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Transcript
Circulatory Systems
AP Biology
2008-2009
AP Biology
Exchange of materials
 Animal cells exchange material across
their cell membrane
fuels for energy
 nutrients
 oxygen
 waste (urea, CO2)

 If you are a 1-cell organism that’s easy!

diffusion
 If you are many-celled that’s harder
AP Biology
Overcoming limitations of diffusion
 Diffusion is not adequate for moving
material across more than 1-cell barrier
CO2
CO2
aa
aa
CO2
CHO
NH3
CH
AP Biology
O2
NH3
aa
aa
CO2
NH3
CO2
CO2
NH3
NH3
CO2
CH
NH3
NH3
CO2
CHO
O2
CO2
CO2
O2
CH
aa
O2
NH3
NH3
CHO
CO2
aa
In circulation…
 What needs to be transported

nutrients & fuels
 from digestive system

respiratory gases
 O2 & CO2 from & to gas exchange systems: lungs, gills

intracellular waste
 waste products from cells
 water, salts, nitrogenous wastes (urea)

protective agents
 immune defenses
 white blood cells & antibodies
 blood clotting agents

regulatory molecules
 hormones
AP Biology
Circulatory systems
 All animals have:
circulatory fluid = “blood”
 tubes = blood vessels
 muscular pump = heart

open
hemolymph
AP Biology
closed
blood
Open circulatory system
 Taxonomy

invertebrates
 insects,
arthropods,
mollusks
 Structure

no separation
between blood &
interstitial fluid
 hemolymph
AP Biology
Closed circulatory system
 Taxonomy

invertebrates
 earthworms, squid,
octopuses

vertebrates
 Structure

blood confined to
vessels & separate
from interstitial fluid
 1 or more hearts
 large vessels to smaller
vessels
 material diffuses
between blood vessels
& interstitial fluid
AP Biology
closed system = higher pressures
Vertebrate circulatory system
 Adaptations in closed system

2
low
pressure
to body
number of heart chambers differs
3
4
low O2
to
body
high
pressure
& high O2
to body
What’s the adaptive value of a 4 chamber heart?
4 chamber heart is double pump = separates oxygen-rich &
AP
Biology
oxygen-poor
blood; maintains high pressure
Evolution of vertebrate circulatory system
fish
2 chamber
amphibian
3 chamber
reptiles
3 chamber
birds & mammals
4 chamber
Birds AND
mammals!
Wassssup?!
V
A
A
A
V
AP Biology
A
V
A
V
A
V
A
V
Evolution of 4-chambered heart
 Selective forces

increase body size
 protection from predation
 bigger body = bigger stomach for
herbivores

endothermy
 can colonize more habitats

flight
 decrease predation & increase prey
capture
 Effect of higher metabolic rate

greater need for energy, fuels, O2,
waste removal
 endothermic animals need 10x energy
AP Biology  need to deliver 10x fuel & O2 to cells
convergent
evolution
Vertebrate cardiovascular system
 Chambered heart
atrium = receive blood
 ventricle = pump blood out

 Blood vessels

arteries = carry blood away from heart
 arterioles

veins = return blood to heart
 venules

capillaries = thin wall, exchange / diffusion
 capillary beds = networks of capillaries
AP Biology
Blood vessels
arteries
veins
artery
venules
arterioles
arterioles
capillaries
venules
veins
AP Biology
Arteries: Built for high pressure pump
 Arteries

thicker walls
 provide strength for high
pressure pumping of blood
narrower diameter
 elasticity

 elastic recoil helps
maintain blood
pressure even
when heart relaxes
AP Biology
Veins: Built for low pressure flow
Blood flows
toward heart
 Veins
thinner-walled
 wider diameter

Open valve
 blood travels back to heart
at low velocity & pressure
 lower pressure
 distant from heart
 blood must flow by skeletal muscle
contractions when we move
Closed valve
 squeeze blood through veins

valves
 in larger veins one-way valves
allow blood to flow only toward heart
AP Biology
Capillaries: Built for exchange
 Capillaries

very thin walls
 lack 2 outer wall layers
 only endothelium
 enhances exchange
across capillary

diffusion
 exchange between
blood & cells
AP Biology
Controlling blood flow to tissues
 Blood flow in capillaries controlled by
pre-capillary sphincters
 supply varies as blood is needed
 after a meal, blood supply to digestive tract increases
 during strenuous exercise, blood is diverted from
digestive tract to skeletal muscles

Why?
capillaries in brain, heart, kidneys & liver usually
filled to capacity
AP Biology
sphincters
open
sphincters closed
Exchange across capillary walls
Fluid & solutes flows
out of capillaries to
tissues due to blood
pressure
Lymphatic
capillary
Interstitial fluid flows
back into capillaries
due to osmosis
 plasma proteins  osmotic
 “bulk flow”
pressure in capillary
BP > OP
BP < OP
Interstitial
fluid
What about
edema?
Blood
flow
85% fluid returns
to capillaries
Capillary
AP Biology
Arteriole
15% fluid returns
via lymph
Venule
Lymphatic system
 Parallel circulatory system

transports white blood cells
 defending against infection

collects interstitial fluid &
returns to blood
 maintains volume & protein
concentration of blood
 drains into circulatory system
near junction of vena cava &
right atrium
AP Biology
Lymph system
Production & transport of WBCs
Traps foreign invaders
lymph vessels
(intertwined amongst blood vessels)
lymph node
AP Biology
Mammalian
circulation
systemic
pulmonary
systemic
AP Biology
What
do blue vs. red areas represent?
Mammalian heart
Coronary arteries
AP Biology
to neck & head
& arms
Journal
 Explain how names of the anatomical
portions of the heart can give you hints
about their locations…ie… Pulmonary
Vein tells you what…
 Explain how the lymphatic system and
cardiac system work together to keep
us healthy and alive.
AP Biology
Coronary arteries
bypass surgery
AP Biology
Heart valves
 4 valves in the heart


flaps of connective tissue
prevent backflow
SL
 Atrioventricular (AV) valve


between atrium & ventricle
keeps blood from flowing back
into atria when ventricles contract
 “lub”
 Semilunar valves


between ventricle & arteries
prevent backflow from arteries into
ventricles while they are relaxing
 “dub”
AP Biology
AV
AV
Lub-dub, lub-dub
 Heart sounds


closing of valves
“Lub”
SL
 recoil of blood against
closed AV valves

“Dub”
AV
AV
 recoil of blood against
semilunar valves
 Heart murmur

AP Biology
defect in valves causes hissing sound when
stream of blood squirts backward through valve
Cardiac cycle
 1 complete sequence of pumping
heart contracts & pumps
 heart relaxes & chambers fill
 contraction phase

 systole
 ventricles pumps blood out

relaxation phase
 diastole
 atria refill with blood
systolic
________
AP Biology
diastolic
pump
(peak pressure)
_________________
fill (minimum pressure)
110
____
70
Measurement of blood pressure
 High Blood Pressure (hypertension)

if top number (systolic pumping) > 150
AP Biology
if bottom number (diastolic filling) > 90
Electrical Excitation Creates Contraction of the
Heart
 Caused by membrane depolarization
 Nervous system intiates.

Triggered by the sinoatrial node
(SA)
 pacemaker for the heart.

Triggers nearly simultaneous
signal to atria due to gap
junction connection of
cardiac muscle cells.
AP Biology
After atria depolarization
 Delay of 0.1 seconds


connective tissue separate A
and V
specialized muscle cells
(atriuventricular node or AV)
pass to Ventricle.
 AV slower so transmit slower.
Delay allows for A to finish
contracting and emptying
blood.
Wave spreads to ventricles


AP Biology
From the AV…
 Wave of depolarization is conducted over
both ventricles by the atriventricular bundle
(bundle of His)
 Transmitted by Purkinje fibers.
 Rapid conduction allows for V to
simultaneously
AP Biology
Rate Adjustment
 Neural regulation
 Hormone epinephrine
AP Biology
Measuring the Currents =
Electrocardiogram
 Record electrical




activity from
electrodes
(ECG or EKG).
P is depolarization
of Atria (systole)
QRS is
depolarization of
ventricle
T is ventricular
repolarization
(diastole)
AP Biology
Journal
 Read about cardiovascular diseases
(pg. 1051).
 Summarize as journal.
AP Biology