is an alternation of generations.
Gymnosperms Are “Naked Seed” Plants
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Section 19.4 Figure 19.13
Gymnosperms Are “Naked Seed” PlantsGymnosperm life cycle overview
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Microsporangium (2n)
Microsporocytes(2n)
Pollengrains (n)
Pollencone
Microsporangia
MEIOSIS
Maturesporophyte(2n)
Haploid (n)Diploid (2n)
Key
MEIOSIS
Survivingmegaspore (n)
Pollengrain
Megasporocyte (2n)
Ovule
Integument
Ovulatecone
FERTILIZATION
Pollentube
Femalegametophyte
Spermnucleus (n)
Egg nucleus (n)
Archegonium
Seedling
Seeds
Seed coat(2n)
Foodreserves(n)
Embryo(2n)
Megasporangium(2n)
Pine Life Cycle
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Section 19.5
Angiosperms Produce Seeds in Fruits
Figure 19.3
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Section 19.5
Today, most plant species have reproductive structures called flowers, which develop into seed-toting fruits.
Figure 19.16
Angiosperms Produce Seeds in Fruits
Red maple flower: ©Dwight Kuhn; cattails: ©Hans Reinhard/Okapia/Science Source; bee: ©McGraw-Hill Education; banana flower: ©Igor Prahin/Flickr Open/Getty Images RF
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Section 19.5
Flowers produce pollen and eggs; wind or animals usually carry pollen from plant to plant. Fruits protect the seeds and disperse them to new habitats.
Figure 19.16
Angiosperms Produce Seeds in Fruits
Red maple flower: ©Dwight Kuhn; cattails: ©Hans Reinhard/Okapia/Science Source; bee: ©McGraw-Hill Education; banana flower: ©Igor Prahin/Flickr Open/Getty Images RF
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Section 19.5
Variation in flowers and fruits is the result of millions of years of evolution.
Figure 19.16
Angiosperms Produce Seeds in Fruits
Red maple flower: ©Dwight Kuhn; cattails: ©Hans Reinhard/Okapia/Science Source; bee: ©McGraw-Hill Education; banana flower: ©Igor Prahin/Flickr Open/Getty Images RF
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Copyright © 2008 Pearson Education, Inc., publishing as Pearson Benjamin Cummings
Flowers
• The flower is an angiosperm structure specialized for sexual reproduction
• Many species are pollinated by insects or animals, while some species are wind-pollinated
• A flower is a specialized shoot with up to four types of modified leaves:
– Sepals, which enclose the flower
– Petals, which are brightly colored and attract pollinators
– Stamens, which produce pollen on their terminal anthers
– Carpels, which produce ovules
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Carpel
Ovule
Sepal
Petal
Stigma
Style
Ovary
Stamen Anther
Filament
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Section 19.5 Figure 19.14
Angiosperms Produce Seeds in Fruits
Scientists classify the diverse angiosperms into several taxa, notably the eudicots and monocots.
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Section 19.5
The angiosperm life cycle is an alternation of generations.
Angiosperms Produce Seeds in Fruits
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Section 19.5 Figure 19.15
Angiosperms Produce Seeds in FruitsAngiosperm life cycle overview
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Fig. 30-10-4
MEIOSIS
Key
MicrosporangiumMicrosporocytes (2n)
Generative cell
Anther
Tube cell
Pollengrains
Microspore(n)
Male gametophyte(in pollen grain)(n)
Mature flower onsporophyte plant(2n)
Haploid (n)Diploid (2n)
MEIOSIS
Ovule (2n)
Ovary
Megasporangium(2n)
Megaspore(n)
Female gametophyte(embryo sac)
Antipodal cells
Central cell
Synergids
Egg (n)
Pollentube
Pollentube
Stigma
Sperm(n)
Discharged sperm nuclei (n)
FERTILIZATION
Germinatingseed
Embryo (2n)Endosperm (3n)Seed coat (2n)
Seed
Nucleus ofdevelopingendosperm(3n)
Zygote (2n)Eggnucleus (n)
Style
Sperm
Angiosperm Life Cycle
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49
Figure 19.20