Cycling of Matter

1. Cycling of MatterCycling of Matter
in ecosystems

2. Biogeochemical CyclesBiogeochemical Cycles
Recall: The particles that make up matter
cannot be created or destroyed.
This means that all water and nutrients
must be produced or obtained from
chemicals that already exist in the
environment.

3. This happens in a series of cycles in
which chemicals are continuously
consumed, rearranged, stored and used.
Because these cycles involve living (bio)
organisms and occur on Earth (geo), they
are called biogeochemical cycles.
Biogeochemical CyclesBiogeochemical Cycles

4. Every particle in every organism is part
of a biogeochemical cycle!
Biogeochemical CyclesBiogeochemical Cycles

5. Water cycle = the series of processes
that cycles water through the environment
Most of the water that is
present in the water cycle
is found in the abiotic
environment.
The Water CycleThe Water Cycle

7. Carbon moves between the abiotic and
biotic parts of an ecosystem in the
carbon cycle.
Most of this exchange occurs between
carbon dioxide (either in the atmosphere
or dissolved in water) and
photosynthesizing plants
and micro organisms.
The Carbon CycleThe Carbon Cycle

9. While large quantities of carbon cycle
through photosynthesis and cellular
respiration, most of Earth’s carbon is not
cycled.
Carbon DepositsCarbon Deposits

10. Carbon DepositsCarbon Deposits
Instead, it is stored in
carbon-rich deposits such
as fossil fuels (coal, oil,
natural gas etc.) that form
when decomposed
organisms are compressed
over millions of years.

11. Carbon is also stored for millions of years
as limestone formed from dead marine
organisms.

12. Large quantities of carbon are also contained
in plant tissue and as dissolved carbon
dioxide in the world’s oceans.
Carbon DepositsCarbon Deposits

13. These locations are
referred to as carbon
sinks because carbon
can enter or leave them
over relatively short
periods of time.
Carbon DepositsCarbon Deposits

14. Human activities have a dramatic impact on
the carbon cycle.
By burning fossil fuels, humans release the
stored carbon into the atmosphere, which is
contributing to global climate change.
Human ImpactHuman Impact

15. Deforestation also increases the concentration
of carbon dioxide in the atmosphere.

16. Nitrogen is extremely
abundant in the
atmosphere, however
it is not easy to acquire
directly from the
abiotic environment.
Nitrogen CycleNitrogen Cycle

17. Nitrogen enters and leaves the atmosphere
through a complex biochemical pathway
called the nitrogen cycle.
Nitrogen CycleNitrogen Cycle

18. Most of the nitrogen used
by living things is taken
from the atmosphere by
certain bacteria in a
process called nitrogen
fixation.
Nitrogen CycleNitrogen Cycle

19. These micro-organisms
convert nitrogen gas into
a variety of nitrogen-
containing compounds,
including nitrates,
nitrites and ammonia.
Nitrogen CycleNitrogen Cycle

20. Lightning and UV light also fix small
amounts of nitrogen.

21. In addition, humans add nitrogen to the
soil as fertilizer.
Nitrogen CycleNitrogen Cycle

22. Once in the soil ecosystem, the nitrogen-
rich compounds are available to
producers.
After the nitrogen is absorbed, it is
passed from producer to consumer and
moves up the food chain.
Nitrogen CycleNitrogen Cycle

23. Many animals consume
more nitrogen than they
can use, and excrete the
excess in the form of urea
or ammonia.
Nitrogen CycleNitrogen Cycle

24. A dead organism’s nitrogen-rich compounds are
taken in by decomposers, or are released back into
the environment.

25. These compounds are either recycled
again by soil micro-organisms, or they are
converted by denitrifying bacteria back
into nitrogen gas which then re-enters
the atmosphere.
Nitrogen CycleNitrogen Cycle