Copyright © 2008 Pearson Education, Inc., publishing as Pearson Benjamin Cummings

PowerPoint® Lecture Presentations for

Biology Eighth Edition

Neil Campbell and Jane Reece

Lectures by Chris Romero, updated by Erin Barley with contributions from Joan Sharp

Chapter 29Chapter 29

Plant Diversity I:How Plants Colonized Land

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Overview: The Greening of Earth

• For more than the first 3 billion years of Earth’s history, the terrestrial surface was lifeless

• Since colonizing land, plants have diversified into roughly 290,000 living species

• Plants supply oxygen and are the ultimate source of most food eaten by land animals

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Overview: Multicellularity

• Advantages

• Multicellular organisms can be larger and operate more efficiently

• Cells are specialized to perform specific functions which benefit the whole organism

• Disadvantages

• Multicellular organisms need to coordinate the activities of their individual cells

• They are restricted in their exploitation of habitats because of their size.

Fig. 29-1

How did plants change the world?

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Concept 29.1: Land plants (Kingdom Plantae) evolved from green algae!!!!!!

• Green algae called charophytes are the closest relatives of land plants

• Lower plants and green algae have flagellated sperm that is similar in structure

• Homologous chloroplasts – chlorophyll b

• Mitosis/cytokinesis – similarities

• Genetic similarities in nuclear genes and rRNA

• Food reserves - starch

Copyright © 2008 Pearson Education, Inc., publishing as Pearson Benjamin Cummings

Concept 29.1: Land plants (Kingdom Plantae) evolved from green algae!!!!!!

• Multicellular, photosynthetic, and immobile, all plants have cellulose walls

• Because most plants cannot move around, obtaining light for photosynthesis and bringing gametes together for sexual reproduction have been dominant themes in their evolution.

• Plants originated in the sea, and some forms later colonized land. The most successful land plants have vascular tissues that transport food and water through the plant and support the body in the air.

• Most successful vascular plants have adaptations freeing their reproduction from dependence on water. (cuticle, stomates, reduced gametophytes that are dependent on sporophytes)

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Living on Land compared to Water

• Advantages

– More light

– Higher concentration of CO2

– Nutrients in soil• Disadvantages

- no support for plant body

- Less water available for reproduction

- Segregated resources (light and air above, water and minerals below soil surface)

- Extremes of temperature

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Derived Traits of Plants

• Four key traits appear in nearly all land plants but are absent in the charophytes:

– Alternation of generations (with multicellular, dependent embryos)

– Walled spores produced in sporangia

– Multicellular gametangia

– Apical meristems

• Additional derived traits such as a cuticle and secondary compounds evolved in many plant species

• Symbiotic associations between fungi and the first land plants may have helped plants without true roots to obtain nutrients

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Alternation of Generations and Multicellular, Dependent Embryos

• Plants alternate between two multicellular stages, a reproductive cycle called alternation of generations

• The gametophyte is haploid and produces haploid gametes by mitosis

• Fusion of the gametes gives rise to the diploid sporophyte, which produces haploid spores by meiosis. These spores germinate into gametophytes.

• The gametophyte produces gametes by mitosis.

• The gametes fuse for form a diploid zygote which grows into the sporophyte

• In the evolutionary history of plants, the sporophyte generation has increased in size, number of cells and complexity while the gametophyte has decreased in size, number of cell and complexity. In higher plants, the sporophyte is the dominant form.

Fig. 29-5a

Gametophyte(n)

Gamete fromanother plant

n

n

Mitosis

Gamete

FERTILIZATIONMEIOSIS

Mitosis

Sporen

n

2n Zygote

Mitosis

Sporophyte(2n)

Alternation of generations

Fig. 29-5c

Spores (haploid) Sporangium

Sporophyte (diploid) – produces haploid spores by meiosis

Longitudinal section ofSphagnum sporangium (LM)

Gametophyte (haploid)

Sporophytes and sporangia of Sphagnum (a moss)

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The Origin and Diversification of Plants

• Those ancestral species gave rise to a vast diversity of modern plants

• Land plants can be informally grouped based on the presence or absence of vascular tissue

• Most plants have vascular tissue; these constitute the vascular plants

• Nonvascular plants are commonly called bryophytes

• Seedless vascular plants can be divided into clades

– Lycophytes (club mosses and their relatives)

– Pterophytes (ferns and their relatives)

• A seed is an embryo and nutrients surrounded by a protective coat

• Seed plants form a clade and can be divided into further clades:

– Gymnosperms, the “naked seed” plants, including the conifers

– Angiosperms, the flowering plants

Fig. 29-7

Origin of land plants (about 475 mya)1

2

3

1

2

3

Origin of vascular plants (about 420 mya)

Origin of extant seed plants (about 305 mya)

ANCES-TRALGREENALGA

Liverworts

Hornworts

Mosses

Lycophytes (club mosses,spike mosses, quillworts)

Pterophytes (ferns,horsetails, whisk ferns)

Gymnosperms

Angiosperms

Seed

plan

tsS

eedless

vascular

plan

ts

No

nvascu

larp

lants

(bryo

ph

ytes)

Lan

d p

lants

Vascu

lar plan

ts

Millions of years ago (mya)

500 450 400 350 300 50 0

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Concept 29.2: Mosses and other nonvascular plants have life cycles dominated by gametophytes

• Bryophytes are represented today by three phyla of small herbaceous (nonwoody) plants:

– Liverworts, phylum Hepatophyta

– Hornworts, phylum Anthocerophyta

– Mosses, phylum Bryophyta

• Mosses are most closely related to vascular plants

Nonvascular plants (bryophytes)

Seedless vascular plants

Gymnosperms

Angiosperms

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Bryophytes - Mosses and other nonvascular plants have life cycles dominated by gametophytes

• The hapliod gametophyte is the dominant generation

• The sporphyte is dependent on the gametopyhte

• Must have water

• to reproduce so that the sperm can swim to the egg

• because no vascular tissue to carry water to plants parts, therefore, plants are always low to the ground

• Bryophyte sporophytes grow out of archegonia, and are the smallest and simplest sporophytes of all extant plant groups.

• Although bryophyte sporophytes are usually green and photosynthetic when young, they cannot live independently. They remain attached to their parental gametophytes, from which they absorb sugars, amino acids, minerals, and water.

Fig. 29-8-3

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)

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Life Cycle of Mosses - Animation

• http://www.sumanasinc.com/webcontent/animations/content/moss.html

Fig. 29-9d

Gametophyte

Seta

CapsuleSporophyte(a sturdyplant thattakes monthsto grow)

Polytrichum commune,hairy-cap moss

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The Ecological and Economic Importance of Mosses

• Moses are capable of inhabiting diverse and sometimes extreme environments, but are especially common in moist forests and wetlands

• Some mosses might help retain nitrogen in the soil

• Sphagnum, or “peat moss,” forms extensive deposits of partially decayed organic material known as peat – peat has long been a fuel source in Europe and Asia

• Sphagnum is an important global reservoir of organic carbon (good CO2 sink)

Fig. 29-10

RESULTS

With moss Without moss

An

nu

al n

itro

gen

lo

ss(k

g/h

a)

0

1

2

3

4

5

6

Fig. 29-11

(a) Peat being harvested

(b) “Tollund Man,” a bog mummy – acidic, oxygen-poor conditions preserve organisms

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Concept 29.3: Ferns and other seedless vascular plants were the first plants to grow tall

• Vascular tissue allowed these plants to grow tall

• Seedless vascular plants have flagellated sperm and are usually restricted to moist environments

Nonvascular plants (bryophytes)

Seedless vascular plants

Gymnosperms

Angiosperms

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Origins and Traits of Vascular Plants (xylem & phloem tissue)

• Living vascular plants are characterized by:

• Life cycles with dominant sporophytes, however, the gametophytes are photosynthetic and are not dependent on the sporophyte for nutrition.

• The gametophytes are tiny plants that grow on or below the soil surface

• Have roots that take up water from the soil and vascular tissue that transports it to leaves and stems up in the sunlight

• Must live in somewhat moist areas because their sexual reproduction still depends on water for flagellated sperm to swim in.

Fig. 29-13-3

Key

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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Transport in Xylem and Phloem

• Vascular plants have two types of vascular tissue: xylem and phloem

• Xylem conducts most of the water and minerals and includes dead cells called tracheids

• Phloem consists of living cells and distributes sugars, amino acids, and other organic products

• Water-conducting cells are strengthened by lignin and provide structural support

• Increased height was an evolutionary advantage

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Evolution of Roots

• Roots are organs that anchor vascular plants

• They enable vascular plants to absorb water and nutrients from the soil

• Roots may have evolved from subterranean stems

Evolution of Leaves• Leaves are organs that increase the surface area of vascular plants,

thereby capturing more solar energy that is used for photosynthesis

Fig. 29-15f

Athyriumfilix-femina,lady fern

25 c

m

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The Significance of Seedless Vascular Plants

• The ancestors of modern lycophytes, horsetails, and ferns grew to great heights during the Devonian and Carboniferous, forming the first forests

• Photosynthesis dramatically increased the removal of CO2 from the atmosphere

• Increased photosynthesis may have helped produce the global cooling at the end of the Carboniferous period

• The decaying plants of these Carboniferous forests eventually became coal

• Coal was crucial to the Industrial Revolution, and people worldwide still burn 6 billion tons a year.

• Ironic that coal, formed from plants that contributed to global cooling, now contributes to global warming by returning carbon to the atmosphere.

Fig. 29-16

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You should now be able to:

1. Describe four shared characteristics and four distinct characteristics between green algae and land plants

2. Explain why most bryophytes grow close to the ground and are restricted to periodically moist environments

3. Describe three traits that characterize modern vascular plants and explain how these traits have contributed to success on land

5. Explain how vascular plants differ from bryophytes