Download - Summary of topic 1.3
Topic 1 Foundations of Environmental Systems and
Societies
1.3 Energy and Equilibria
Ecosystems
• Most of the systems we will look at are ecosystems (self contained communities of living things and their surrounding environment)
• Very large ecosystems which span a fairly stable climate are biomes
• Many biologists say the whole planet is a single ecosystem (e.g. Gaia Theory). Some of them call it a CLOSED ecosytem
Biomes and Biospheres
• Biome – An open ecosystem in a geographically defined area with similar climatic conditions throughout – eg, desert, grassland (savannah), tropical rainforest
• Biosphere – A closed ecosytem – generally made up of a range of biomes (i.e. the entire Earth)
A ClimographM
ean
annu
al te
mpe
ratu
re (o C
)
Rainfall (mm/year)
-15
-10
-5
-0
5
10
15
20
25
1000 2000 3000 4000 5000 6000
dese
rt
gras
sland
shru
blan
d
tundra
taiga
Tropical rainforest
temperate
deciduous fo
rest
temperate
evergreen forest
Equilibrium
• A system needs to be in equilibrium• If not, entropy will increase so much the system
will destroy itself by becoming too disordered• There a 4 kinds of equilibrium:– Static– Steady State– Stable– unstable
Static Equilibrium
time
State of the system
Note: this is not realistic – it could only occur in an isolated system
Steady State Equilibrium
time
State of the system
Stable Equilibrium
time
State of the system
disturbance
Weebles wobble but they don’t fall down!
Unstable Equilibrium
time
State of the system
disturbance
He’s going down!
Feedback Mechanisms
• This is a way that the INPUT is affected by the OUTPUT• In a stable equilibrium, feedback returns the
equilibrium to its original state• In an unstable equilibrium, feedback returns the
equilibrium to a different state• Feedback can be – POSITIVE – input changes to bring the system to a new
equilibrium– NEGATIVE – input changes in order to bring the system
back to its original equilibrium
Negative Feedback
• Your (stable) equilibrium body temperature is 37oC
• Sensors in the skin detect your skin temperature is rising (you are in Cancún)
• Show what happens in a system diagram
Positive Feedback
• Your (stable) equilibrium body temperature is 37oC
• Sensors in the skin detect your skin temperature is decreasing (you are locked in a freezer)
• Your body is unable to maintain its stable equibilibrium and therefore you enter a state of hypothermia
• Show what happens in a system diagram
Case Studiespredator-prey equilibria