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Nitrogen
Cycle
• Describe the role of decomposers in the
decomposition of organic material.
• Describe how microorganisms recycle
nitrogen within ecosystems.
What is the Nitrogen Cycle?
It is the recycling of nitrogen
compounds!
Why is it important?
Nitrogen is a vital element in the
production of proteins.
Nitrogen cannot be utilised in its
gaseous form so needs to be
converted to other substances
N2 in the Atmosphere
How does this nitrogen get into the
atmosphere?
Denitrifying bacteria
What do these bacteria do?
They convert nitrates found in the
soil into nitrogen gas
Denitrification.
• The process by which nitrates in the soil are
converted into gaseous nitrogen.
• It is carried out by the anaerobic bacteria
Pseudomonas denitrificans and Thiobacillus
denitrificans
• They like water logged soil (anaerobic
conditions)
• Farmers and gardeners dig and plough their
land to increase drainage and reduce
anaerobic conditions.
N2 in the Atmosphere
Denitrifying
bacteria
Nitrogen fixing bacteria in roots
Haber process
Nitrogen fixing bacteria in the soil
Lightning
Nitrates in the soil
How does lightning add nitrates to the soil?.
• It splits nitrogen gas into nitrogen atoms which
react with oxygen to form oxides of nitrogen.
These then dissolve in rain water and eventually in
the soil form nitrates.
What are the names of some nitrogen fixing bacteria
in the soil?
•Azotobacter, Clostridium and Nostoc.
What is the name of a nitrogen fixing bacteria in a
root nodule?
•Rhizobium.
N2 in the Atmosphere
Nitrates in the soil
Denitrifying bacteria
Produces
ammonia and
ammonium
compounds
which are used
to make
fertilisers
Haber process
Lightning
Nitrogen fixing bacteria in roots
Nitrogen fixing bacteria in the soil
What does
the Haber
process do?
N2 in the Atmosphere
Nitrogen
fixing
bacteria
in roots Denitrifying
bacteria
Haber
process
Nitrogen
fixing
bacteria
in the
soil
Ammonia and
Ammonium compounds
Fertilisers
Lightning
What do the bacteria
in roots do?
They convert nitrogen gas in the soil into
nitrogen compounds in the roots
Why is this useful?
Nitrates in the soil
The plant can then
make proteins.
Nitrogen Fixation
Converts gaseous nitrogen into a form
which can be utilised by a plant.
It is carried out by both free living organisms
and organisms living in symbiotic association
with leguminous plants.
They increase soil fertility.
N2 in the Atmosphere
Nitrogen
fixing
bacteria
in roots Denitrifying
bacteria
Haber
process
Nitrogen
fixing
bacteria
in the
soil
Ammonia and
Ammonium compounds
Fertilisers
Lightning
Nitrates in the soil
Plant
proteins
How else do plants get nitrates?
They absorb them from the soil through
their roots.
How do animals get the proteins they need to grow?
By eating plant material
How are Nitrates added to the soil?
Organic waste from dead animals or plants, or animal
excretions contain useful nitrogen compounds and make good
fertilisers if put on the soil.
N2 in the Atmosphere
Haber
process
Nitrogen
fixing
bacteria
in the
soil
Animal
protein
Decomposition
Ammonia and
Ammonium compounds
Decomposition
Fertilisers
Lightning
Nitrifying
bacteria
Nitrogen
fixing
bacteria
in roots Denitrifying
bacteria
Plant
proteins
Nitrates absorbed by
roots
Nitrates in the soil
Nitrification
This is the name given to the series of reactions
involved in the oxidation of ammonia to nitrates.
There are 2 stages:
1. The oxidation of ammonia or ammonium
compounds to nitrites by free living bacteria e.g.
Nitrosomonas
2NH3 + 3O2
2NO2- + 2H+
Ammonia Oxygen
Nitrite
+ 2H2O
Hydrogen ions Water
2. The oxidation of the nitrite by other free-living
bacteria e.g. Nitrobacter and Nitrococcus
2NO2Nitrite
+
O2
Oxygen
2NO3nitrate
In both cases chemosynthetic bacteria
carry out these processes as a means of
obtaining their respiratory energy.