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UNIT%203:%20HOMEOSTASIS

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UNIT 3: HOMEOSTASIS Ch 7: Maintaining an Internal Balance - Homeostasis - Feedback Loops - Thermoregulation HOMEOSTASIS Although the world around varies over time ... – PowerPoint PPT presentation

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Title: UNIT%203:%20HOMEOSTASIS


1
UNIT 3 HOMEOSTASIS
  • Ch 7 Maintaining an Internal Balance
  • - Homeostasis
  • - Feedback Loops
  • - Thermoregulation

2
HOMEOSTASIS
  • Although the world around varies over time, our
    bodies maintain a stable internal environment
  • 37 degrees Celsius, 0.1 blood glucose, blood pH
    of 7.35
  • Homeostasis the maintenance of a steady-state
    internal environment despite a constantly
    changing external environment.
  • Homeostasis is called a dynamic equilibrium as it
    allows all body systems to work within an
    acceptable range.
  • Dynamic equilibrium is a condition that remains
    stable within fluctuating limits.
  • Blood pressure, blood pH, and blood glucose
    levels and body temperature...all work within a
    small acceptable range.
  • To do this the body needs monitoring and feedback
    systems,
  • Kidneys monitor water levels
  • Pancreas regulates blood sugar levels
  • Hypothalamus regulates body temperature and
    osmotic pressure...

3
  • 3 important components to these systems
  • A monitor which notices changes in the normal
    state and sends messages to the
  • Coordinating Centre which recognizes an organ is
    working outside its normal limits and sends a
    message to a
  • Regulator which returns the body to its normal
    state.
  • Example When exercising CO2 levels in the blood
    increase due to an increase in cellular
    respiration.
  • Sensors in the blood vessels notice this and
    pass the information to the brain.
  • The brain analyzes the information, sends a
    message to the muscles around the chest cavity.
  • The muscles allow for deeper and more frequent
    inhalation/exhalation. This gets rid of the CO2
    returning levels in the blood back to normal.

4
FEEDBACK LOOPS
  • The way homeostasis is maintained is by means of
    feedback loops.
  • The body uses mainly negative feedback loops,
    processes in which a mechanism is activated to
    bring the body back to its normal level, to
    maintain a steady-state.
  • Example Room temperature falls below 20 degrees
    Celsius
  • the thermometer sends a message to the thermostat
    to turn on the furnace.
  • Once the room reaches 20 again, the thermostat
    turns the furnace off.
  • Negative feedback refers to the fact that a
    change in a variable triggers the coordinating
    center to counteract any further changes.
  • Therefore small changes are kept from becoming
    large.

5
http//www.okc.cc.ok.us/biologylabs/Images/Homeost
asis20Images/Feedback_loop.gif
6
  • Positive feedback systems
  • less common
  • designed to accept changes in the body and
    further promote them
  • Therefore, small changes become amplified.
  • Allow for the body to accomplish something in a
    very small amount of time.
  • Example before and after pregnancy/labour.
  • Decrease in progesterone --gt contraction in the
    uterus --gt cause oxytocin release --gt stronger
    contractions --gt baby moves closer to the uterine
    opening --gt more oxytocin released --gt even
    stronger contractions ( --gt baby eventually
    expelled ) --gt contractions stop, which stops
    oxytocin ) ) ).
  • Hmwk p 337 1,2,4,5,6,9

7
THERMOREGULATION
  • The maintenance of body temperature within a
    range in which the organism functions optimally
    (optimal range).
  • Ectotherms animals which depend on air
    temperature to maintain their metabolic rate, ie.
    invertebrates (organisms without backbones fish,
    amphibians, reptiles)
  • Their activity is governed by their environment.
  • This limitation is overcome by different
    behaviours or evolutionary adaptations reptiles
    sun themselves, tuna's circulatory system keeps
    their internal organs at a higher temperature
    than the surrounding water.
  • Endotherms animals which are able to maintain
    their body temperature regardless of the
    environmental conditions (birds and mammals).
  • If the temperature drops then metabolic rate
    increases and the organism shivers to create
    heat.

8
  • The hypothalamus is the region of the brain
    responsible for maintaining a constant internal
    temperature.
  • Important to note that the core temperature of
    the body is usually different from the peripheral
    temperature at the extremities.
  • How we respond to temperature change (Figure 2, p
    339).
  • Too hot
  • Sensors in the brain tell the hypothalamus it is
    too hot
  • Sends a nerve impulse to
  • the sweat glands to start sweating and to
  • the skin blood vessels to dilate to increase the
    amount of blood reaching the skin as the skin can
    give off the excess heat
  • Both these changes cause body temperature to
    lower back to normal levels.

9
http//fig.cox.miami.edu/cmallery/150/physiol/c44
x10thermo-reg.jpg
10
  • Too cold
  • Thermoreceptors in the skin tell the hypothalamus
    it is too cold
  • Sends nerve signals to
  • the skin blood vessels to constrict and reduce
    the amount of blood flow to the skin thus
    preventing heat loss,
  • the muscles to contract and cause us to shiver to
    generate heat.
  • Smooth muscles around body hair contract causing
    the hair to become erect to conserve heat
  • Body temperature increases back to normal levels.
  • Homework p341 1,2,3,5,7,8,10
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