respiration chapter 7 biology form 4
TRANSCRIPT
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CHAPTER 7
RESPIRATION
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7.1 THE RESPIRATION PROCESS IN ENERGY PRODUCTION LEARNING OUTCOMES:
State that all living processes require energy
Identify the main substrate for producing energy
State 2 types of respirationExplain what cellular respiration isExplain energy production from glucose
during the process of aerobic respirationState the conditions leading to anaerobic
respiration in cellsExplain the process of anaerobic respiration
in yeast and human muscles
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LEARNING OUTCOMES…….Write the chemical equations for aerobic
and anaerobic respirationCompare and contrast aerobic respiration
and anaerobic respiration
7.1 THE RESPIRATION PROCESS IN ENERGY PRODUCTION
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REQUIREMENT OF ENERGY1. Respiration is important living process
that occurs in 2 main stages:
a) External respiration / breathing
b) Internal respiration / cellular
respiration
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2. External respiration ??Is a mechanical process of taking air into the lungs and vise versa
3. Internal respiration ??Is a biochemical process that occurs in living cells to release energy in the form of ATP
4. Respiration is a process to obtain energy by organisms / living things
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5. All living processs that take place in the body
6. Required energy for ??? muscular contraction active transport of biochemical
substances transmission of nerve impulse synthesis proteins cell division
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7. Main substrate produce ATP is GLUCOSE
8. Green plants capture & store energy of sunlight in GLUCOSE through photosynthesis
9. For human and animals, GLUCOSE obtained from digestion of Carbohydrate
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WHAT IS CELLULAR RESPIRATION1. Is the process of oxidising glucose
molecules to CO2, water and energy in form of ATP
2. Energy is released during cellular respiration.
3. 2 types of cellular respiration:
AEROBIC RESPIRATIONANAEROBIC RESPIRATION
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AEROBIC RESPIRATION
Require O2
Chemical equation:
C6H12O6 + 6O2 6CO2 +6H2O + E
Occurs in mitochondria (muscle)
Most of energy released,used to synthesise
ATP from ADP and phosphate.
ADP + phosphate + energy ATP
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ATP, consists of phosphate bond can easily broken down to release energy when required by the body
ATP ADP + phosphate + energy
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ANAEROBIC RESPIRATION Not require O2
During vigorous activities such as running,
swimming and cycling we need more O2 to be
delivered to the muscle cells to produce more
energy
When the muscle cells used all the available
O2 supply, muscle cells carry out anaerobic
respiration
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Anaerobic respiration is a process used to produce energy stored in glucose without using O2.
Occurs in cytoplasm
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Prolonged physical activities such as running,
rate of respiration and rate of heartbeat increase
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Muscles are in a state of oxygen deficiency or oxygen debt
So glucose molecules breakdown partially to lactic acid
Due to incomplete breakdown of glucose, energy released is much less compared aerobic respiration. WHY??
Most of energy is still trapped within the molecules of lactic acid
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Chemical equation for anaerobic respiration:
For every glucose molecules, only 2 ATP or 150 KJ of energy produced compared to 38 ATP or 2889 KJ energy produced in aerobic respiration
C6H12O6 2C3O6O3 + ENERGY (150 KJ / 2 ATP )
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High conc of lactic acid may cause muscular cramps and fatique
So body need rest and recover by doing fast and deep breathing.
Excess O2 is used to oxidized lactic acid to CO2 and water. Oxidation takes place in liver.
Thus, oxygen demand is the amount of oxygen needed to recover the lactic acid.
Oxygen debt is paid off when all the lactic acid eliminated
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Yeast is able to undergo both aerobic and anaerobic respiration
It carries out aerobic respiration in the presence of O2
Yeast carried out anaerobic respiration when there is a lack of O2 in the environment
Anaerobic respiration in yeast is known as fermentation
Yeast ferments in warm condition to produce CO2
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CO2 bubbles are trapped in the dough and when baked, the CO2 bubbles give the bread a spongy texture
This anaerobic reaction catalysed by enzyme zymase.
Ethanol can be used in wine and beer production
C6H12O6 2C2O5OH + 2 CO2 + ENERGY (210 KJ)
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SIMILARITIES
Form cellular respiration
Produce oxidation of glucose
Involve in breakdown of glucose
Produces energy
Catalysed by enzymes
Occurs in animals amd plants
COMPARISON BETWEEN AEROBIC AND ANEROBIC RESPIRATION
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DIFFERENCES
AEROBIC RESPIRATION
ITEMS ANAEROBIC RESPIRATION
Almost every living things
Work by Certain plant cell , yeast , bacteria and muscle
Required Oxygen requirement
Not required
Complete oxidation Oxidation of glucose
Incomplete oxidation
CO2 , water and energy
Product Lactic acid & energy (muscle)Ethanol , CO2 & energy (yeast)
Large amount Energy released Small amount
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DIFFERENCES
AEROBIC RESPIRATION
ITEMS ANAEROBIC RESPIRATION
Mitochondria Site Cytoplasm
C6H12O6 + 6O2 6CO2 + 6H2O + 2898 KJ
Chemical equation
In muscle cellC6H12O6 2C3H6O3 + 150 KJ
In yeastC6H12O6 2C2H5OH +2CO2 + 210 KJ
38 molecules No of ATP 2 molecules
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7.2 RESPIRATORY STRUCTURES & BREATHING MECHANISMS LEARNING OUTCOMES:
State the respiratory structures in humans and some animals
Describe the characteristics of respiratory surfaces in humans and other organisms
Describe breathing mechanisms in human and other organisms
Compare and contrast the human respiratory system with other organisms
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RESPIRATORY STRUCTURES IN SOME ANIMALS1. Respiratory structures involve in
gaseous exchange:
a) Across plasma membrane
b) Tracheal system - insects
c) Gills - fish
d) Skin
e) Lungs
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2. To ensure adequate gaseous exchange, respiratory structures of most organisms have common characteristics:
a) The respiratory surface is moist
b) Cells lining the respiratory surface are
thin
c) Respiratory structures has a large
surface area
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Small aquatic organisms such as
amoeba and paramecium does not
require specialized respiratory system
RESPIRATORY STRUCTURE IN UNICELLULAR ORGANISM
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The respiration of amoeba and
paramecium occurs across the plasma
membrane.
Plasma membrane is moist and thin
enough to allow diffusion of gases
Diffusion of gases take place easily
because amoeba and paramecium have
a large surface area compared to the
volume of their bodies
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RESPIRATORY STRUCTURE IN INSECTS
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1. Respiratory system of insects is
tracheal system.
2. Tracheal system of insect consists of
spiracle, trachea, air sac and
tracheoles
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3. Tracheal system consists of air tubes called
tracheae
4. Air enters the tracheae through spiracles
5. Spiracles have valves which allow air, go in
and out of the body
6. Tracheae reinforced with rings of chitin
which prevent them from collapsing
7. Trachea split into numerous finer tubes
called tracheoles
8. Large number of tracheoles provides large
surface area for diffusion of gases
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9. Tracheoles :
So tiny, can channel O2 directly to the cells
in the different parts of body
Are numerous , increase total surface area
Have thin and moist wall at the end of tip ,
make it easy for respiratory gases to be
dissolved
10. Larger insects like grasshoppers have
air sacs in their tracheal system to speed up
movement of gases to and from the insect’s
tissue
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RESPIRATORY STRUCTURE OF AMPHIBIANS
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1. Amphibians such as frog live on land and in
water
2. Gaseous exchange occur through skin and
lungs
3. Adaptation of the skin for gaseous exchange:
o skin is thin and highly permeable –
allow the absorption of respiratory gases
into the blood capillaries
o beneath the skin is a network of blood
capillaries – to receive O2 and transport it to
body cells
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o skin is moist by secretion of mucus –
facilitate rapid and efficient exchange of
gases between the skin and the
environment
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4. Adaptation of the lung for gaseous exchange:
Surface area for gases exchange is increased
by numerous inner partition – facilitate the
efficient diffusion of respiratory gases in and
out rapidly
Covered with a rich network of blood capillaries
– to receive O2 and transport it to body cells
Membrane of the lungs are thin and moist –
Increase the surface area for gases exchange
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BREATHING MECHANISM OF FROG
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RESPIRATORY STRUCTURE OF FISH
1. Respiratory structures of fish – gills
2. Bony fish hv 4 pairs of gills which are
protected by operculum
3. Gill consist of filaments which supported
by gill arch
4. Filament s hv a thin
wall called lamellae
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1. Structural adaptation of the gills:
Thin membranes allow the absorption of
respiratory gases into the blood capillaries
Rich of blood capillaries – efficient and
transport of respiratory gases
Surrounded by water – enable respiratory
gases to be dissolve
Large surface area of filaments and
lamellae for efficient gases exchange
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2. Efficiency of gaseous exchange is further
enhanced by countercurrent exchange mechanism
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Water flows over the gills in one direction
Blood flows in the opposite direction through
blood capillaries in the lamellae
As deoxygenated blood enters the blood
capillaries, it encounters water with higher O2
content
Along the blood capillaries, conc gradient allows
the transfer of O2 into the blood
However, conc of CO2 in blood is hingher than
in water. So CO2 diffused from blood into water
MECHANISM OF COUNTERCURENT EXCHANGE
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BREATHING MECHANISM OF FISH
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RESPIRATORY STRUCTURE OF HUMAN
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1. Gaseous exchange in humans take place in the lungs
2. Air enters lungs through :
trachea bronchi bronchioles alveoli
3. Trachea is supported by cartilage to prevent it from
collapse
during inhalation
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FEATURES OF ALVEOLI AND THE FUNCTION IN GASEOUS EXCHANGE
A large number of alveoli in the lungs – increase
the surface area for exchange of gases
Walls are made up of a single layer of cells – gases
can diffuse easily across the thin walls
Walls secrete a thin lining of moisture – gases can
dissolve in moisture and diffuse easily across walls
Surrounded by a network of blood capillaries – can
transport O2 to and CO2 away from the cells
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BREATHING MECHANISMS IN HUMAN
INHALATION EXHALATION
External intercostal muscles contract
External intercostal muscles relax
Internal intercostal muscles relax
Internal intercostal muscles contract
Rib cage move upwards and outwards
Rib cage move downwards and inwards
Diaphragm contracts and flattens
Diaphragm relaxes and returns to dome-shaped
Volume of thoracic cavity increase resulting in reduced air pressure in alveoli
Volume of thoracic cavity decrease resulting in higher air pressure in alveoli
Higher atmospheric pressure outside causes air to rush in
Air is force out of lungs
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COMPARISON BETWEEN HUMAN RESPIRATORY SYSTEM WITH OTHER ORGANISMS
SIMILARITIES
1. Have large surface area to volume ratio
2. Cells lining the respiratory structures are thin
3. The surfaces for gaseous exchange are constantly
moistDIFFERENCES Respiratory organ
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Respiratory openings
Network of blood capillaries
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Air passages
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7.3 GASEOUS EXCHANGE ACROSS RESPIRATORY SURFACES & TRANSPORT OF GASES IN HUMANS
LEARNING OUTCOMES:Describe process of gaseous exchange
across the surface of alveolus and blood capillaries in lungs
Explain the transport of respiratory gaseousExplain process of gaseous exchange
between the blood and body cellsDistinguish the composition of inhaled and
exhaled air
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GASEOUS EXCHANGE ACROSS THE SURFACE OF ALVEOLUS & BLOOD CAPILLARIES
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TRANSPORT OF RESPIRATORY GASES IN HUMANa) Transport of O2 from lungs to body cell
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a) Transport of CO2 from body cells to lungs
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7.4 THE REGULATION MECHANISM IN RESPIRATION LEARNING OUTCOMES:
Describe the change in the rate of respiration after completing vigorous exercises
Correlate the rate of respiration with the O2 and CO2 contents in the body
Explain regulatory mechanism of O2 and CO2 contents in the body
Explain human respiratory response and the rate of respiration in different situations
Correlate the rate of respiration with the rate of heartbeat
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CORRELATION RATE OF RESPIRATION WITH O2 AND CO2 CONTENTS IN THE BODY
1. During vigorous exercise, muscles require more O2 and
glucose to release E during cellular respiration. So, rate of
respiration increase.
2. Thus, to supply more O2, rate and depth of breathing
increase.
3. At the same time, the heartbeat increase to pump more
blood into circulation.
o this enable more O2 and glucose to be supplied for
cellular respiration and more CO2 removed from the cells.
o rate of ventilation increase.rate of ventilation is the rate
of gaseous exchange between alveoli and blood capillaries
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REGULATORY MECHANISM OF CO2 CONTENT IN THE BODY
Ph value in the cerebrospinal fluid and blood drops
Detected by CENTRAL CHEMORECEPTORS
## respiratory centre is located in medula oblongata
## central chemoreceptor is a specific cell which is found in the respiratory centre
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REGULATORY MECHANISM OF O2 CONTENT IN THE BODY
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HUMAN RESPIRATORY RESPONSE & RATE OF RESPIRATION IN DIFFERENT SITUATIONS
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MAINTAINING A HEALTHY RESPIRATORY SYSTEM
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ENERGY REQUIREMENT IN PLANT
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Plant require energy from cellular respiration
During cellular respiration, plant cells take in
O2 and produce CO2.
Photosynthesis only occur in the presence of
light.
In darkness, plants carry out respiration.
Plants need energy continuously to sustain
their living process
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INTAKE OF O2 FOR RESPIRATION
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AEROBIC AND ANAEROBIC RESPIRATION IN PLANTS
1. Types of respiration in
plants :
a) aerobic respiration
b) anaerobic respiration
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RESPIRATION AND PHOTOSYNTHESIS
1. The similarities of photosynthesis and respiration are:
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1. The differences of photosynthesis and respiration are:
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Graph shows CO2 uptake in plants related to light intensity
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