Transport in plants - KD Biokdbio.weebly.com/uploads/5/3/2/5/5325458/transport_in_plants_pdf.pdf ·...
Transcript of Transport in plants - KD Biokdbio.weebly.com/uploads/5/3/2/5/5325458/transport_in_plants_pdf.pdf ·...
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Transport in plants
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Homework for Monday:
• Correct potometer questions
• Complete transport in plants worksheet
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Transpiration – the loss of water from a plant through evaporation
Did you know?
•A 15m maple tree in the USA was estimated to have 177,000 leaves, with a total surface area of 675
square metres
•On a summers day, it lost 220 litres of water per hour through transpiration through the leaves
•The roots then needed to absorb this much from the soil each hour to prevent the plant from wilting
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•Transpiration mostly happens through the stomata, although some is lost through the leaf cuticle and a little through the stem •Internal and external factors influence the rate of transpiration:
Internal factors•Leaf surface area – more transpiration will occur with a larger leaf surface area•Stomatal density – if lots of stomata are present then more transpiration will occur•Cuticle thickness – if the cuticle is thick then less transpiration will occur
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External factors•(Light intensity) – this affects the stomatal aperture (size of opening) as more light encourages more photosynthesis, which needs carbon dioxide so stomata open more to allow it to diffuse in (i.e. More water vapour loss)
•Air currents – wind blows moist air away and maintains the concentration gradient for water to evaporate (no wind creates moist air pockets around stomata so less transpiration)•Temperature – the higher the temperature, the faster water molecules will evaporate
If it’s light, the stomata are open
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•Humidity (amount of water vapour in the air) – dry air has a low water potential and thus evaporation (transpiration) is high i.e. a gradient between leaf surface and the air exists. Moist air has a high water potential and thus less transpiration occurs•Soil water availability – more soil water available will allow for more photosynthesis so the stomata will open more to get carbon dioxide and thus more water will be lost. Also, the guard cells will be more turgid due to having lots of water and they will open
Carbon dioxide enters, while water and oxygen exit, through a leaf’s stomata:
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AS 2 Practical demo – the bubble potometer...
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(a) Assume that the rate of water uptake is equal to the rate of transpiration
(b) - Prevents air from entering the xylem and creating an air lock
- Remove capillary tube from water/expose to air and air is drawn in as shoot takes up water
- Allows air bubble to be moved back to the origin
- Allow the rates of transpiration to acclimatise to the surrounding conditions
Potometer PPQ answers…
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(c) Transpiration reduced when plant is covered by clear bag as air currents reduced
And more humid air outside stomatal pores
Diffusion gradient is therefore reduced / diffusion shells build up
Even less transpiration when black plastic bag is added as stomata close in the dark
Only cuticular traspiration can now happen (much less water lost in this way)
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(ii) 90mm long X 0.8 mm2 = 72 mm3
72 / 10 = 7.2 mm3 minute -1
(d) Different shoots have different sizes and surface areas with different stomatal densities and
numbers of leaves
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There are 2 systems of transport in plants:
•Xylem
transporting water and mineral ions
•Phloem
transporting sugars and soluble organic products of photosynthesis
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Plant tissues in relation to water (and ion) transport and translocation:
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• Piliferous layer
• Cortex
• Endodermis
• Stele
The piliferousregion contains the root hair cells
The root - regions include:
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Important diagram – note the position of the vascular tissues:
Draw a block tissue diagram of this!
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Pili
fero
us r
egio
n
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The tissues of the root
Epidermis – the outer layer of cells. Root hair cells (elongated epidermal cells) project into soil and increase surface area to absorb water and mineralsCortex – a layer of UNDIFFERENTIATED CELLS (parenchyma /packing tissue) between the epidermis and the vascular (conducting) tissue. In the leaf, this tissue can photosynthesise. CORTEX CELLS USUALLY HAVE SMALL AIR SPACES BETWEEN THEM AND CAN BE RICH IN STARCH GRAINS. Endodermis – thin, SINGLE layer of cells surrounding the vascular tissue (xylem and phloem). The endodermis contains a waterproof Casparian strip made of suberin
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The stele – the endodermis and the vascular tissue that it surroundsXylem tissue – many dead, hollow vessels carrying water and dissolved mineral ions up the plant to the leaves and other organs Phloem – tubular living cells that carry dissolved organic materials made through photosynthesis e.g. sucrose and amino acids, around the plantPiliferous region – the section of a young root which has root hairs as part of its epithelium (where water and mineral absorption occurs)
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• Epidermis
• Cortex
• Vascular bundles
• Pith
The stem – regions include:
xylem
cambium
phloemvascularbundle
cortex
epidermis
pith
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Phloem
Xylem
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Some extra tissues found in the stem:
Vascular bundle – describes the “veins” in a plant that consist of xylem, phloem and cambiumCambium – a third type of tissue in the vascular bundle (between the xylem and phloem). Cambium cells can divide to make new xylem cells to the inside or phloem cells to the outsidePith – found at the very centre of the stem (inside the vascular region). Like the cortex, the pith is made of unspecialised packing cells called parenchyma. They can store products of photosynthesis and their turgidity provides non-woody plants with support
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• Epidermis (+ waxy cutilcle)
• Palisade mesophyll
• Spongy mesophyll
• Vascular bundles (veins)
• Stomata + guard cells
The leaf – regions include:
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•Minerals can enter the root hairs passively by diffusion or actively by active transport (most ion uptake is through this)•If the conc. of the ions is higher inside the root hair than in the soil, then energy from ATP is used to pump the ions in to the root against the concentration gradient•Factors that affect the rate of respiration will therefore affect the rate of ion uptake e.g.?Oxygen supply, temperature, presence of inhibitors e.g. cyanide
The uptake of mineral ions by root hairs:
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•Once inside the root hairs, mineral ions move across the cortex to the xylem by the symplast (by diffusion) and apoplast (by diffusion and active transport) routes•After passing across the endodermis via the symplast route, mineral ions are thought to enter the xylem by a combination of active pumping and diffusion
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Water uptake involving osmosis
•Water enters the root hair from the soil by osmosis and passes across the cortex to the xylem tissue•The root hair cells in the piliferous region lack a waxy cuticle so that is why osmosis occurs here and nowhere else in the root (and have large SA)•The root hair cells have a lower water potential than the soil due to the solutes in their vacuoles (e.g. mineral ions); thus water moves in, and follows a concentration gradient:•When water enters a root hair cell, its water potential rises compared to the adjacent cells•Water moves into the next cell by osmosis•The water potential in the xylem is lower than that in the root cortex cells, so water travels across the cortex to the xylem vessels at the centre of the root
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Root hairs have: •Thin walls (short diffusion pathway)•Large surface area to volume ratio for absorption
Water travels through the cortex of the root to the xylem along 2 different routes...
The symplast and apoplast pathways
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What we will learn...
Understand the apoplast and symplast pathways through plant tissues:-The apoplast pathway along cellulose cell walls-The symplast pathway through protoplasts connected by plasmodesmata-The apoplast and symplast pathways in the root and leaf;-The role of the endodermis in ensuring the symplast pathway into the stele
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• Water moves through the protoplasts of the cortex cells
• Water can move through the plasmodesmata that connect the cytoplasm of one cell to the next
How?
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• Water moves through the cellulose fibrils of cell walls of the cortex cells
• As water passes through the spaces between the cellulose fibres the cohesive forces between the water molecules means more water is pulled along the apoplastic route as it offers less resistance than the symplast route
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Qu: Does water move straight into the cell walls of epidermal cells when travelling by the apoplast route or does it enter the cytoplasm first and then travel through the walls?
Water goes directly into cell walls , which is
why apoplast pathway is lots quicker than symplast – cellulose fibrils in cell wall offer
no resistance to the movement of water,
unlike the cytoplasm in the protoplast
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• The apoplast route is blocked at the endodermis• The cell walls of the endodermis are impregnated
with waxy suberin• This forms a band of wax around the cells called
the casparian strip• As suberin is waterproof the Casparian strip stops
water passing along the cell walls• To pass through the CS water must cross the cell
membrane and pass into the cytoplasm and continue along the symplast route into the stele
Why is this useful?
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By forcing the water and ions through the symplast pathway before entering the xylem, the Casparian
strip ensures the plant has control over what and how much water and dissolved mineral ions enter the xylem i.e. important for regulating the plant’s
cellular metabolism
Casparian strip
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Water and ions entering the endodermis via the symplast pathway thus come under the control of the cells metabolism
Ions are actively pumped into the xylem, which creates a lower water potential and then water follows along this water potential gradient
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June 06
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The movement of water (and dissolved ions) through the xylem tissue
-Cohesion-tension theory-Transpiration creating a negative pressure within leaf xylem vessels resulting in the transpiration stream-The cohesive and adhesive forces of water-The root pressure hypothesis
First we need to look at the structure of the xylem...
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Homework for tomorrow:
Finish plant transport notes
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is made of XYLEM VESSELS – these cells transport most of the water and mineral ions
• These are formed from a column of unspecialised cells which lose their end walls
• In these cells a secondary cell wall, impregnated with lignin is formed inside the primary cell wall
• This increases mechanical strength and is important if the vessels are to withstand the strong pressures that occur during water transport
• The lignin stops the xylem vessels from collapsing when under tension during water transport
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How xylem tissue forms:
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• Lignin is impermeable so materials cannot pass into the xylem cells and the protoplasm dies (what’s inside the cell membrane) i.e. mature xylem vessels are dead!
• The cells are hollow and nothing restricts the flow of water so less pressure is required to move the water than in living cells
• No lignin is laid down where plasmodesmata were present in the original cell walls
• These non-lignified areas are known as pits and they allow water to pass sideways between one xylem vessel and the next
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Homework for Monday:
Complete past paper question
Homework for Thursday:
Revise for transport in plants test
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Different types of lignin deposition in xylem vessels occurs depending on the age of the xylem and where it is found in the plant:
NEW XYLEM ORIGINATES FROM THE MERISTEMATIC REGION BETWEEN THE XYLEM AND PHLOEM CALLED THE CAMBIUM.
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1. Protoxylem – the first xylem to develop behind the root and shoot tips. Lignin is added in rings or spirals to form annularvessels (rings) and spiral vessels – this is to allow the vessels to elongate along with other tissue in the growth regions.
2 TYPES OF XYLEM TISSUE CAN EXIST TOGETHER ALTHOUGH PROTOXYLEM IS MORE
ASSOCIATED WITH NEW GROWTH AN METAXYLEM WITH MORE MATURE TISSUE
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2. Metaxylem – is produced in the more mature parts of the plant and the walls are fully lignified (with the exception of pits). We see reticulated and pittedpatterns of lignification here
- Reticulated vessels are thickened by interconnecting bars of lignin
- Pitted vessels have a uniform (always the same) thickness, except at pores seen as pits –these allow for rapid movement of water and ions out of the vessels to the surrounding cells
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• Secondary xylem allows woody plants to increase their girth each year
• This is known as secondary thickening• This seasonal growth shows up as annual rings• A ring formed in the previous year transports little
water, its main function being to support the plant’s increasing biomass
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Functions of the xylem:
• Conduction of water and mineral salts – water is drawn up under tension due to evaporation from leaves – there are different theories to explain this. Thickening prevents the collapse of the xylem vessels
• Mechanical support to the increasing biomass of the growing plant
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Summary:
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Jan 07
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2 main theories are used to explain the movement of water through the xylem
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• Created when mineral ions dissolved in the water travelling along the apoplast route in the roots cannot travel along the endodermal cell wall and are actively secreted into the cytoplasm and xylem by the endodermal cells (lowering the water potential in the xylem)
• Water moves from the surrounding cells in to the lower water potential in the xylem and a positive hydrostatic pressure is created, which pusheswater up the xylem
• This plays a minor role in the movement of water up the stem
1. Root pressure theory
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• Transpiration creates a negative pressure within the leaf xylem vessels resulting in the transpiration stream which PULLs water from the roots up the xylem. This is due to:
- COHESION: water molecule stick together due to H bonds
- ADHESION:water molecules stick to the sides of the xylem vessels
- TENSION:pressure created as molecules pull on each other
2. Cohesion-tension theory
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•The force needed to break this water column is very great•The xylem vessels are thickened to withstand the tension•Water eventually leaves the xylem in the leaf and moves through the mesophyll cells by the apoplast or symplast pathways•The cohesion-tension theory is regarded as the main way in which water reaches the leaves of plants from the roots
Read page 206 of Froggy
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A good summary of the movement of water through a plant:
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ESSAY:
Give an account of the processes involved in the movement of water
through a plant, to include:
● the uptake of water into and through the root
● the movement of water through the stem
● the movement of water through and out of the leaf [13]
Summer 2011
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Understand the translocation of organic solutes through phloem:-Involving energy expenditure and two-way flow-Evidence for the above properties (Theories of translocation NOT required)
First we need to look at the structure of the phloem...
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Transport of water through the xylem is a passive process but transport of materials such as sugars, amino acids and ions is an active process that requires energy (from companion cells)
Phloem tissue is made from columns of parenchyma cells, each adapted to form a sieve tube element (a column of these joined together makes a sieve tube)
The movement of substances such as sugars and ions through the phloem is called translocation
Phloem is therefore a living tissue
Phloem
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The most important phloem tissues in terms of transporting phloem sap are the...
sieve tube elements and companion cells
Sieve tube elements
These lie end-to-end to form a continuous stack called the sieve tube
To make transport through the elements easier, the thin cell walls at each end are perforated (have small holes) to form sieve plates
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Unlike xylem vessels – the sieve tube element is alive, although as it matures it loses several of the usual plant cell organelles -the nucleus, ribosomes and Golgi bodies all degenerate
The loss of these structures allows material to flow more easily
They do have a cell wall, a cell surface membrane and a slight amount of cytoplasm lining the inside of the cellulose cell wall
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Did you know?
The pores can also be closed slowly in
response to major changes in the
environment, like the onset of winter in the
Temperate Zone. Pores closed in this
manner may open when growing conditions
become more favourable
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Companion cells
These are closely associated with the sieve tube elements as their cytoplasms are linked by plasmodesmata
Each sieve element has at least one companion cell adjacent to it
Companion cell cytoplasm is more dense with more mitochondria so have higher levels of metabolic activity
Companion cells have a typical cell structure with the exception of having more mitochondria and ribosomes than the usual plant cell
This reflects the fact that they are very metabolically active (providing lots of energy for sugar movement in the sieve tube elements)
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The fact that the sieve tube element has lost so many of its organelles means that it needs a companion cell with a nucleus to help it survive
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The companion cells do not transport materials, but maintain the activity of the sieve tube elements
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Summary:
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• This is the movement of organic solutes through the phloem
• It involves energy expenditure (using companion cells) and two way flow
• Evidence that sugars are transported in the phloem exists from a number of experiments...
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Translocation of organic solutes (in phloem sap)
Sap contains mainly sucrose (although amino acids and other solutes can be present). There are 2 main principles relating phloem sap movement:
1) Movement involves energy expenditure – evidence suggests that mass flow is maintained by an active mechanism:-Rate of flow is higher than that accounted for by diffusion-Companion cells have a particularly high density of mitochondria. ATP is used to pump sucrose into companion cells where it enters the sieve tube element via plasmodesmata-Metabolic poisons e.g. potassium cyanide that stop respiration, also stop translocation
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2) Movement is two-way (from “source to sink”) -The source is the organ where the sugar is made by photosynthesis or by starch breakdown (e.g. in leaves) and the sink is the organ that consumes or stores the carbohydrate (e.g. developing buds, flowers, roots, and root storage organs). Therefore sugar can be moved up to a bud or down to the roots.
Depending on the season an organ may be a source or sink e.g. in summer the potato tuber is a sink but in the spring it is a source of carbohydrate (where starch is broken down to provide energy for growing shoots).
When given to a leaf, radioactively labelled sucrose has been seen to move to the shoot tip and the roots
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Radioactive tracers – Carbon dioxide is labelled using radioactive Carbon 14 and given to plants. It becomes converted to radioactive sugars. The movement of these sugars can be detected by taking autoradiographs of plant sections
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Homework for Friday 28/3/14
Revise for Transport in Plants
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Transport in plants pp questions
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June 09 old spec
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Jan 07
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June 08
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Jan 08
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