1. Chapter 29: Overview of Plant Diversity
Divya Raj, Katie Redinger, Allie Wrabel

2. The Evolutionary Origins of Plants
Plant will refer to a group of organisms that share a freshwater algal ancestor and have evolved over a 470-million-year period
The exact ancentral alga is still a mystery, but close relatives like the Charales exist today
The shared history green algae has with other plants has led scientists to change the name of kingdom Plante to kingdom Viridiplante to include the algae

3. Land Plants All afford protection to their embryos
All have multicellular haploid and diploid phases

4. Conductive Systems Nonvascular Plants- lack vascular tissue
Vascular Plants- have water-conduction xylem and food-conducting phloem strands of tissues in their stems, roots, and leaves.

5. Four Major Groups of Land Plants
Nonvascular plants- not monophyletic, include three phyla: mosses, liverworts, and hornworts
Seedless vascular plants- (1) club mosses, and (2) ferns, whisk ferns, and horsetails.
Gymnosperms- have seeds that protect their embryos
Angiosperms- have flowers, which may attract pollinators, and fruits surrounding the seeds, protecting the embryos and aiding in seed dispersal

6. Adaptations to Land
Many plants are protected from desiccation-the tendency of organisms to lose water to the air-by a cuticle that is secreted onto their exposed surfaces
Gas diffusion into and out of the plant occurs though tiny openings called stomata
Evolution of leaves increases the amount of photosynthetic surface area

7. Plant Life Cycles
Humans have diplontic life cycles, while plants have haplodiplontic
Diploid sporophytes produce haploid spores by meiosis
Spores develop into haploid gametophytes by mitosis and produce haploid gametes

8. Haploid Diploid Gametophyte (n) Mitosis Spore Sperm Egg n n n Spores n
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Haploid
Gametophyte
(n)
Mitosis
Spore
Sperm
Egg n n n
Spores n
Meiosis
Gamete fusion
Spore mother
cell 2n
Zygote 2n 2n
Embryo
Sporangia
Sporophyte
(2n)
Diploid

9. Mosses, Liverworts, and Hornworts
Nonvascular plants are divided into three major phyla-Bryophyta, Hepaticophyta, and Anthocerophyta- with all members being relatively unspecialized but collectively able to inhabit diverse environments

10. Mosses
The leaf like structures belong to the gametophyte. Each of the yellowish brown stalks with a capsule at is summit is a sporophyte

11. Liverworts
The sporophytes are formed by fertilization within the tissues of the umbrella-shaped structures that arise from the surface of the flat green, creeping, gametophyte

12. Hornworts
Unlike the sporophytes of other bryophytes, most hornworts sporophytes are photosynthetic

13. Seedless Vascular Plants
Seedless vascular plants have well-developed conducting tissues in their sporophytes.

14. The first vascular plants for which we have a relatively complete record of belonged to the phylum Rhyniophya.
They flourished some 410 million years ago but are now extinct.
These plants were homosporous (only produce one type of spore for reproduction; asexual).
Seeds only occur in heterosporous plants (two types of spores for reproduction; sexual).
Eventually these ancient vascular plants evolved more complex arrangements, leading to the formation of real leaves.

15. Early plants soon began to develop vascular tissues that acted as efficient water and food conducting systems.
These consist of strands of specialized cylindrical or elongated cells that form a network throughout a plant, extending from near the tips of the roots, through the stems, and into true leaves.

16. The seven living phyla of vascular plants dominate terrestrial habitats everywhere, except for the highest of mountains and the tundra.
Most vascular plants have well-developed conducting tissues, specialized stems, leaves, roots, cuticles, and stomata. Many have seeds, which protect embryos until conditions are suitable for further development.

19. Earliest vascular plants lacked seeds.
Two phyla of seedless vascular plants:
Lycophyta  Club mosses (relicts of an ancient past when vascular plants first evolved.)
Pterophyta  Whisk ferns, Horsetails, and Ferns.
All reproduce using sporophytes (asexually).

20. In modern vascular plants, the gametophytes have been reduced in size and complexity, individuals have specialized tissues.
Gametophytes are the phases where gametes are produced for sexual reproduction (two parts).

21. Archegonium Mitosis Rhizoids Egg Gametophyte Spore Sperm n MEIOSIS
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Archegonium
Mitosis
Antheridium
Rhizoids
Egg
Gametophyte
Spore
Sperm n
MEIOSIS
FERTILIZATION
Mature
sporangium 2n
Mature
frond
Embryo
Leaf of young
sporophyte
Sorus (cluster
of sporangia)
Adult
sporophyte
Rhizome
Gametophyte

22. Seed Plants First appeared 425 million years ago
Descended from spore-bearing plants called progymnosperms
This common ancestor gave way to gymnosperms and angiosperms

23. Formation Embryo is protected by extra tissue, creating an ovule
Tissue hardens to form seed coat
This protects the embryo from drought and helps disperse the seed
Presence of seeds introduced dormant phase- allows embryo to survive until conditions are better

24. Reproduction 2 kinds of gametophytes- male and female
In seed plants, the sperm moves to the egg through a pollen tube eliminating the need for external water
Unlike seedless plants, whole male gametophyte moves to female
Female gametophyte develops in ovule

25. Gymnosperms- “naked-seeded plants”
Cone-bearing seed plants; ovules not completely enclosed at time of pollination
4 groups: conifers, cycads, gnetophytes, and Ginkgo
Can range from 25g to 45 kg and mm’s to over a m

26. Conifers
Ex. Pines, spruces, firs, cedars, hemlocks, yews, larches, cypresses, and others
Found in colder temperate and drier regions
Sources of timber, paper, resin, taxol, and other products

27. Pines Over 100 species exist
Tough, needlelike leaves produced in clusters of 2 to 5
Thick cuticle and recessed stomata- adaptation for preventing water loss
Secrete resin used in turpentine and rosin
Wood consists of xylem and is considered ‘soft’

28. Reproduction- Males
Seed plants are heterosporus so spores give rise to two types of gametophytes
Male gametophytes develop from microspores
A pair of microsporangia form sacs in which numerous ‘mother’ cells undergo meiosis creating 4 microspores
Develop into 4-celed pollen grains with air sacs
Single cluster of male pine cones can produce over 1 million pollen grains

29. Reproduction- Female
Two ovules develop near base and contain megasporangium called nucellus
Nucellus is surrounded by cells called the integument with small opening called the micropyle
Single megaspore mother within each megasporangium undergoes meiosis and becomes 4 megapsores
Only one survives and develops into female gametophyte and can contain thousands of cells

30. Pollination Pollen is drawn into microphyle
While female is developing, pollen makes its way through nucellus
One of the pollen’s 4 cells divide through mitosis and one of these two divides again
Final cells are sperm
15 months after pollinations, zygote is formed

31. Ovulate (seed-bearing) cone Sporophyte
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Mature seed
cone (2nd year)
Pollen
tube
Megaspore
Mitosis
Pollination
Pollen
FERTILIZATION
(15 months after
pollination) n
Mitosis
Mitosis
Embryo
Microspores
Longisection of
seed, showing
embryo
Microspore
mother cell
MEIOSIS 2n
Pine
seed
Pollen-bearing
cone
Scale
Mitosis
Megaspore
mother cell
Seedling
Scale
Ovulate (seed-bearing)
cone
Sporophyte

32. Cycads (Cycadophyta) Slow-growing in tropical and subtropical regions
Life cycle similar to pines
Sperm is formed within pollen tube and released within ovule to archegonium
Sperm cells are largest among living organisms

33. Gnetophytes (Gnetophyta)
3 genera, 65 species
Only gymnosperms with vessels in xylem
Over half are in genus Ephedra and plants are shrubby and have scalelike leaves
Species of genus Gnetum are vineline with broad leaves

34. Ginkgo (Ginkgophyta) Only one living species remains
Name comes from fan-shaped leaves
Sperm have flagella and ginkgo is dioecious- male and female reproductive structure produced on different trees
Resistant to air pollution

35. Angiosperms- “Vessel seed”
Flowering plants; ovules completely enclosed in tissue
250,000 known species
Vessel in name refers to carpal- modified leaf that encapsulates seeds

36. Origins Fossils as old as 125 million years old
Known to be angiosperms because fossils have both male and female reproductive structures
Lack petals and sepals that evolved later

37. Monocots and Eudicots
Eudicots (175,000)- more primitive; 1/6 of species are annuals; mints, peas, sundlowers
Monocots (65,000)- lilies, cattails, orchids; few are annual; have no ‘true’ wood

38. Structure of flowers Stamen Anther Megaspore Stigma mother cell
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Structure of flowers
Stamen
Stigma
Anther
Megaspore
mother cell
Filament
Style
Nucellus
Carpel
Petal
Ovule
Sepal
Integuments
Ovary
Receptacle
Micropyle
Stalk of
Ovule
(funiculus)
Pedicel

39. (microgametophytes) (n) (megagametophyte) (n)
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Life Cycle
Generative cell
Microspore
mother cells (2n)
Sperm
MEIOSIS
Tube nucleus
Anther (2n)
Mitosis
Tube
nucleus
Microspores (n)
Pollen grains
(microgametophytes) (n)
Stigma
Megaspore
mother cell (2n)
Pollen
tube
Anther
Megaspore (n)
MEIOSIS
Mitosis
Egg
Style
Ovary
Ovule
Adult
sporophyte
with flower
(2n)
8-nucleate
embryo sac
(megagametophyte) (n) 2n n
DOUBLE FERTILIZATION
Formation
of pollen
tube (n)
Embryo (2n)
Seed coat
Polar
nuclei
Germination
Cotyledons
Young
sporophyte
(2n)
Egg
Seed (2n)
Sperm
Endosperm (3n)