TRANSPORT IN PLANTS.pptx

Full Transcript

BIOLOGY
 TRANSPORT IN PLANTS
 Objectives
 Describe the structure of the xylem vessels,
sieve tubes and companion cells
 Explain how the structure of the xylem vessel
suits them for their function
 Describe the process involved in transpiration
 Demonstrate the effect of external factors on
the transpiration rate
 State the function of phloem in the transport
system of plants
Plants also have a transport
system. The XYLEM and
PHLOEM VESSELS. Together
they are called the
VASCULAR BUNDLE.
XYLEM VESSELS:- carry water
and minerals
PHLOEM VESSELS:- carry food
material which the plants
make
 WHY PLANTS NEED A TRANSPORT
SYSTEM?
 To transport water and mineral salts absorbed from
the roots
 Water-solvent for bio-chemical reactions and
reactant for cell metabolism ( light reaction in
photosynthesis)
 Mineral ions and salts are needed to synthesise
chlorophyll, for healthy plant growth and
development
 To be able to synthesis organic substances
 To transport carbohydrates (foos) produced by the
leaves to stem and roots for respiration, growth and
storage
 PROBLEMS PLANTS CAN
ENCOUNTER IN TRANSPORTING
SUBSTANCES:-
Plants are unable to pump
necessary substances through
great distances up the plant
sometimes requiring the need to
defy gravity
 there is no “pump” to circulate
materials around the plant
 HOW IS IT OVERCOME?
Plants use a combination of
capillarity which involves
adhesion and cohesion of
molecules, root pressure, and
transpiration pull to provide
enough force to transport water
up the xylem.
THE XYLEM VESSEL IN RELATION TO
TRANSPORT:- [pg 115]
Xylem contains four (4) types of cells:-
 They are dead cells that have no nuclei or cytoplasm
 Xylem vessels
 Tracheids
 Parenchyma (to store food substances) and
 Fibres (to provide support) a type of sclerenchyma
 Xylem vessels and thracheids are water conducting cells
 They are elongated cells arranged end to end
 The end walls of xylem vessels are open this allows water to
flow upwards continuosly
 The cell walls are thickened with LIGNIN This makes the
vessel strong so it does not collapse under the tension
created by the upward pull of water during transpiration
Make sure you know the cross section and longitudinal section of
xylem
THE STRUCTURE OF PHLOEM VESSEL IN
RELATION TO TRANSPORT PG 115-116
Functions::
 Transport organic substances downwards (from the
leaves to the storage organs)
 Also upwards (from the storage organs) such as the
roots to the growing regions such as the buds.
Structure:-Composed of 4 types of cells
 sieve tubes:- where are organic substances are
transported. They are cylindrical columns of long cells
arranged end to end. It is a living cell but NO
NUCLEUS. Its cytoplasm is pushed side of the cell.
 Ends of the walls are perforated by pores called the
SIEVE PLATES. Each sieve tube cell is kept alive and
supported in their function by one or more
COMPANION CELLS
Structure of phloem continued:-

COMPANION CELL:-
Contains a nucleus and a large
number of mitochondria,
indicating that it is very active
metabolically
Cell wall does not contain lignin
ARRANGEMENT OF VASCULAR
BUNDLE IN THE ROOTS
ARRANGEMENT OF VASCULAR
BUNDLE IN THE STEM
MOVEMENT OF WATER THROUGH A PLANT
(PG 117)

The movement of water through a plant
can be broken down in five stages:-
Absorption of water by the root hair cells
Movement of water across the root cortex
to the xylem
Movement of water up the xylem
Movement of water across the leaf cells
Evaporation of water from the leaves
 EVAPORATION OF WATER FROM
THE LEAVES pg 117
The concentration of water molecules
inside the cells is higher than in the air
space,and higher there than outside the
leaf. So some of the water evaporates
from the cells into the air space and
diffuses out of the leaf through the
stomata down the concentration gradient.
FROM WHAT CELLS /STRUCTURE WATER
PASSES FROM THE LEAF
ANS :- STOMATA
 TRANSPIRATION IS THE LOSS OF
WATER BY EVAPORATION FROM
THE SURFACE OF THE LEAVES pg
118.
MOVEMENT OF WATER WITHIN THE
LEAF :- as water evaporates from the
surface of the cells near the air spaces,
its concentartion in those cells (A) is
lowered. The concebtration in the
adjacent cells (B)is now higher than the
A cells.This results in the movement of
water from cell B to cell A by osmosis.
 MOVEMENT OF WATER UP THE
XYLEM PG 118

Water moves up the xylem because of three
factors:-
 CAPILLARITy
 ADHESION:- ATTARCTION BETWEEN THE WATER
MOLECULES AND THE WALLS OF THE XYLEM
VESSELS
 COHESION:- WHEREWATER MOLECULES STICK
TOGETHER
 ROOT PRESSURE:-
 TRANSPIRATION PULL
CAPILLARITY
 ROOT PRESSURE
 WATER CONSTANTLY MOVES INTO ROOTS CELLS BY
OSMOSIS BECAUSE THE PRESENCE OF SUGARS AND
OTHER DISSOLVED SUBSTANCES IN THE ROOT
MEANS THAT THE WATER CONCENTRATION CAN
NEVER BE AS HIGH IN THE ROOT CELLS AS IN THE
SOIL. WATER ABSORBED INTO THE PLANT FROM THE
SOIL CREATES A PRESSURE IN THE ROOT XYLEM.
THE PRESSURE THERE IS GREATER THAN IN THE
LEAF XYLEM BECAUSE WATER IS PULLED OUT OF THE
LEAF XYLEM BY TRANSPIRATION. SO WATER MOVES
FROM THE HIGH PRESSURE IN THE ROOTS UP THE
XYLEM VESSELS IN THE STEM TO THE LOW
PRESSURE IN THE LEAVES
 TRANSPIRATION PULL

THE FLOW IN THE SYSTEM IS
MAINLY BY COHESIVE FORCES
HOLDING WATER MOLECULES
TOGETHER AND THE LOSS OF
WATER BY EVAPORATION IN THE
UPPER AREAS OF A PLANT
CREATING A TENSION THAT ‘PULLS’
WATER UPWARDS. THIS IS THE
TRANSPIRATION PULL
ABSORPTION OF WATER BY ROOT HAIR
CELLS AND ACROSS THE ROOT CORTEX
[PG 119]
TRANSPIRATION
TRANSPIRATION IS THE EVAPORATION OF
WATER FROM A PLANT.
IT IS IMPORTANT TO THE PLANT
BECAUSE:-
IT PULLS WATER UP TO THE LEAF FOR
PHOTOSYNTHESIS
THE MOVING WATER CARRIES DISSOLVED
MINERAL SALTS UP TO THE LEAVES
THE EVAPORATION OF WATER COOLS THE
PLANT
 TRANSPIRATION RATE

THE RATE AT WHICH THE PLANT TAKES
UP WATER DEPENDS ON THE RATE AT
WHICH IT IS LOST.
THE FASTER THE TRANSPIRATION
RATE , THE FASTER THE PLANT TAKES
UP WATER.
FACTORS THAT AFFECT TRANSPIRATION
RATE INCLUDES:-
 TEMPERATURE:- WITH HIGH TEMPERATURES , AS ON A
HOT DAY,EVAPORATION OCCURS RAPIDILY THUS
INCREASING THE RATE OF TRANSPIRATION
 HUMIDITY:- High humidity means the air has plenty water
molecules or saturated with water molecules.The
concentration gradient of water between the air spaces
and the outside air is low and the rate of evaporation of
water through the stomata is slow, thus, transpiration
decreases as humidity increases.
 WIND (AIR MOVEMENT):- In windy conditions , water
vapor is carried rapidly away from the leaves and the rate
of transpiration is fast. Transpiration increases as wind
speed increases
 LIGHT INTENSITY:- During bright light, the stomata are
fully opened. When the stomata are fully opened the rate
of transpiration is high.
ADAPTATION IN PLANTS TO CONSERVE
WATER