Download Angiosperms - flowering plants

Angiosperms flowering plants
Lecture #18
Definitions
• Angiosperms = flowering plants
• “Angio” = container “sperm” = seed
Contained seeds – seeds of angiosperms
are contained in a structure termed a carpel
Reproductive Characters of
angiosperms
• Carpel encloses the seeds
• Double integument for seed
• Flowers – determinate stem tip with leaves
and modified leaves that bear the pollen
and seeds
• 7-celled, 8 nucleate megagametophyte
• 3-celled microgametophyte
• Double fertilization
• Endosperm
Angiosperm phylogeny
stigma
stamen
anther
style
filament
pistil
ovary
petal
ovules
sepal
receptacle
FLOWER
pedicel
Flower – a
determinate
stem tip
with modified
leaves
Sepal = leaf
Petal = leaf
Stamen = leaf
bearing
pollen sacs
Carpel = leaf
bearing ovules
(makes up pistil)
pedicel
Carpels
• The units that contain the seeds
• Part of the ovary
• If the ovary has more than one carpel you usually see
more than one locule (chamber containing seeds)
• You can sometimes tell how many carpels are in a flower
by looking at the tip of the style. Number of style tips or
lobes = number of carpels
• Carpels are leaves that have rolled up to enclose the
ovules. Later a number of these may have fused
together to form syncarpous ovaries (i.e., they evolved
from leaves)
• Note: stamens are also modified leaves with attached
pollen sacs
Evolution of the angiosperm stamen
Michelia
x.s.
Adaxial pollen sacs → marginal pollen sacs →reduced connective
Magnolia flower
mega
micro
All petals = corolla
All sepals = calyx
Calyx + corolla = perianth
Pistil = stigma, style &
ovary
Gynoecium = all the carpels
Androecium = all stamens
Calyx = all the sepals
Corolla = all the petals
Stamen = filament & anther
Anther = 4 pollen sacs
Tepals = collective term used
when sepals & petals look
alike
Flower parts
Monocot flower
Flower parts in 3’s
or multiples of 3
Tepals
Lilies – monocot
flowers
2 whorls of perianth
When the petals and sepals
have the same color and
morphology
Tepals
Lilium
flower bud
Petal
Typical
monocot
flower
with
parts
in
3’s
Tepals
Sepals
Monocot flower x.s.
Note: in this flower the sepals and petals often
look alike (colored) therefore = tepals
Anther x.s.
4 pollen sacs
Vascular
Bundle of
Connective
Eudicot flower x.s. – flower parts in 4’s or 5’s
Ovary with 5 carpels – typical eudicot
Angiosperm pollen
Aperture = a specialized region of the wall
that is thinner than the rest
Monocolpate
Colpus = elongated aperture with a length/
width ratio greater than 2.
Monocolpate or monoporate
Single aperture– shapes differ here
Pore – circular or elliptical
Aperture
Tectate/collumellate angiosperm pollen wall structure
Exine –
sporopollenin
1. Tectum =roof
2. Columellaepillars or columns
3. Foot layer
Intine –
cellulose
Sculptural
elements
Tricolpate
Tricolporate
Triporate
e = equatorial view; p = polar view
Angiosperm pollen grains
Monocolpate
Tricolpate
Triporate
Atactostele - monocots
Eustele - eudicots
No vascular
cambium
Have vascular
cambium
monocot
Dicot stem
Protoxylem
cortex
Early metaxylem vessel
Endodermis
Pericycle
Late metaxylem vessel
Dicot rootactinostele
pith
Monocot root – pith
exarch
medullated protostele
Eudicot stem &
leaves
eudicot leaf
monocot leaf
Eudicot leaf with reticulate venation
Eudicot leaf x.s.
epidermis
Sclerenchyma
fibers
collenchyma
Eudicot leaf x.s.
midvein
stomata
Eudicot leaf
Monocot leaf with parallel venation
Major and minor veins of various sizes
Monocot leaf x.s. with parallel vascular bundles
stoma
substomatal
chamber
Monocot leaf x.s.
Bulliform cells=
enlarged cells in the
epidermis of some monocot
leaves that can lose
water and collapse allowing
the leaf to roll up to prevent
water loss
Vascular bundles in
corn (monocot) leaf
lacuna
Eudicot embryos in seeds
Capsella
Monocot embryo
Zea - corn
Corn embryo - monocot
(fruit wall)
apex
Hypocotyl
apex
Monocot embryo - corn
Angiosperm life cycle
Pages 472-473
Meiosis takes place in the pollen sac of the anther
Microspore mother cells/ microsporocytes (2n) undergo meiosis
Four microspores result from each division- these are
Haploid (1n).
Tapetum – nutritive tissue (also lays down the sporopollenin walls)
Pollen tetrads – after meiosis
Pollen shed in a 2-celled stage
Microgametophyte
is only 3 cells in
total
Tube cell or
Tube cell (vegetative cell) controls
The growth of the pollen tube
Generative cell divides to form the
2 sperm
Pollen
Megagametophyte development
Young developing ovule with
megasporocyte or megaspore mother cell –
undergoes meiosis
mmc
Inner integument
micropyle
nucellus
Embryo sac = megagametophyte
• Monosporic embryo sac development = after
meiosis four haploid megaspores result. 3
abort and 1 goes on to divide and form the
megagametophyte. Mono=one – Most
angiosperms
First division of the megaspore nucleus
Most angiosperms have monosporic embryo sac
development
Two nucleate megagametophyte stage
Second mitotic division
Four-nucleate phase
Angiosperm
Ovule
Central cell
Nucellus
7 celled embryo sac = megagametophyte
Mature embryo sac
•
1.
2.
3.
4.
Contains 8 nuclei, 7 cells
Egg
2 synergids (“nurse cells”)
3 antipodal cells
2 polar nuclei in the central cell
Note: There are no archegonia
Gametophytes in angiosperms are very
reduced
Microgametophyte is 3 cells– mega. is 7cells
A trend in reduction in the size of vascular
plant gametophytes over time.
Embryo sac = megagametophyte
micropyle
Egg & synergids
at this end
Central cell
Polar nuclei
3 antipodal
cells
Central
cell
Pollen on stigmatic surface (stigma)
Pollination in Angiosperms
.
The transfer of pollen from the anther
to the stigma
.
Pollination droplet
Integument
Megaspore
Ovule
enclosed
in
carpel
Pollination in gymnosperms
Nucellus
The transfer of pollen from the pollen
sac to the micropyle of the seed/ovule
Mature
microgametophyte
&
pollen tube growth
nucleus
TubeTube
nucleus
Sperm
Pollen grain
Angiosperm
Ovule
Double
fertilization
Central cell
2 sperm
Nucellus
Pollen tube
7 celled embryo sac = megagametophyte
Primary endosperm
nucleus
3n
(degenerate)
xx x
(degenerate)
x x
Zygote 2n
Double fertilization
• 1 egg + 1 sperm = 2n zygote
• 2 polar nuclei + 1 sperm = 3n endosperm
(primary endosperm nucleus)
• Primary endosperm nucleus ÷ to form
endosperm tissue cellular (or free nuclear)
• “Endosperm” only found in angiosperms
Becomes the food supply for the
developing embryo (3n tissue)
After double fertilization
M
I
C
R
O
P
Y
L
A
R
E
N
D
Endosperm divides 1st then the zygote
M
I
C
R
O
P
Y
L
A
R
E
N
D
Endosperm can be cellular or free nuclear
Embryo development
Capsella
Summary of Capsella embryogeny
2n
2n
3n
Capsella mature embryo l.s.
Angiosperm life cycle
Pages 472-473
Self quiz – label the parts
Angiosperm
Ovule
Central cell
Nucellus
7 celled embryo sac = megagametophyte