Mass Transport Ch.7

Question 1

The structure of Haemoglobin

Answer 1

A protein molecule with a Quaternary structure. Has 4 polypeptides. Each polypeptide is attached to Fe2+ ion. Each Fe2+ ion can bind with one O2. A total of 4 O2 can bind to haemoglobin.

Question 2

What is the equation for haemoglobin loading

Answer 2

haemoglobin + oxygen = oxhaemoglobin

Question 3

What is the equation for heamoglobin dissociating

Answer 3

oxhaemoglobin = haemoglobin + oxygen

Question 4

What is high affinity for O2

Answer 4

O2 is readily taken up but releases it less easily

Question 5

What is low affinity for O2

Answer 5

O2 is released readily but taken up less easily

Question 6

What is the role of haemoglobin

Answer 6

To transport oxygen

Question 7

Where does O2 readily dissociate?

Answer 7

Places where oxygen is required and concentration of oxygen is low (tissues ) E.g. muscles

Question 8

Where does O2 readily associate with oxygen?

Answer 8

At the surface of gas exchange, where oxygen concentration is high. E.g lungs

Question 9

What is partial pressure of oxygen?

Answer 9

The concentration of oxygen. the hypothetical pressure of oxygen if it alone occupied the entire volume

Question 10

How does the concentration of CO2 relate to the pH?

Answer 10

The higher the CO2 concentration the lower the pH.

Question 11

How does the pH relate to the structure of haemoglobin?

Answer 11

When the pH lowers the shape/structure of haemoglobin changes and the affinity for oxygen lowers. pH high= higher affinity

Question 12

High CO2 concentration has low or high affinity?

Answer 12

Low affinity

Question 13

Low CO2 concentration has low or high affinity?

Answer 13

High affinity

Question 14

Explain the shape of the oxygen dissociation curve?

Answer 14

First O2 is hard to bind because of the shape of haemoglobin. After first binds the Quaternary structure changes and 2nd and 3rd O2 binds easier. The 4th O2 is hard to bind too because there is less chance for the O2 to bind to a free iron.

Question 15

What does it mean if the oxygen dissociation curve is more to the right?

Answer 15

Lower affinity in general, realises oxygen more readily

Question 16

What does it mean if the oxygen dissociation curve is more to the left ?

Answer 16

Higher affinity in general, binds with oxygen more readily.

Question 17

Define Mass Transport

Answer 17

Large scale transport of substances through a transport system to and from exchange surfaces.

Question 18

What determines whether an organism needs a specialised transport system or a pump.

Answer 18

Surface area: volume ratio (lower=bigger organism=needs specialised system+pump). More active= needs specialised system+ pump.

Question 19

Hepatic is?

Answer 19

Liver

Question 20

Renal is?

Answer 20

Kidney

Question 21

Explain the route the blood takes on the right side of the heart?

Answer 21

(superior/inferior) vena cava

Question 22

How do valve work?

Answer 22

By difference in blood pressure

Question 23

What is the use of valves?

Answer 23

To prevent backflow

Question 24

Where are the Atrioventricular valves?

Answer 24

Valves between the arteries and ventricle

Question 25

Where are the Semi-lunar valves?

Answer 25

After the ventricle, in the aorta and pulmonary artery

Question 26

Whats the name of the blood vessel that supplies blood to the heart?

Answer 26

coronary artery

Question 27

What is systole?

Answer 27

contract

Question 28

What is diastole?

Answer 28

Relaxing

Question 29

Why is the Aortic pressure always relatively high?

Answer 29

Has to pump blood all around the body so needs a lot of force and high pressure. Elastic recoil the keeps this high pressure

Question 30

Why is the atrial pressure always relatively low?

Answer 30

Atrium’s have thin walls and only need to pass blood into the ventricle therefore not much pressure or force is required.

Question 31

What’s the structure of capillary?

Answer 31

Only an endothelium cell lining

Question 32

What’s the structure of an artery?

Answer 32

Narrow lumen, endothelium cell lining, thick elastic layer and muscular layer, no valves (except aorta) and thick outer layer.

Question 33

What’s the structure of a vein?

Answer 33

Large lumen, endothelium cell lining, thin elastic and muscular layer, valves and thin walls.

Question 34

What’s the advantage of the capillaries structure?

Answer 34

Short diffusion pathway for the exchange of substances

Question 35

What’s the advantage of the arteries structure?

Answer 35

Narrow lumen maintains high pressure, thick elastic and muscular layer means it can stretch and contract to help pump blood. Thick outer layer ensures the artery doesn’t burst with this high pressure.

Question 36

What’s the advantage of the veins structure?

Answer 36

Large lumen to accommodate the slow moving blood. Thin elastic and muscle wall because blood does not move in pumps. Thin outer layer/wall because low pressure so no chance of bursting.

Question 37

Where is tissue fluid found?

Answer 37

It surrounds cells and tissue

Question 38

What is tissue fluid used for?

Answer 38

Used as and exchange medium carries oxygen, glucose, water, amino acids and ions to cells and removes CO2 and urea.

Question 39

By what mechanism is tissue fluid made?

Answer 39

Hydrostatic pressure

Question 40

How is tissue fluid formed?

Answer 40

There is a higher hydrostatic pressure in the arteriole than in the surroundings due to the heart pumping. As a result ultra filtration occurs and small molecules such as glucose, water and oxygen are pushed out of the capillary. This is tissue fluid.

Question 41

Why is tissue fluid reabsorbed into the capillary.

Answer 41

At the veinous end of the capillary due to the loss of tissue fluid, the water potential is more negative than before. The loss of tissue fluid has decreased the pressure. As a result most of the tissue fluid is reabsorbed by osmosis .

Question 42

How else can tissue fluid be reabsorbed?

Answer 42

Through the lymphatic system where lymph is moved by the contraction of skeletal muscles. The fluid is then reintroduced into the blood system through ducts.

Question 43

What can happen if you do not move for a long time and why?

Answer 43

Lymph moves from the contraction of skeletal muscles. If muscles do not contract then the lymph gravitates downwards and will accumulate at the ankles. This results in swollen ankles.

Question 44

How could a lack of protein in the diet result in problems with tissue fluid?

Answer 44

Less amino acids in the blood leads to a less negative water potential at the veinous end of the capillary and as a result less tissue fluid is reabsorbed by osmosis. Tissue fluid then accumulates.

Question 45

Why is there a more negative water potential at the veinous end of the capillary?

Answer 45

Though solutes and water have moved out to produce tissue fluid in the arteriole end of the capillary. Some water and solutes remain in the capillary and in what remains there a bigger ratio of solutes to water then before, so water potential decreases.

Question 46

Where temperature is relatively high would the dissociation curve be more right or left? Higher affinity to oxygen or lower?

Answer 46

Lower affinity and more to the right because higher temperature means more respiration is occurring, releasing more CO2 and more oxygen is needed.

Question 47

Where pH is relatively high would the dissociation curve be more right or left? Higher affinity to oxygen or lower?

Answer 47

Higher affinity and more to the left because higher pH means less CO2 and less lactic acid is present meaning respiration is not occurring so oxygen does not need to be released readily.

Question 48

What’s the definition of Transpiration

Answer 48

The evaporation of water through the leaves via the stomata

Question 49

Whats Cohesion

Answer 49

When water sticks together because they are polar and form hydrogen bonds between molecules

Question 50

What is transported in the xylem?

Answer 50

Mineral ions (non-organic) and water

Question 51

In what direction does water and ions get transported in?

Answer 51

Only goes up

Question 52

What is the structure of the xylem?

Answer 52

Hollow tube made up of dead cells meaning no cell walls b/n the cells and no organelles. The cell wall is made of cellulose and lignin.

Question 53

What is the xylem cell wall made up of?

Answer 53

Lignin and cellulose

Question 54

What is the advantage of the xylems structure

Answer 54

Dead hollow cells mean there is nothing inside the tube to slow down the transport of water and minerals. Cellulose in cell wall allows the xylem to be strong and rigid so it won’t burst under the pressure of water. Lignin is waterproof and strong preventing leakage of water.

Question 55

Explain the cohesion tension theory?

Answer 55

Transpiration of water through the stomata creates a lower pressure at the top of the xylem. This pressure difference creates tension and water is pulled up. Water moves up in a continuous column because of cohesion.

Question 56

What effects the rate of transpiration?

Answer 56

Temperature, light, Humidity and wind

Question 57

What two ways do water and minerals get to the xylem?

Answer 57

1) Cell wall pathway- water moves through cells wall only. This is fast but dangerous.
2) Cytoplasmic pathway- water moves through cytosplasm of each cell having to cross selectively permeable membrane many times. This takes longer but is safer.

Question 58

What’s the structure of Phloem?

Answer 58

Living cells. Sieve tube elements stacked ontop, filled with cytoplasm. Between each element is a sieve plate. Each sieve element has its own companion cell.

Question 59

What is translocation?

Answer 59

The transport of organic substances in the phloem from source to sink

Question 60

What and where is a source?

Answer 60

Where glucose is produced, e.g leaves (where photosynthesis takes place)

Question 61

What is a sink?

Answer 61

Where glucose is transported to/ needed?

Question 62

Where could a sink be and for what purpose?

Answer 62

The root- for storage of insoluble starch.

Growing shoot- Glucose for respiration to produce ATP and help grow.

Question 63

Why is glucose converted to sucrose for transport in the phloem?

Answer 63

Sucrose is less reactive than glucose because it is a non-reducing sugar so will be transported for longer without reacting.

Question 64

What is the name of the theory for the translocation?

Answer 64

Mass Flow Theory

Question 65

How does sucrose get transported into the phloem?

Answer 65

Photosynthesising cells produce glucose which is converted to sucrose. High conc gradient of sucrose in the cell and low in companion cell so sucrose moves down conc gradient by facilitated diffusion. H+ ions are actively transported into the cell wall and the diffused into cytoplasm bringing sucrose with it.

Question 66

From the phloem how does sucrose get to the sink?

Answer 66

At the source end, there a very negative water potential so water from the xylem moves into the phloem by osmosis. This creates a high pressure. At the sink end sucrose is actively transported out of the phloem making the water potential more negative. As a result water moves out of phloem by osmosis too and the pressure decreases. The difference in pressure at source and sink makes the sucrose flow.

Question 67

How does ringing support mass Flow theory

Answer 67

the phloem is removed and swelling occurs at the source side and death occurs below at sink source. This show organic substances is transported via phloem.

Question 68

How does Aphids support Mass Flow Theory

Answer 68

Aphids feel from the phloem using their needle mouth piece. When you remove the body sap flows out of their mouth part. Flowing out = Pressure and sap illustrates the phloem transports organic substances.

Question 69

How does using radio active isotopes support Mass Flow Theory

Answer 69

If a plant only has access to Carbon-14 and you x ray the plant, Carbon-14 will appear in the phloem because the carbon has been incorporated into the organic substances e.g Glucose

Question 70

Give evidence against the Mass Flow theory

Answer 70

Some substances flow faster than others and we don’t know why.
Unknown why sieve plates are present, if anything would hinder the flow of substances.