PLANTS and the Conquest of Land
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Transcript of PLANTS and the Conquest of Land
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Copyright (c) The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
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CHAPTER 30
PLANTS AND THE
CONQUEST
OF LAND
Prepared by
Brenda Leady, University of Toledo
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Eukaryotic, primarily photosynthetic organisms that mostly live on land and display many adaptations to life in terrestrial habitats
Most likely evolved from aquatic algal ancestors
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Ancestry
Monophyletic kingdom Probably originated from a single common
protist ancestor Either Chara or Coleochaete are modern
protists most closely related to ancestry of land plants
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10 plant phyla
Liverworts Hornworts Mosses Lycophytes Pteridophytes Cycads Ginkgos Conifers Gnetophytes Angiosperms
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Bryophytes
Include liverworts, hornworts, and mosses Monophyletic phyla Share common structural, reproductive
and ecological features Models of earliest plants
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Bryophytes display features absent from charophycean algae but present in plants
Likely early adaptations to land Charophycean display a zygotic life cycle with a
one cell diploid zygote Bryophytes and other plants exhibit a sporic life
cycle with alternation of generations
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Adaptations to life on land
Sporic life cycle has 2 multicellular life stagesDiploid sporophyte produces haploid spores by
meiosis Spores grow into gametophytes
Haploid gametophyte produces gametes by mitosis
Gametes are nonflagellate eggs and smaller flagellate sperm fuse into single-celled diploid zygotes
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Gametophytes
Produces haploid gametes Gametangia protects developing gametes from
drying out and microbial attack Antheridia – round or elongate gametangia
producing sperm Archegonia – flask shaped gametangia enclosing
an egg Sperm swim to egg and fuse to form diploid zygote Zygotes grow into sporophytes
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Sporophytes
Zygotes remain sheltered and fed within gametophyte tissue
Young sporophytes are embryos When mature, spores are produced in
protective enclosures known as sporangia Plant spore cell walls contain sporopollenin
to help prevent cellular damage During evolution, plant sporophytes become
larger and more complex
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Distinguishing bryophyte features
Gametophytes dominant generation (as opposed to dominant sporophyte generation in other plants)
Sporophytes are dependent on gametophtye and small and short lived (as opposed to independent, large and long-lived in other plants)
Nonvascular or lacking tissues for structural support and conduction found in other plants (vascular plants)
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Lycophytes and pteridophytes
Lycophytes- more numerous and larger in the past but now about 1000 relatively small species
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Pteridophytes – about 12,000 species of ferns, horsetails and whisk ferns
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Diverged prior to the origin of seedsSeedless vascular plantsBryophytes are seedless and nonvascular
Lycophytes, pteridophytes and seed-producing plants are vascular plants or tracheophytesPossess tracheids for water and mineral
conduction and structural support
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Roots, stems and leaves Produce specialized organs
like other tracheophytes Stems
Contain vascular tissue and produce leaves and reproductive structures
Contain phloem and xylem (contains tracheids and lignin)
Roots Specialized for uptake of water
and minerals from the soil Leaves
Photosynthetic function
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Adaptations That Foster Stable Internal Water Content
Waxy cuticle present on most surfaces of vascular plant sporophytes
Cutin found in cuticle that helps prevent pathogen attack
Wax prevents desiccation Stomata are pores that open and close to
allow gas exchange while minimizing water loss
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Gymnosperms
Cycads, ginkgos, conifers and gnetophytes
Reproduce using spores and seeds (like angiosperms)
Seed plants Seeds protect and provide
energy for young sporophyte
“Naked seeds” meaning seeds are not enclosed by fruit
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Angiosperms Distinguished by the
presence of flowers and endosperm
Flowers are specialized to enhance seed production
Fruits develop from flowers and enclose the seed and foster seed dispersal
Endosperm is a nutritive seed tissue with increased storage efficiency
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Evolutionary history of land plants
A billion years ago, terrestrial surface bare Some cyanobacteria crusts Origin of land plants essential to the
development of substantial soils, evolution of modern plants, and animals colonizing land
Living plant phyla reveal the order plants appeared
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Molecular approaches
Compare gene sequences from diverse plants Arrangements of branches on phylogenetic trees
changes as new data becomes available Selection acts on expressed genes, so introns
change more slowly than encoding regions Can reveal ancient phylogenetic divergences Analysis shows pteridophytes to be
monophyletic Horsetails and whisk ferns had been classified
separately based on structural features
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Use of fossils
Tough plant compounds help to preserve plant structures
Compare fossils to other fossils and living plants
Compared modern lycophytes treated to degrade all but the most resistant plant materials (those likely to fossilize) and found similarities with particular fossils
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3 steps to plants conquering land
1. Aquatic charophycean algae give rise to the first land-adapted plants
2. Seedless plants transform Earth’s atmosphere and climate
3. Ancient cataclysm marks the rise of angiosperms
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Algae give rise to land plants
Plants most likely evolved from an aquatic ancestor similar to modern, complex charophycean algae
PhragmoplastDistinctive feature of plant cytokinesisPromotes the development of intercellular
connections (plasmodesmata)Land plants used these traits to build
increasingly more complex bodies better adapted to terrestrial stresses
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Early plants acquired other features in response to life on land, not water
All land plants possess several features not found in charophyceans
All land plants posses xyloglucan carbohydrates that cross-link cellulose microfibrils
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The Number of Genes That Controls Cellulose Production Increased During Plant Evolutionary History
Cellulose-rich cell walls are a hallmark of plants and many green algae
Spun from terminal complexes located in plasma membranes (rosettes)
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CesA gene encodes cellulose synthase Compared CesA genes of charophycean
algae, seedless plants, and seed plants CesA gene family has diversified by gene
duplication and divergence Correlated with evolution of greater plant
structural complexity
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Seedless plants transformed ecology Liverworts and mosses produce decay-
resistant body tissues Used modern data to estimate ecological
impact of early nonvascular plants Helped enrich soils Could have begun process of organic
carbon burial that helps to reduce amount of greenhouse gas CO2 in the atmosphere
Influences temperature and precipitation
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Modern bryophytes also store CO2
Under cooler than normal conditions, Sphagnum grows more slowly and thus absorbs less CO2, allowing atmospheric CO2 to rise a bit
Since atmospheric CO2 helps to warm Earth’s climate, increasing CO2 warms the climate a little
When the climate warms sufficiently, Sphagnum grows faster, thereby sponging up more CO2 as peat deposits
Reducing atmospheric CO2 returns the climate to slightly cooler conditions
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Ecological effects of vascular plants
First appear 420-430 mya - Coal Age Carboniferous plants converted huge amounts of
atmospheric CO2 into decay-resistant organic material
Carboniferous proliferation of vascular plants was correlated with a dramatic decrease in atmospheric carbon dioxide, which reached a historic low about 300 mya
Atmospheric oxygen levels rose to historic high levels, because less O2 was being used to break down organic carbon into CO2
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Carboniferous decline in CO2 level caused cool, dry conditions to prevail in the late Carboniferous and early Permian period
Abrupt global climate change caused many of the giant lycophytes and pteridophytes that had dominated Carboniferous forests to go extinct
Cooler, drier Permian conditions favored extensive diversification of the first seed plants, the gymnosperms
Seed plants were better able than nonseed plants to reproduce in cooler, drier habitats
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Rise of angiosperms
Diverse gymnosperms dominated Earth’s vegetation through the Mesozoic era (248–65 mya), the Age of Dinosaurs
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One day, about 65 mya, at least one large meteorite or comet crashed near Yucatan Peninsula in Mexico
K/T event marking end of Cretaceous and beginning of Tertiary
Huge amounts of ash, smoke and haze dimmed sunlight long enough to kill many of the world’s plants
Surviving flowering plants diversified into space left
New types of animals also appeared
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Critical innovations in plant evolution
Embryos Leaves Seeds
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Embryo
Absent from charophyceans First distinctive trait acquired by land plants Embryophytes a synonym for plants 3 features
Multicellular and diploid Zygotes and embryos retained Depends on organic and mineral materials supplied
by mother plant – placental transfer tissues
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Placental transfer tissueCells specialized to
promote movement of solute from gametophyte to embryo
Finger-like cell-wall ingrowths
Dissolved sugars, amino acids, and minerals
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Browning and Gunning Demonstrated That Placental Transfer Tissues Increase Plant Reproductive Fitness
Placental transfer tissues increase the rate at which radioactively labeled carbon moves through placental transfer tissues from green gametophytes into young sporophytes
In the experiment, shading the young sporophyte from using radiolabeled CO2 – their only nutrition comes from the gametophyte
22% of the organic carbon made by the gametophyte moved to the sporophyte
Much faster than in other plant tissues without transfer tissues
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Leaves
Effectively capture sunlight for photosynthesis Lycophytes produce simplest, most ancient
leaves called lycophylls or microphylla Other vascular plants have leaves with
extensively branched veins – euphylls or megaphylls Larger size provide considerable advantage Evolved in a series of steps
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Seeds
Ovule Sporangium with single spore and a very small egg-
producing gametophyte inside Enclosed by integuments
Seed plants produce 2 distinct types of spores in 2 different types of sporangia Microspores in microsporangia – male gametophytes –
pollen Megaspores in megasporangia – female gametophyte
develops and produces eggs
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Male gametophyte extends pollen tube carrying 2 sperm toward the egg
1 sperm fertilizes egg to become an embryo
Other sperm fuses with different gametophyte tissue to form endosperm
Double fertilization Seeds allow embryos access to food
supplied by older sporophyte generation
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Ecological advantages of seeds
Able to remain dormant in the soil so can wait for favorable conditions
Larger and more complex so resistant to damage and attack
Adaptations to improve dispersal Can store considerable amounts of food Sperm can reach egg without having to swim
through water
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Descent with modification
Seed plants have no replaced spores with seeds Ovules and seeds added to life history including spores Most lycophytes and pteridophytes release one type of
spore and one type of gametophyte Others produce microspores and megaspores
(heterospory) These protected gametophytes grow inside microspore
and megaspore walls – endosporic gametophytes Heterospory advantage to increase cross-fertilization Early steps to seed evolution
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Next step would be retention of megaspores instead of releasing them
Another would be only one megaspore per sporangium
Then retention of megasporangium on parental sporophyte