Download Thermoregulation

Thermoregulation
Chapter 8
Homeostasis of body temperature and
body fluids
© 2010 McGraw-Hill Australia
Humans
 In humans, body temperature is relatively constant
 The usual body temperature is 36.8C
 In the body, heat gained = heat lost
 This process is called thermoregulation, a term
used to describe the processes which maintain the
balance between heat production and heat loss
© 2010 McGraw-Hill Australia
© 2010 McGraw-Hill Australia
Why Thermoregulate?
 Chemical reactions occurring in cells are very
heat-sensitive
 Enzymes that control cellular activity are heatsensitive
© 2010 McGraw-Hill Australia
Rising Body Temperature
Rising body temperature prompts heat
loss in the body through:
blood flow to the skin
metabolic rate
behavioural responses
sweating
© 2010 McGraw-Hill Australia
Blood Flow to Skin
Vasodilation:
 in response to rising temperature, the body
increases blood flow to the skin
 is controlled by the autonomic nervous system
 results in an increase in blood flow to the skin,
allowing heat loss via radiation, conduction,
convection and evaporation
 prompts cooling of the blood that is flowing
through the skin
© 2010 McGraw-Hill Australia
Metabolic Rate
 The metabolic rate changes through a reduction
in the secretion of thyroxine
 This results in a decrease in metabolic rate
 The decrease in metabolic rate causes less heat to
be produced in the body
© 2010 McGraw-Hill Australia
Behavioural Responses
We change our behavioural responses by:
 staying still (decreasing activity)
 staying in the shade
 air conditioning
 wearing less clothing
© 2010 McGraw-Hill Australia
Sweat
 Sweat is controlled by the sympathetic nervous
system
 It is secreted from sweat glands to skin
 Sweat contains sodium chloride, urea, lactic acid
and potassium ions
 Sweat cools by evaporating from the body
 Sweat doesn’t work in a humid environment
 Environmental temperature > body temp for
sweating to be effective
© 2010 McGraw-Hill Australia
Rising Body Temperature
© 2010 McGraw-Hill Australia
Falling Body Temperature
Falling body temperature prompts:
changes in blood flow to the skin
changes in metabolic rate
shivering
behavioural responses
© 2010 McGraw-Hill Australia
Blood Flow to Skin
 In response to falling temperatures, the body
restricts blood flow to the skin. This process is
called vasoconstriction
 Vasoconstriction:
 is controlled by the sympathetic nervous system
 decreases blood flow to the skin from internal organs,
which
• decreases the transfer of heat from the internal body organs
to the skin
• allows less heat to be lost from the body surface
• cools the skin
© 2010 McGraw-Hill Australia
Falling Body Temperature – Skin
© 2010 McGraw-Hill Australia
The Hypothalamus and the
Adrenal Medulla
 The hypothalamus stimulates the adrenal medulla
via sympathetic nerves
 The medulla secretes adrenaline and
noradrenaline into the blood
 This increases cellular metabolism, increasing
heat production
 This process helps maintain internal body
temperature
© 2010 McGraw-Hill Australia
The Hypothalamus and the
Anterior Pituitary
 The hypothalamus also stimulates the anterior
lobe of the pituitary
 The anterior pituitary secretes thyroid stimulating
hormone (TSH)
 TSH acts on the thyroid gland
 The thyroid gland releases thyroxine into the
blood
 This increases metabolic rate, increasing body
temperature
© 2010 McGraw-Hill Australia
Shivering
 Shivering is actually rhythmic muscle tremors
occurring at a rate of around ten to twenty per
second
 The hypothalamus stimulates parts of the brain
that increase skeletal muscle tone
 This increases body heat production
© 2010 McGraw-Hill Australia
Behavioural Responses
We change our behavioural responses by:
 huddling
 curling into a ball
 putting on more clothes
 using a heating device
© 2010 McGraw-Hill Australia
© 2010 McGraw-Hill Australia
Complete this negative feedback loop for rising body
temperature.
© 2010 McGraw-Hill Australia
Complete this negative feedback loop for falling body
temperature.
© 2010 McGraw-Hill Australia