Plant Cells & Tissues - Ashley Schevers' Biology I Website
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Transcript Plant Cells & Tissues - Ashley Schevers' Biology I Website
Take 5: 2/16/11
What is the underground stem that anchors a
fern called? _______________________
Rhizome
_____________
are the leaves of a fern.
Fronds
What is something unusual about Ginkophyta?
Female seeds have a bad smell
One known species
Take 5: 3/5/12
The two structures in which plants reproduce
is ____________
and ____________.
Seeds
Spores
The female reproductive structure of
nonvascular plants is called a(n) _____.
Archegonia
Liverworts, hornworts, mosses, and ferns are
all examples of __________________.
Non-Seed Plants
Plant Cells &
Tissues
Ch 23.1
There are 3 types of plant cells
Parenchyma
Collenchyma
Sclerenchyma
3 types of plant cells
Parenchyma
most abundant
TWO MAJOR FUNCTIONS = STORAGE
and FOOD PRODUCTION (Photosynthesis)
Also FUNCTIONS TO PRODUCE SAP.
large vacuole stores water, starch grains, oils
Example: The cells of the white potato.
Parenchyma
3 types of plant cells
Collenchyma
unevenly thickened cell walls to
allow cells to grow
FUNCTION = PROVIDE
STRENGTH AND SUPPORT
arranged in tube-like strands
Example: the resilient strands
in stalks of celery
3 types of plant cells
Sclerenchyma
thick and rigid cells
at maturity, cells die
thick cell wall remains and PROVIDES
SUPPORT
2 cell types: fibers & sclerids
a) fibers = long thin strandlike cells
b) sclereids = irregularly shaped, in
clusters (ex: apple core, gritty pear
texture)
Sclerenchyma
3 types of plant cells
4 types of plant tissue
Dermal Tissue
Ground Tissue
Vascular Tissue
Meristematic Tissue
Dermal tissues
FUNCTION = COVER & PROTECT BODY OF
PLANT
aka epidermis (tightly packed flattened
cells that cover all parts of plant)
epidermal cells produce waxy _________
to prevent water loss
Dermal tissues
Dermal tissues
Also has ________ (stomata = plural) to
control water loss.
Stomata are openings in leaf tissue that
control gas exchange.
____________ control opening and
closing of stomata.
Guard cells regulate water loss from leaf.
Dermal tissues
Dermal tissues
In addition, the
dermal tissue of
roots have
__________
The function of
root hairs is to
absorb water and
dissolved minerals.
Dermal tissues
Trichomes = hairlike
projections on stem (“fuzzy
appearance”)
They function to reduce H20
evaporation from plant
They can also secrete
_________ substances to
protect plant from predators
trichomes
Ground tissue
FUNCTION = ASSIST WITH
PHOTOSYNTHESIS, STORAGE, &
SUPPORT
Composed mostly of parenchyma
cells
Located throughout plant
Have chloroplasts
Ground tissue in stems and roots
have _______________ for storing
starch grain and water
Vascular tissue
FUNCTION =
TRANSPORT FOOD,
DISSOLVED
MINERALS, AND
WATER
Two types of
vascular tissue:
xylem & phloem
Vascular tissue
Xylem
FUNCTION = TRANSPORTS WATER AND DISSOLVED
MINERALS FROM ROOTS TO REST OF PLANT
tubular shaped cells
made of 4 types of cells:
a) tracheids
b) vessel elements
c) fibers
d) parenchyma
Vascular tissue
Phloem
FUNCTION = TRANSPORTS SUGAR AND ORGANIC
COMPOUNDS FROM LEAVES TO REST OF PLANT
tubular cells joined end to end
made up of 2 types of cells
sieve tube members (have cytoplasm, no nucleus or
ribosomes)
companion cell (have a nucleus, help transport sugars
thru sieve tubes)
large pores at sieve plates exist to allow sugar to
move between sieve tube members
Vascular
tissue
Vascular tissue
Meristematic tissue
________________ =
region of actively dividing
cells where growing plant
produces new cells
2 typical types
Apical meristem: near tip
of roots or stems
produce cells that allow roots
and stems in become longer
Lateral meristem: results in
diameter increase of roots
and stems
Meristematic tissue
Lateral meristem: results in diameter increase of
roots and stems
Example: most woody plants
2 types of lateral meristem = vascular cambium and
cork cambium
vascular cambium = produces new xylem and
phloem cells in stems and roots
cork cambium = produces cells with tough cell
walls along surface of roots and stems (i.e. bark)
3rd type exists in grasses, corn, & other monocots,
where the part of stem between leaves grows
(these plants don’t have vascular or cork
meristem)
Meristematic tissue
Roots, Stems &
Leaves
Ch 23.2
Roots
Roots function as an _________ and are
capable of absorbing _________ and
dissolved minerals.
They also have _________________ for
transporting water & nutrients.
Roots
They vary in shape: short, long, thick, thin,
massive, threadlike
Ideally roots want a large _____________ for
absorbing water and dissolved minerals.
Roots
Roots
There are 2 types of root systems (depends on
environment).
A) taproot = single, thick structures (ex: carrots,
beets)
B) fibrous roots = many, small branching roots
(ex: grasses, clovers)
taproot
fibrous
root
Root structure
Let’s look at the layers within a root, starting
out and working our way in.
Xylem &
phloem
INSIDE
OUTSIDE
Root structure
The outermost structure on a root are ____________________
which increase surface area, ultimately allowing more water,
oxygen, & dissolved minerals to be absorbed
Next layer = cortex
The cortex transports water and dissolved minerals into vascular tissue
Mostly parenchyma cells that store food, water
Root structure
Next layer = endodermis
A layer of waterproof cell walls around vascular
tissue
This layer controls water flow & dissolved
minerals into roots
Next layer = pericycle
Produces lateral roots
Root structure
Xylem & phloem = in center of root
monocot = vascular bundles surround
central core aka pith
dicot = central star
Root structure
Xylem &
phloem
INSIDE
OUTSIDE
Makes it longer
Protection
epidermis
Root growth
Region where roots grow in length =
_______________
As these newly created cells mature, they
differentiate and take on specific functions.
The tip of root is covered by __________
(protective layer of parenchyma cells).
Also, vascular cambium in dicots increases the
_________ of roots.
Stem
Supports leaves and flowers
Has vascular tissue to transport water,
dissolved minerals, sugars
Herbaceous or woody
Some stems store food (to survive harsh
weather) ex: corn, tubers, & rhizomes
Internal structure of
stems
Vascular tissue appears in 2 arrangements:
scattered (monocot) & circular (dicot)
Woody Stems
Examples: conifers, perennial dicots (have thick
sturdy stems)
As plants grow up they also g r o w o u t
The added thickness on sides aka “secondary
growth.” It is created by the vascular cambium.
Woody stems have visible annual growth rings
Woody Stems
outermost
Tissue
layers
innermost
Stems transport
materials
Xylem transports __________ and dissolved minerals
from _________ to _________
Phloem carries dissolved __________, hormones, viruses
from __________ to ____________
“sink” = any portion of plant that stores sugars (ex:
parenchyma cells)
“translocation” = movement of sugars in phloem
Growth in Stem
The term “primary growth”
refers to a plant increasing in
length along the stem at nodes
where they give rise to branches
and leaves.
Leaves
Primary function = ____________________
Leaves want to have a large ________________ to capture
light.
Leaf blade = flat broad green structure (vary in size and
shape)
Some leaves join directly to stem
Some leaves have a stalk that joins leaf blade to stem
The stalk of a leaf = petiole (has vascular tissue)
Leaf structure
Outermost layer = Epidermis
Next = Mesophyll: Photosynthesizing tissue of
leaf
Palisade mesophyll = photosynthesis occurs here
Spongy mesophyll = has lots of air pockets for
CO2, O2, & water vapor to exit via stomata
Transpiration
loss of water via stomata = aka transpiration
Think PERSPIRATION…
when you sweat you lose
water through your pores
Leaf modifications
A) Some plants release irritants when crushed or broken
B) Another modification = cactus spines which are modified
leaves (to reduce water loss).
C) Carnivorous plants use their leaves to trap insects.
D) Some leaves function as water or food storage sites (ex: aloe
vera)
E) Bulb = shortened stem, flower bud and immature leaves
ex: onion, tulips, narcissus, lilies