Transcript Y T I V
TIVI
TY
AND
ENERGY FLOW
ODUC
PR
Source: http//web3.ibo.org/
ENERGY ENTERS THE
ECOSYSTEM AS SUNLIGHT
• Only 2% of the light
energy falling on a
tree is captured and
turned into chemical
energy by
PHOTOSYNTHESIS
• The rest is reflected,
or just warms up the
tree as it is
absorbed
Gross productivity is a measure
of total energy captured
• It is measured in
joules (J)
• It is the energy
captured or
assimilated by an
organism
• for a plant, it is the
sunlight actually
fixed by the leaves
during
photosynthesis
Energy is
stored in leaf
as sugars
and
starches,
which later
are used to
form flowers,
fruits,
seeds,etc.
Net productivity
• Plants have to use some of the energy they
capture to keep themselves growing:
– they move water and stored chemicals around
– they make hormones and enzymes to control their
metabolism
– they make flowers, fruits, new leaves and stems
• the energy left over after they have used
what they need is called the net productivity
• the energy used by the plant for essential
tasks is called respiration energy, and
eventually it is released to the environment as
heat
So how are gross and net
productivity related ?
Net productivity = Gross productivity - Respiration Energy
or using symbols:
NP = GP - R
This equation applies to animals too, but more on that
later…..
The productivity of a plant is called:
PRIMARY PRODUCTIVITY
because plants are the first or primary organisms in the
food web
So what about animal productivity?
• Animals must eat other organisms to obtain energy,
unlike plants which photosynthesize
• Animals may eat plants or animals or both
• Not all the energy in food is absorbed (assimilated)
into an animal’s body
• Unassimilated food is ejected as faeces or droppings
So gross productivity = food assimilated
or gross productivity = food eaten - energy in
faeces
What about net productivity for an
animal (secondary consumer)?
• Gross secondary productivity =
Energy eaten - energy in faeces
• As well as keeping themselves alive, animals must use
energy to move and keep warm - plants need rather
less energy- but in the end it, as in plants, it all turns to
heat
• Net secondary productivity (NSP ) =
food eaten - faeces - respiration energy
so NSP = GSP- R (just like plants)
?
Net and gross productivity in
the food web
• In a food web diagram, you can usually
assume that:
?
– the energy input into an organism represents
the GP
– the energy output from that organism to the
next trophic level represents the NP
– the difference between GP and NP = R
(respiration energy ) and/or loss to
decomposers
Now check what you have
understood!
– Complete this energy flow diagram:
• label GPP, NPP and R for the primary producer
• add arrows to show missing energy pathways (3 in total)
• fill in the blank box to explain why some sunlight is not
fixed by plant
HERBIVORES
PLANT
SUN
RESPIRATION
………………
…………….
DECOMPOSERS
• Draw your own energy flow diagram,
rather like the one on the previous slide
to show energy flows through one of the
animals named in your food web. You
should include the following labels:
–
–
–
–
–
energy lost in faeces
food ingested
respiration loss, R
GSP, NSP
arrows showing energy moving to carnivores
and decomposers