transport in plants🌱🌿

Question 1

how are guard cells adapted

Answer 1

• thick inner wall, thin outer wall
• when cells swell the outer wall is able to bend
• opens stomata

Question 2

use cohesion tension theory to explain how water moves up xylem from roots to leaves

Answer 2

• evaporation at leaf
• creates tension in xylem
• H2O molecules are cohesive
• columb pulled up by tension

Question 3

difference between transpiration and transpiration stream

Answer 3

transpiration- evaporation of water at the leaves

transpiration stream- movement of water up xylem vessels from roots to leaves

Question 4

what in xylem vessels allows water to pass into adjacent vessels

Answer 4

pits

Question 5

what are the gaps in cell walls between companion cells and sieve tube elements called

Answer 5

plasmodesmata

Question 6

what is source and sink

Answer 6

source- site where sucrose is loaded onto phloem

sink- site where sucrose is unloaded from phloem

Question 7

when bark is removed, phloem is also removed. explain why when whole ring of bark is removed, the tree trunk swells above the cut

Answer 7

• sugars cannot pass the cut
• water potential decreases (bc sugars stay)
• water moves into cells

Question 8

Explain the significance of the relationship between rate of diffusion and the surface area to volume ratio for large plants.

Answer 8

• low sa:v ratio
• diffusion too slow to meet oxygen demands
• need exchange surface area
• need transport system

Question 9

function of pits

Answer 9

• allows water to move between vessels
• to bypass blockage
• supply water to other tissues

Question 10

adaptations of sieve tubes for mass flow

Answer 10

• no nucleus
• pores in sieve plates
• elements joined end to end

Question 11

how are assimilates loaded onto phloem

Answer 11

• active transport of h+ ions out of companion cells
• creates h+ ion concentration gradient
• facilitated diffusion of h+ ions back into companion cells
• sucrose moves in with h+ ions by cotransport
• sucrose diffuses through plasmodesmata into sieve tube element

Question 12

why do flowers survive longer when stems cut and immediately put into water

Answer 12

air bubbles in xylem removed to restore continuous column of water

Question 13

how does transpiration contribute to the mechanism of water transport up the stem

Answer 13

in leaf

• water loss from leaf replaced via apoplast and symplast pathways
• down wp gradient
• lost water replaced by water from xylem

in xylem

• loss of water creates low hydrostatic pressure in leaf
• water moves down pressure gradient
• under tension
• by mass flow
• cohesion

Question 14

how to make sure potometer is set up correctly

Answer 14

• make sure shoot healthy
• assemble apparatus underwater
• cut end of shoot
• check so no air bubbles
• apparatus water tight
• dry leaves

Question 15

explain why potometer gives estimate of transpiration

Answer 15

• potometer measures water uptake

- not all water is lost

Question 16

adaptations that reduce water loss in leaf

Answer 16

• waxy cuticle is waterproof and impermeable
• stomata close during day which reduces diffusion
• fewer stomata reduces diffusion
• sunken stomata trap water vapour

Question 17

does phloem form vessels

Answer 17

no lol

Question 18

in cross section of xylem, what is the hole in the middle

Answer 18

vessel lumen

Question 19

precaution when using potometer

Answer 19

keep temp constant as it affects rate of transpiration

Question 20

how to ensure estimate of leaf area is accurate

Answer 20

flatten leaves

Question 21

describe how new xylem cells are produced

Answer 21

• produced in meristem

- differentiation

Question 22

describe apoplast pathway

Answer 22

• water movement through cell wall
• continuous flow of water through open structure of cellulose cell wall
• casparian strip in endodermis is waterproof and forces water to enter symplast pathway

Question 23

describe symplast pathway

Answer 23

-through cytoplasm and plasmodesmata of cells

Question 24

evidence for role of active transport in root pressure

Answer 24

• cyanide stops mitochondria from producing ATP, when it is applied to roots then root pressure disappears
• as temp increases root pressure increases suggesting chemical reactions involved
• low oxygen or glucose then root pressure falls

Question 25

evidence for cohesion tension

Answer 25

• when transpiration is at its highest during the day, tension in xylem is at its highest
• when xylem vessel is broken, eg stem cut, air is pulled up stem and water does not leak
• also then the plant can no longer move water up stem as continuous stream has been broken

Question 26

adaptations of xerophytes

Answer 26

• thick waxy cuticle
• sunken stomata
• reduced number of stomata
• reduced leaves
• hairy leaves
• curled leaves
• roots that spread deep and wide

Question 27

adaptations of hydrophytes

Answer 27

• thin or no waxy cuticle
• many always open stomata on upper surface
• reduced structure to plant as water supports it
• wide flat leaves to capture as much light
• small roots as water diffuses directly into stem
• air sacs to float

Question 28

evidence that translocation is an active process

Answer 28

-microscopy to see adaptations of companion cells
-if mitochondria inhibited by poison then translocation stops
-much faster than diffusion suggesting active
-

Question 29

xylem vs phloem

Answer 29

• x water and ions p assimilates
• x up p up and down
• x from root p from source
• x to leave p to sink
• x transpiration p translocation
• x dead p alive
• x thick cell wall p thin cell wall
• x xylem vessels p sieve tube elements and companion cells