Download Ch 35- Respiratory System

Chapter 35: pp. 649 - 664
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10th Edition
Sylvia S. Mader
Respiratory
Systems
BIOLOGY
© Bruce Watkins/Animals Animals/Earth Scenes
PowerPoint® Lecture Slides are prepared by Dr. Isaac Barjis, Biology Instructor
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1
2
• 2.D.2: Homeostatic mechanisms reflect both common
ancestry and divergence due to adaptation in different
environments. (35.1-35.2)
• 4.B.2: Cooperative interactions within organisms promote
efficiency in the use of energy and matter. (35.2)
Anatomy of Respiratory Sys.
1.
2.
Nasal cavity- cavity inside nose; warms, filters &
moistens air (1 on pic)
Pharynx- cavity that connects nasal passage & throat
(2)
3. Larynx- voicebox, protected by epiglottis (8)
4.Trachea- windpipe, cartilage tube leading to bronchi (9)
5.Bronchi- tubes branch off trachea, air passageways (10)
6. Bronchioles- smaller branches (4)
7. Lungs- breathing organs (5)
8. Alveoli- tiny sacs in lungs where gas exchange
occurs (3)
9. Diaphragm- sheet-like muscle that expands and
contracts the chest cavity (6)
Animation
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• Ventilation= Air in & out of Alveoli (inhalation & exhalation)
• Gas Exchange= Exchange of carbon dioxide & oxygen
(capillaries & alveoli)
Gas Exchange
• Air coming into body is filtered by tiny nose hair, which
traps dirt and particles. Air passages are also lined
with mucus membranes that warm and add moisture
to the air.
• Alveoli are 1 cell thick, engulfed in capillaries, moist, and
have a large SA, therefore gas exchange can occur
readily.
• How Lungs Function
10
Hemoglobin
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heme group
iron atom
beta chain
alpha chain
© Andrew Syred/Photo Researchers, Inc.
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Ventilation
Inhalation- diaphragm flattens, rib cage expands, air
enters mouth & nasal cavity, goes through trachea,
through bronchial tubes to the alveoli. O2 is picked up by
red blood cells (RBCs) and CO2 is dumped off.
Ventilation
Exhalation- muscles relax, rib cage decreases in, air and
CO2 is forced out. Need to get O2 in and CO2 out!
• The diaphragm is a sheet muscle that makes the thoracic
cavity bigger or smaller.
• The internal and external intercostal muscles are
between the ribs and they pull the ribs up and out to
increase area in the thoracic cavity.
• When they relax the opposite happens, ribs fall, thoracic
cavity gets smaller.
• Medical Animation
Gas Exchange
• The action of intercostals & the diaphragm create an air
pressure difference which forces the air into and out of the
lungs.
• Alveolar Pressure Changes
Animation
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which is available at
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Animation
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operating systems, some animations
will not appear until the presentation is
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18
Water Environments
• O2 CO2 can dissolve in water.
• When saturated, water contains a fraction of the O2 in
same volume of air, and water is much more viscous than
air.
• Aquatic animals expend more energy to breathe than
terrestrial animals.
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Gas Exchange
• Hydras and planarians
• Small animals with large surface area & most of their
cells exchange gases directly with the environment
• Larger aquatic animals
• Have gills
• Countercurrent Exchange Countercurrent Gas
Exchange in Fish Gills - YouTube
20
Hydra
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water flow
CO2
CO2
O2
O2
21
Anatomy of Gills in Bony Fishes
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operculum
lamellae
900×
a.
Water passes out of the pharynx
and over the finely divided gills.
Water passes by the gill lamellae in
a direction opposite to blood flow.
Oxygen content of water is
always higher than the oxygen
content of the blood.
O2-rich blood
Direction of H2O flow
O2-poor blood
lamellae
Direction of
H2O flow
water
flow
O2 movement
blood
flow
blood
flow
gill arch
lamella
gill
filaments
b.
gill filament
c.
d.
a: © B. Runk/S. Schoenberger/Grant Heilman Photography; b(Gills): © David M. Phillips/Photo Researchers, Inc.
22
Land Environments: Tracheae
• Insects and other terrestrial arthropods
• A respiratory system consists of branched tracheae
• Tracheae branch until end in tracheoles that are in direct contact
with body cells
23
Tracheae of Insects
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air sac
tracheole
tracheae
spiracle
spiracle
air sacs
© Ed Reschke
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Land Environments: Lungs of Vertebrates
• Terrestrial vertebrates have lungs
• Amphibians
• Many also breathe to some extent through skin
• All terrestrial vertebrates, except birds, use a tidal
ventilation system
• Air moves in and out by the same route
25
Earthworm
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dorsal
blood
vessel
ventral
blood
vessel
CO2
O2
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Respiratory Organs
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gill
CO2
O2
gill filament
capillaries
a.
tracheoles
CO2
spiracles
trachea
O2
O2
CO2
O2
CO2
spiracle
b.
blood vessels
trachea
mammalian
lung
CO2
O2
alveoli
c.
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Lungs
• Birds use a one-way ventilation mechanism in lungs.
• Results in a higher partial pressure of oxygen in the lungs.
• Oxygen uptake with each breath is greater than in other vertebrates.
• Air sacs allow for mechanism.
• Avian Respiration
28
Respiratory System in Birds
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inhalation
lung
trachea
exhalation
lung
anterior
air sacs
posterior
air sacs
trachea
lung
1
Inhalation: Air enters posterior
air sacs.
anterior
air sacs
2
Exhalation begins: Air enters lung.
inhaled air
exhaled air
anterior
air sacs
exhalation
posterior
air sacs
4
Exhalation ends: Air exits anterior
air sacs.
3
Exhalation continues: Air enters
anterior air sacs.