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Respiratory and Circulatory Functions
Lecture #8
Ms. Day/ Honors Biology
Circulatory and Respiratory Systems
They work together to help maintain homeostasis in the body.
What do they help to regulate?Body tempHeart rateBreathing rateO2 and CO2 levels in cells
Function of Respiratory and Circulatory Systems
Main job of Respiratory System Transport gases to and from the circulatory
system What gases?
Get oxygen (O2) into the body and remove waste gases (CO2) out of the body
Main job of Circulatory System Moves blood to all parts of the body.
Get oxygen (O2) into the body and remove waste gases (CO2) out of the body
These systems work together!
Where do the gases come from? Where do the gases come from? Why do we need them? Why do we need them?
Cellular Respiration: creates ATP from food
O2 = Needed for cellular respiration to make ATP (energy)
You breath in O2 from air
CO2 = waste product
The overall process is:Macromolecules + Macromolecules + OO22 COCO22 + H+ H22O + energy (ATP)O + energy (ATP)
Carbohydrates, fats, and proteins can all be used as the fuel, but most useful is glucose.
Respiratory and Circulatory Systems
Components of Respiratory NoseMouthPharynxTracheaLungsDiaphragm
Components of CirculatoryHeartBloodBlood Vessels
ArteriesVeinsCapillaries
Respiratory System (in detail)
RESPIRATORY SYSTEM
Respiratory surface = the exchange of gases between the atmosphere and the blood (entirely dependent on diffusion!!!)
Movement of substance from high concentration to low concentration
Mucous membranes are found through the respiratory system thin, warm and moist needed for diffusion
External Respiration Pathway
Pathway of Air into the Body1. Nose/Mouth-external opening to allow
entry Air is filtered, cleaned, warmed,
moistened2. Air moves through pharynx to trachea
Trachea (windpipe) traps the inhaled particles with cilia and mucus
Mucustraps foreign particles
Cilia“sweep” foreign material away
from lungs to be swallowed
Pathway of Air into the Body (continued)
3. Enters a series of tubes Protected by cartilage to
keep tubes firm/open
1st = Enters trachea which branches out into
2nd = two bronchi that also branches out into even smaller tubes called bronchioles
4. Bronchioles end up in air sacs called alveoli, where all exchange of gases occur.
Structure of Alveoli(ends of bronchioles)
• Small air sacs covered in mucus• Wrapped in tiny blood vessels called capillaries
•300 to 600 million in a pair of lungs•Great deal of surface area•Actual site of gas exchange
How do we breath? Involves muscles of the rib cage and the
diaphragm Diaphragm: dome shaped skeletal muscle at
the base of the rib cageInhale (take air into lungs)
muscles contract, expand rib cage, diaphragm moves down
Exhale (release air from lungs)muscles relax, contract rib cage, diaphragm moves
up
Ventilation (Inhalation/Exhalation) Diagram
Recall: Gas Exchange
3 principles for gas exchange:O2 and CO2 are carried by the blood
Opposite directions
Gas moves by diffusion (moves from area of high to low concentration)
Lining of the alveoli must be moist to help gases diffuse
Diffusion of gases Gases always move from areas of high
concentration to areas of low concentration O2 concentration is higher in alveoli than
blood oxygen diffuses into blood
At body cells, O2 concentration is higher in blood oxygen diffuses out of blood and into cells
Gas Exchange
O2 alveoli capillaries red blood cells
CO2 red blood cells capillaries alveoli
Hemoglobin and Gas Exchange
Oxygen diffuses into red blood cell (RBC’s) where there is hemoglobin (a protein in RBC)
Hemoglobin contain iron atoms, which bind to oxygen gas
Carbon Dioxide Transport Hemoglobin ALSO helps transport
CO2!!7% of CO2
transported as dissolved CO2 in blood plasma (water portion of blood)
23% binds to hemoglobin70%
transported in the form of bicarbonate ions (HCO3
-)CO2 (g) + H20 (l) H+ + HCO3
-
Oxygen/Carbon Dioxide Transport
1. O2 diffuses from alveoli to blood2. Blood travels to heart and body
3. In tissues, O2 levels are lower, so RBCs release O2 to cells
4. In tissues, CO2 levels are higher, so CO2 diffuses from cells to blood
5. CO2 travels in blood to heart
6. Heart pumps blood to lungs where CO2 is released
1. REMEMBER: TOO MUCH CO2 CAUSES BLOOD ACIDIC!
WHY DOES BLOOD BECOMES ACIDIC WITH TOO MUCH CO2?
CO2 causes blood to become ACIDIC because:
CO2 (g) + H20 (l) H+ + HCO3-
Lots of CO2 indicates lots of cell respiration need for O2
Control centers in brain regulateCalled Medulla oblongata and pons
Maintain homeostasis by monitoring CO2 levelMain cue is pH change in blood
Gas Exchange and the Nervous System
What happens when you exercise? Start breathing faster Heart beats faster
Why? Your muscles cells are running out of oxygen, so the
heart and lungs have to work harder to deliver the necessary oxygen
The rate of respiration is controlled by automatic regulators in your brain stem (medulla and pons) Stimulates nerves in the diaphragm and ribcage to
breathe harder and faster
Gas Exchange Animation
http://highered.mheducation.com/sites/0072495855/student_view0/chapter25/animation__gas_exchange_during_respiration.html Complete the quiz questions 1-5 after we’ve watched the
animation.
https://www.youtube.com/watch?v=AJpur6XUiq4 https://www.youtube.com/watch?v=YUg-AVMh9Uc https://www.youtube.com/watch?v=hc1YtXc_84A
Health of Respiratory System
Diseases can interfere with gas exchange Pneumonia
Caused by virus or bacteria, Inflammation of alveoli
Weak and tired due to less oxygen exchange
BronchitisCaused by bacteria or virus (cold or flu),
Inflammation of bronchiCough to clear excess mucus
Health of Respiratory System
AsthmaMay be allergic, response to stress, etc.Narrowed breathing passages (bronchi)Treated with drugs that relax air passages
EmphysemaLung disorder usually caused by smokingAlveoli are destroyed and cells can’t get
enough oxygen
Cancer and emphysema
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