3.3.4.1- Mass transport in animals Flashcards
Capillaries & TF- (6)
1- Blood enters C from ARTERIOLES, smaller diameter results in HIGH HYDROSTATIC pressure
2- Ultrafiltration- small molecules are forced out (water, glucose, AA, fatty acids, ions, O2)
3- Large molecules remain, lowering WP
4- At venule end, low hydrostatic pressure & WP
5- Water re-enters C, via osmosis
6- Excess TF absorbed into lymphatic system
Veins vs arteries=
V= deoxygenated blood> heart A= Oxygenated blood AWAY from heart
Right vs left ventricle=
R= THINNER muscular wall as blood> L, so needs to be at LOWER pressure, to prevent damage to capillaries L= THICKER muscular wall as blood> B, so needs to be at HIGHER pressure to ensure blood reaches all cells in the body
Arteries vs veins= (3)
1- A= Thicker muscle layer (so can constrict & dilate to control volume of blood, V= Thinner muscle layer
2- A=Thicker elastic layer, V=Thin elastic layer
3- A=Thicker wall, V=Thin wall
Capillaries features-(for MF) (2)
1- have narrow diameter to slow blood flow (for maximal time for GE)
2- 1 cell thick- short DD
Arteriole features= (2)
1- Thickest muscle layer to help RESTRICT blood flow > capillaries (so more time for GE)
2- Thinner elastic layer & walls than Artery, as lower pressure
Cardiac output=
Cardiac output= heart rate x stroke volume
HR= beats of heart/ min
stroke volume= Volume of blood that leaves heart each beat (dm3)
Cardiac cycle stages= (8)
1) Blood flows from L > left A, Blood flows from B> right A simultaneously
2) A contract increasing pressure in A
3) Blood is forced into the V
4) A relax & V contract
5) Pressure in V increases, shutting AV valves
6) Blood in V forced out & out of heart through pulmonary artery/ aorta
7) Blood in PA & Aorta, is at high pressure> this pressure shuts the semi-lunar valves
8) Both V & A relax & AV valves reopen
What property of the heart allows it to contract/relax with nervous or hormonal stimulation?
Thick muscular layer is myogenic, only requiring O2, and never fatigues
Key blood vessels (7)
1) coronary arteries (carry O2> h muscle)
2) Pulmonary artery (h>l)
3) Pulmonary vein (l>h)
4) Vena Cava (b>h)
5) Aorta (h>b)
6) Renal artery (>k)
7) Renal vein (k>)
Benefits of double circulatory system (1+2)
- allows pressure of blood flow to be managed- (lower in lungs to prevent capillary damage, HIGH pressure from heart to ensure blood reaches all respiring cells in body)
Mammalian circulatory system features= (2)
1) closed= blood remains within blood vessels
2) Double circulatory system= blood passes through heart TWICE in each circuit (one from blood>l) (one from l>b)
Factors influencing type of haemoglobin
1) High altitude (as low pO2 in environment; h has HIGH affinity)
2) High metabolic rate (high demand for O2 in the cells; h has LOW affinity)
What is the Bohr effect?
when a high CO2 conc causes the oxyhaemoglobin curve to shift to thr right;
the affinity of h>O2 decreases because CO2 changes shape of haemoglobin slightly
What happens when the 1st O2 molecule binds to haemgolobin
haemoglobin undergoes a conformational change making it easier for further O2 molecules to bind
