9. 5. Nitrogen is an essential
component of DNA, RNA,
and proteins—the building
blocks of life.
Although the majority of the
air we breathe is nitrogen,
most living organisms are
unable to use nitrogen as it
exists in the atmosphere!
11. 6. By traveling through one of the
four processes in the Nitrogen Cycle!
(A) Nitrogen Fixation
(D) Denitrification
Nitrogen
Cycle
(C) Nitrification
(B) Ammonification
12. The first process in the
nitrogen cycle is…
Nitrogen Fixation!
(1) Nitrogen Fixation
Nitrogen
Cycle
13. 7. What is
“nitrogen fixation”
and
what does it mean
to say
nitrogen gets
“fixed”?
N
N
14. 7. “Nitrogen Fixation” is when the nitrogen gets “fixed”
and combines with oxygen or hydrogen.
Hydrogen
Oxygen
N
N
Hydrogen
N
N
Oxygen
N
N
15. There are three ways that
nitrogen gets “fixed”!
(a) Atmospheric Fixation
(b) Industrial Fixation
(c) Biological Fixation
Bacteria
16. Lightning “fixes” Nitrogen!
(A)Atmospheric Fixation
(Only 5 to 8% of the Fixation
Process)
Lightning breaks nitrogen
molecules apart and combines
with oxygen forming nitrogen
oxides (N2O). Nitrogen oxides
dissolve in rain, forming
nitrates. Nitrates (NO3) are
carried to the ground with the
rain.
N
N
O
Nitrogen
combines
with Oxygen
Nitrogen oxides forms
(N2O)
(NO3)
Nitrogen
oxides dissolve
in rain and
change to
nitrates
Plants use
nitrates to grow!
17. NN
(B) Industrial Fixation
Under great pressure, at
a temperature of 600
degrees Celcius, and
with the use of a
catalyst, atmospheric
nitrogen (N2) and
hydrogen are combined
to form ammonia (NH3).
Ammonia can be used as
a fertilizer.
N
H
H3
Industrial Plant combines
nitrogen and hydrogen
(NH3)
Ammonia is formed
Ammonia is used a fertilizer in soil
18. ( C) Biological Fixation
(where MOST nitrogen fixing is completed)
There are two types of “Nitrogen Fixing Bacteria”
Free Living Bacteria
(“fixes” 30% of N2)
Symbiotic Relationship Bacteria
(“fixes” 70% of N2)
19. Most atmospheric nitrogen
(N2) is “fixed” and changed to
ammonia (NH3). Ammonia is
highly toxic to many
organisms.
Can plants use
ammonia?
20. Very few plants can use
ammonia (NH3)…
(1) Nitrogen Fixation
(2) Ammonification
…but, fortunately the
second process
Ammonification can help!
22. 8. Ammonification: Bacteria decomposers break down
amino acids from dead animals and wastes into nitrogen
ammonium.
Bacteria decomposers break down amino acids into ammonium
24. 9. Because plants cannot use the organic forms of
nitrogen that are in the soil as a result of:
(1) wastes (manure and sewage)
(2) compost and decomposing roots and leaves
26. 10. Microorganisms convert the organic nitrogen to
ammonium. The ammonium is either taken up by the
plants (only in a few types of plants) or is absorbed into
the soil particles. Ammonium (NH4) in the soil is stored
up to later be changed into inorganic nitrogen, the kind
of nitrogen that most plants can use.
Bacteria converts organic nitrogen to
ammonium (NH4)
Ammonium (NH4) is used by
some plants
Bacteria
Ammonium (NH4) is
stored in soil.
28. 11. It travels through the
third process
of the nitrogen cycle called
Nitrification!
(1) Nitrogen Fixation
(3) Nitrification
(2) Ammonification
29. 11. Nitrifying bacteria in the ground first combine
ammonia with oxygen to form nitrites. Then another
group of nitrifying bacteria convert nitrites to nitrates
which green plants can absorb and use!
Nitrifying bacteria in soil
combine ammonia with oxygen
Ammonia changes to nitrites
Nitrifying bacteria in soil
convert nitrites to nitrates
Ammonia
Nitrites
Nitrates
(NH3)
(NO2)
(NO3)
Plants absorb nitrates
and grow!
33. 13. Denitrification converts nitrates (NO3) in the
soil to atmospheric nitrogen (N2) replenishing the
atmosphere.
Nitrogen in atmosphere (N2)
Nitrates (NO3)
in Soil
34. Other ways that nitrogen
returns to the atmosphere…
Emissions from industrial combustion and
gasoline engines create nitrous oxides
gas (N2O).
Volcano eruptions
emit nitrous oxides
gas (N2O).
35. Can you fill in the following diagram
with the parts of the nitrogen cycle?
Word bank:
denitrification,
nitrification,
nitrogen fixation,
ammonification
36. (a)
(b)
N2
N2 O
(4) _____________
(1) _____________
(c)
Nitrogen
Cycle
(3) ____________
NO3
Ammonia is converted
to nitrites and nitrates.
(2) _____________
NH3
Nitrates in Soil
Organic nitrogen is
converted to ammonium.
37. (a)
(b)
N2
N2 O
(4) Denitrification
(1) Nitrogen Fixation
(c)
Nitrogen
Cycle
(3) Nitrification
(2) Ammonification
NO3
Ammonia is converted
to nitrites and nitrates.
NH3
Nitrates in Soil
Organic nitrogen is
converted to ammonium.