Botany - Plant Tissues
**This chapter is an extremely important
foundation for future chapters in this course.
If you don’t learn this material now, you’ll be struggling for the rest
of the semester.**
I.
Overview of plant growth and structure
A.
Primary Growth—growth of ___________________________
1.
The
resulting tissues are called primary
tissues
a.
In
botany, primary always refers to the
first year’s growth.
2.
In
annuals (that live only one year) this is the only type of growth.
3.
In
perennials, this is the first year’s growth and the growth of elongation every
subsequent year of the plant’s life.
4.
Primary tissues – arise from the primary meristems
(apical, axillary, and intercalary)
a.
Include
epidermis, ground tissues, primary xylem, and primary phloem
B.
Secondary Growth—increase in ___________________________
(width, i.e. woody growth)
1.
The
resulting tissues are called secondary
tissues
a.
Primary
tissues (produced the first year) are replaced by
secondary
tissues in subsequent years in perennials.
2.
Secondary
tissues – arise from lateral (secondary) meristems (vascular cambium and
cork cambium)
a.
Includes
secondary xylem, secondary phloem, and bark
C.
Plant organs:
___________________________________________
II. Plant Meristems
A.
___________________________ are undifferentiated,
embryonic tissue present throughout the life of the plant. These cells can differentiate/mature into any
other type of cell.
1.
Only
type of plant tissue which actively divides.
2.
All
other plant tissues are derived from meristematic tissues.
B.
There
are 2 main types of meristems
1.
___________________________ Meristems – located at the tips of
shoots and roots that cause increases in length
a.
Apical mersitems – located at the tips of shoots and
roots
b.
Axillary meristems – located in the leaf axils
c.
Intercalary meristems – produce increases in length in
grasses
2.
___________________________ (Secondary) Meristems – located toward the exterior of stems and roots that
cause increases in girth
a.
Vascular Cambium – produces secondary vascular tissues
(secondary phloem and secondary xylem)
b.
Cork Cambium – replaces the epidermis with bark
Meristems produce plant
tissues
|
|
|
C. The
Primary Meristems
1.
___________________________ meristems - mass of rapidly dividing
cells, found at tips of roots and shoots.
These meristems produce increases in length.
a.
Also
produces embryonic buds and leaves
b.
Produces
three ___________________________:
(which produce primary tissues)
1.
___________________________
– develops into the dermal system
2.
___________________________
– develops into the ground tissues
3.
___________________________
– develops into the vascular tissues and the vascular cambium
2.
___________________________ meristems – produces lateral (side)
branches, found in the leaf axils
3.
___________________________ meristems – produces increases in
length along the distance of a stem in many monocots (particularly ___________________________) and in
horsetails.
a.
They
are usually found near ________________________ (leaf attachment points)
D.
The ___________________________ (Secondary) Meristems – usually found only in plants with secondary growth, in other words in
___________________________ plants (they live year after year). These meristems produce increases in girth
and produce wood. These meristems form a
cylinder that runs the length of the roots and stems. These meristematic cells of the vascular
cambium are called initials.
1.
____________________________________
– a meristem sandwiched between the xylem (toward the inside of the stem) and
the phloem (toward the outside of the stem) that will produce the secondary
xylem and phloem.
a.
Secondary xylem – will become annual (growth) rings in
the stem.
b.
Secondary phloem – will replace the previous year’s
phloem.
1.
The
old phloem is crushed by this process and becomes part of the bark
2.
____________________________________
– a meristem located externally to the vascular cambium, sandwiched between the
cortex and the periderm.
a.
Responsible
for producing cork cells which replace the epidermal cells of primary growth
and make of the bulk of ___________________________
Reminder
about Plant Tissues:
|
Simple
plant tissues = have only one cell type |
Complex
plant tissues = 2+ cell types |
|
·
Parenchyma ·
Collenchyma ·
Sclerenchyma ·
Secretory Tissues ·
Epidermis |
·
Xylem ·
Phloem ·
Periderm |
III.
Simple Plant Tissues – consist
of only one type of cell
|
Parenchyma
|
Collenchyma
|
Sclerenchyma
(circled)
|
A.
___________________________
- relatively undifferentiated tissue composed of large, isodiametric cells.
1.
This
tissue makes up the ___________________________ (cortex & pith).
2.
Usually
used for ___________________________, but may support the roles of other cells.
3.
The
cells are alive when functional.
4.
Types
of parenchyma
a.
___________________________
– usually found in aquatic plants, aerenchyma is parenchyma with large air
spaces between the cells
b.
___________________________
– mainly found in leaves, chlorenchyma is parenchyma that has chloroplasts
c.___________________________ - specialized parenchyma with
long cytoplasmic extensions, used for transferring materials between cells
B.
___________________________
- similar to parenchyma cells, but with thickened, often irregular primary cell
walls.
1.
Used
for structural support and protection of plant parts.
a.
Produces
flexible support found in plant leaves & floral parts
b.
Provides
strength to growing plant organs
2.
Cells
are alive when functional
C.
___________________________
- highly specialized cells that have thick, lignified secondary cell walls.
1.
Used
for _____________________________________________
2.
Cells
are dead when functional
3.
Types
of sclerenchyma
a.
___________________________ - isodiametric cells, usually
scattered throughout other tissues
1.
give
pears their gritty texture
b.
Stone cells - groups of sclereids found in specific
areas of plants
c.___________________________ - thin, elongated cells which
are associated with other tissues
1.
Fibers
are often used in industry to make textiles (e.g. cotton)
D.
Secretory Tissues - Composed of secretory cells that
produce hormones and other substances which are exported from the cells
1.
e.g.
nectar, oils, mucilage, latex, resins, etc.
E.
___________________________
- Consists of roughly rectangular cells, usually one cell thick.
1.
The
epidermis is the outermost covering of annual plants and first-season perennial
plants.
2.
Most
epidermal cells secrete a waxy cuticle to help decrease water loss by
evaporation.
3.
Structures
associated with the epidermis
a.
___________________________
– cytoplasmic extensions from root epidermal cells that have increased surface
are for the absorption of water.
|
Cross section
diagram of a dicot root
|
Electron
microscope view of root epidermis (note the root hairs)
|
b.
Leaf hairs - similar to root hairs, but usually
have the function of warding off herbivores
c.___________________________- specialized cells that form
___________________________ (openings in the epidermis which allow gas exchange
with the deeper tissues and the outside)
1.
Guard
cells are the only epidermal cells that have chloroplasts.
|
Leaf
epidermis with epidermal hairs
|
Microscope
view of leaf stomata
|
d.
Gland cells - modified epidermal cells that secrete
substances
IV. Complex Plant Tissues—consist of two or more cell types that
have similar functions
A.
___________________________
- carries water from the roots to the rest of the plant
1.
___________________________
– carries water longitudinally (up the plant)
a.
Similar
in appearance to fibers, but longer and wider
b.
Secondary
walls contain pits (holes that extend through the cell walls & allow the
passage of water)
c.Usually overlap at the ends where pit pairs occur
d.
Dead
when functional
2.
___________________________-
same function as tracheids—carries water longitudinally (up the plant)
a.
Evolutionary
more advanced than tracheids
1.
Typically
found in angiosperms (flowering plants) and not in simpler plants like
gymnosperms
b.
Usually
shorter and wider than tracheids with thinner secondary cell walls
c.Cells have open areas at the ends where they join other
vessel elements to form long tubes called vessels
d.
Dead
when functional
3.
___________________________
(a.k.a. ray parenchyma) - living parenchyma cells which transport water
laterally (to the side)
a.
Ray
parenchyma is long-lived and alive when functional
b.
Ray
initials in the vascular cambium produce the xylem rays
4.
Fibers – support and protect the other cell types
B.
___________________________—tissue that
conducts carbohydrates (food) from the photosynthetic
parts
of the plant to the rest of the plant. All phloem cells, except fibers are
alive
when
functional.
1.
________________________________________-
elongated cells that are laid end to end to form long sieve tubes.
a.
They
do not have large openings like vessel elements
b.
Instead,
they have porous sieve plates through which plasmodesmata pass
c.
They
lose their nuclei at maturity so they cannot perform their normal cell
metabolism
a.
This
means they won’t be using a lot of the food that are carrying to other plant
cells, but they also can’t take care of themselves.
2.
________________________________________
- parenchyma cells that physiologically support the sieve-tube cells
3.
Phloem rays - similar to xylem rays; used for
lateral conduction
4.
Phloem fibers - support and protect the other phloem
cells
C.
___________________________
- the major constituent of bark. The
periderm is produced by the cork cambium.
1.
___________________________—boxlike
cells with cell walls impregnated with ___________________________ (a fatty
substance that waterproofs the cells).
Dead when functional.
2.
___________________________
—pockets of loose parenchyma that allow gas exchange through the bark
3.
___________________________
—consists of all of the cells from the secondary phloem to the outside of the
plant
