1. Green Plants Flowering Plants Seed Plants Vascular Plants Land Plants
PHYLOGENETIC OVERVIEW
Green Plants

2. Angiosperms: flowering plants
~235,000 species; are the dominant plants on Earth.
Wide variety of sizes and forms, from small herbaceous plants to huge trees
Flowers may be conspicuous or cryptic
Are vascular plants that reproduce sexually by forming flowers, and after a double fertilization process , produce seeds within fruits
Possess efficient water-conductive cells called vessel elements in xylem; efficient sugar-conducting cells called sieve tube members in the phloem

3. Double Fertilization: The Embryo Sac
Angiosperms are heterosporous
Produce microspores and macrospores
Megasporocyte in ovule undergoes meiosis to produce 4 1n megaspores
3 disintegrate – one divides by mitosis to produce the female gametophyte called the embryo sac.
Most commonly the embryo sac contains 7 cells with 8 1n nuclei
6 have 1 nucleus – one of the six is the egg; a central one has two polar nuclei
All cells but the egg and the polar nucleus cell disintegrate

4. Double Fertilization

5. Flowering Plant Evolution

6. Mesozoic Seed Ferns, etc.
Spermatophytes -- Seed Plants
“Gymnosperms”
Gnetophytes
Medullosa
Welwitschia
Conifers
Cycads
Angoisperms
(flowering plants)
Lyginopteris
Ephedra
Gnetum
Ginkgos
Reticulate venation reduced gametophytes
Carpel, endosperm, reduced gametophytes
Mesozoic Seed Ferns, etc. ?
>325 MYBP
Bi-radial seed symmetry, sealed micropyle
>360 MYBP
Loss of cupule, loss of lagenostome column
IMPACT OF NEW DATA
Seed, axillary branching

7. “anthophyte” hypothesis “gnetifer” hypothesis
Spermatophytes: Hypotheses of Seed Plant Phylogeny
Cyc
Ang
Gne
Gin
Con
Con
Cyc
Ang
Gne
Gin
“anthophyte” hypothesis
“gnetifer” hypothesis
Pineaceae
Gne
Other
Conifers
Gin
Cyc
Ang
Ang = Angiosperms
Cyc = Cycads
Gin = Ginkos
Gne = Gnetophytes
Con = Conifers
“gnepine” hypothesis
IMPACT OF NEW DATA

8. Spermatophytes: Hypotheses of Seed Plant Phylogeny
Phytochrome genes
1557 base pairs
74 taxa
S. Mathews et al.
Conifers
Ginkos
Cycads
Gnetophytes
Angiosperms
Phytochrome duplication
event
new hypothesis
IMPACT OF NEW DATA

9. Flower Structure

10. The Reproductive Apparatus
The reproductive structures arise from whorls inside the petals
Stamens are the structure s that hold the pollen-bearing anthers
Male reproductive component
Have a stalklike filament
In the anthers, meiosis produces microspores that develop into pollen
Each pollen grain develops into two cells – one divides to produce the sperm cells, or male gametes – while the other produces the pollen tube through which sperm cells travel to the ovum

11. The Female Reproductive Apparatus
Centermost whorl is the carpels
Also called the pistil
3 sections to the pistil –
The stigma, where pollen lands
The style, or long structure through which pollen tube grows
The ovary, which contains one or more ovules, which in turn develop into embryos when fertilized

12. A flower

13. Pistil Structure Pistils may be simple or compound
Nearly always have stigma, style and ovary structure
Simple has single carpel
Compound has several carpels fused together

14. The Flower
Reproductive shoots – usually on a stem; flower is referred to as the inflorescence
Four parts arranged in whorls; i.e. circles – sepals, petals, stamens and carpels
Complete flowers have all four parts
Incomplete flowers have one or more parts missing
Held on a stalk called a peduncle
Male parts are the stamens; female the carpels
Sepals are lowermost and outermost whorl
Leaf like, often green
Cover flower when in bud
All sepals together called the calyx
Petals are the whorl above the sepals
Broad, flat and thin
Often brightly colored
Petals referred to as the corolla

15. Amborella
Water lily

16. Evolution of Flowers
Generally accepted that flower components are all derived from leaves
This seems to be clearly indicated for the plant Drimys piperita. The carpel looks like a folded leaf

17. Angiosperms -- Flowering Plants
“Dicotyledons”
Magnoliids
Nymphaeales
Magnoliales
Canellales
Chloranthaceae
Eudicots
Amborella
Austrobaileyales
Laurales
Piperales
Ceratophyllum
Monocots
tricolpate pollen
1 cotyledon
>125 MYBP
postgenital fusion of carpel margins (?), plicate carpels
vessels
>140 MYBP
Carpel, endosperm, reduced gametophytes
PHYLOGENETIC OVERVIEW

18. The Sporophyte Adaptations
The sporophyte – the emergent and most obvious part of the plant, has undergone enormous adaptation, all of which aid in survival in a given region; for example:
Cacti
Trees
Lilies
Vines
Shrubs

19. Cotyledons

21. Ginger
Orchid
Grass

22. Monocots
Palms, grasses, orchids, irises, onions and lilies are all monocots
Mainly herbaceous with long narrow leaves with parallel veins
Flowers in threes or groups of three
Monocots have a single cotyledon, or embryonic seed leaf and endosperm, a nutritive tissue in the mature seed

23. A Second Class: The Dicots
Dicots (Class Dicotyledones)
Oaks, roses, mustards, cacti, blueberries and sunflowers are all dicots
Herbaceous or woody
Typically broader leaves than monocots
Flower parts usually in fours or fives
Two cotyledons in the seeds

24. Polygala
Water lotus
Buttercup

25. Monocots and “Dicots”
Typical features of monocots and dicots
Feature
Dicot
Monocot
Seeds
Embryo w/2 cotyledons
Embryo w/ 1 cotyledon
Flower parts
In fours/fives
In threes
Pollen grains
3 furrows/pores
1 furrow/pore
Leaf venation
Netted
Parallel
Vascular bundles in stem
Arranged in ring
Scattered or complex
Roots
Taproot system
Fibrous roots
Secondary growth (wood, bark)
Often present
Absent

26. Seeds and Fruit
Each seed contains the embryo and its nutritive endosperm and is surrounded by a seed coat
As seed develops, the ovary wall may thicken and entirely surround the seed(s)
The ovary becomes a fruit
Fruits protect the seed from desiccation and also aid in dispersal

27. Adaptations of Flowering Plants
Seed production is advantageous to longevity of the genetic material and dispersal
Closed carpels that develop to make fruit aid in dispersal also via animals that eat the fruit
Pollen is well-adapted to cross-fertilization via bees, bats, birds, etc
Flowers attract pollinators
Angiosperms have improved water and sugar transport in the xylem and phloem compared to gymnosperms and seedless vascular plants
Broad leaves, well-developed roots that can store as well as collect nutrients, critical to success

28. Evolution of Seed Plants
Molecular analysis suggests . . .
Monocots are monophyletic
Dicots are paraphyletic – containing the common ancestor and some but not all of the descendents.