The phosphorus cycle is a crucial biogeochemical cycle involving the movement of phosphorus through lithosphere, hydrosphere, and biosphere, playing a significant role in plant and animal health. It includes stages like weathering, mineralization, absorption by animals, decomposition, and geological uplift, and is affected by human activities such as fertilizer use and deforestation. To mitigate disruption of the cycle, practices like reducing fertilizer use, proper waste disposal, and sustainable agricultural techniques are recommended.

1. THE
PHOSPHORUS
CYCLE
Presented by: Group 4

2. 1.Define what is Phosphorus ,and where can we find it.
2. Explain what is Phosphorus cycle and its stages.
3. Analyze the relevance of the cycle to climate change, the
effects of humans to the cycle, and how can we help not to
disrupt the cycle.
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IN THIS LESSON WE WILL LEARN:

3. Phosphorus is a chemical element found on Earth in numerous
compound forms, such as the phosphate ion (PO43-),
Phosphorus is an essential nutrient for animals and plants. It
plays a critical role in cell development and is a key component
of molecules that store energy, such as ATP (adenosine
triphosphate), DNA and lipids (fats and oils). Insufficient
phosphorus in the soil can result in a decreased crop yield.
WHAT IS PHOSPHORUS?
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4. 1. Mineral Rocks
The main natural source of phosphorus is mineral rocks,
particularly apatite, which is a group of phosphate minerals.
2. Soil
Once released from rocks, phosphate ions become part of the
soil. Plants absorb these ions through their roots, incorporating
phosphorus into their biological molecules, such as DNA, RNA,
ATP, and phospholipids.
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WHERE CAN WE FIND
PHOSPHORUS?

5. 3. Water Bodies
Phosphorus can also be found in aquatic environments. It enters
water bodies through runoff from the land, which carries soil
particles containing phosphate ions. Aquatic plants and algae
absorb these phosphates. Additionally, phosphorus can settle in
sediments at the bottom of water bodies, contributing to long-
term geological cycles.
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WHERE CAN WE FIND
PHOSPHORUS?

6. 4. Organic Matter
Phosphorus is present in all living organisms. When plants and
animals die, decomposers like bacteria and fungi break down
their organic matter, releasing phosphorus back into the soil
and water. This process recycles phosphorus within ecosystems.
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WHERE CAN WE FIND
PHOSPHORUS?

7. The phosphorus cycle is a crucial biogeochemical cycle that
describes the movement of phosphorus through the
lithosphere, hydrosphere, and biosphere. Unlike other nutrient
cycles, such as the nitrogen or carbon cycles, the phosphorus
cycle does not include a significant gaseous phase and primarily
occurs through terrestrial and aquatic environments.
Phosphorus moves in a cycle through rocks, water, soil and
sediments and organisms.
WHAT IS THE PHOSPHORUS CYCLE
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8. The stages of the phosphorus cycle takes many years to
complete and repeat.
WHAT IS THE PHOSPHORUS CYCLE
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9. 1. Weathering
Over a long period, phosphates found in the sedimentary rocks
as PO43-, are leached out of the disintegrated rocks from its
various environmental sources in the form of inorganic
phosphate ions. This process called weathering acts as the first
key step of the phosphorus cycle.
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THE STAGES OF PHOSPHORUS CYCLE

10. 2. Mineralization by plants
Plants absorb organic phosphorus present in soil and
underground water and convert them to inorganic forms for
utilization is called mineralization.
The aquatic plants absorb inorganic phosphorus from lower
layers of water bodies due to their low solubility in water.
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THE STAGES OF PHOSPHORUS CYCLE

11. 3. Absorption by Animals
The animals absorb phosphorus from the plants or by
consuming plant-eating animals. Herbivorous and carnivorous
animals, including humans, absorb phosphorus when they
consume these plants for their food, a process known as
assimilation. Besides, animals obtain phosphorus directly from
drinking water. The rate of the phosphorus cycle is faster in
plants and animals when compared to rocks.
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THE STAGES OF PHOSPHORUS CYCLE

12. 4. Decomposition by microorganisms
Microorganisms such as bacteria and fungi decompose organic
phosphates back into the inorganic form, which is then
returned to the soil and water bodies. Phosphorus-containing
compounds may also be carried in the surface runoff to rivers,
lakes, and oceans to form sediments.
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THE STAGES OF PHOSPHORUS CYCLE

13. 5. Geological uplift by tectonic movements
Over long periods, sedimentary rocks containing phosphorus
may be moved from the ocean to the land by a process called
geological uplift. The phosphorus thus deposited as sediments
are ultimately released back into the environment through the
process of weathering, thus completing the cycle.
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THE STAGES OF PHOSPHORUS CYCLE

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15. RELEVANCE OF P-CYCLE TO CLIMATE
CHANGE
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The phosphorus cycle is intricately linked to climate
change in several ways, even though phosphorus itself is
not a greenhouse gas. The following relevance are:
• Enhances Plant Growth
• Improves Soil Health
• Impacts Agriculture
• Affects Aquatic Ecosystems
• Interacts with Other Cycles

16. RELEVANCE OF P-CYCLE TO CLIMATE
CHANGE
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The phosphorus cycle is intricately linked to climate
change in several ways, even though phosphorus itself is
not a greenhouse gas. The following relevance are:
• Enhances Plant Growth
• Improves Soil Health
• Impacts Agriculture
• Affects Aquatic Ecosystems
• Interacts with Other Cycles

17. THE EFFECT OF HUMAN TO THE CYCLE
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• Using of phosphate-containing fertilizers
• Cutting down of tropical rain forests
• Spilling of phosphate during transportation
• Leaching (Dissolving into water) of phosphorus from
households and industries into water bodies

18. HOW DOES THE USE OF FERTILIZER AFFECT
THE PHOSPHORUS CYCLE?
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Excessive use of phosphate fertilizers to enrich the soil
also potentially increases the phosphorus content of the
water bodies through surface runoff. This phenomenon
leads to excessive growth of algae, thus lowering the
dissolved oxygen level in the water bodies, resulting in
severe loss of aquatic lives.

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HOW DOES DEFORESTATION AFFECT THE
PHOSPHORUS CYCLE?
Cutting down of trees increases soil erosion and thus
decrease the phosphorus content of the soil. Since
phosphorus acts as a limiting nutrient for plant growth,
deforestation affects the phosphorus cycle.

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HOW DOES SPILLING OF PHOSPHATE AND
LEACHING PHOSPHORUS AFFECT THE CYCLE?
Phosphate not utilised by plants can be lost from the soil
through leaching and water run-off. This phosphate ends
up in waterways, lakes and estuaries. Excess phosphate
causes excessive growth of plants in waterways, lakes and
estuaries leading to Eutrophication, a phenomena that
may lead to creating dead zones in the water where it is
inhabitable by many aquatic lifeforms.

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HOW CAN WE HELP NOT TO DISRUPT THE
CYCLE
1. Minimize fertilizer use: Reducing the amount of
fertilizers high in phosphorus used in agriculture can
help stop too much phosphorus from getting into water
systems.
2. Appropriate disposal of waste: Making sure that
phosphorus-containing waste, such manure and sewage,
is appropriately handled and disposed of in order to stop
runoff into water bodies.

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HOW CAN WE HELP NOT TO DISRUPT THE
CYCLE
3. By putting in place vegetation buffer zones next to
water bodies, excess phosphorus can be filtered out
before it enters the water.
4. Encourage the use of sustainable agricultural
techniques: Crop rotation, cover crops, and precision
farming can all assist to improve soil health and decrease
the demand for phosphorus fertilizers.

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HOW CAN WE HELP NOT TO DISRUPT THE
CYCLE
5. Investing in more advanced wastewater treatment
technologies can assist in supporting wastewater
treatment.

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CONCLUSION
In conclusion, just like the other biochemical
cycles on earth, the Phosphorus cycle is
important to the lives of its habitants and the
quality of our environment. that is why we
must strive to not destroy the cycles and help
it continue for future generations to come.

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Video Presentation
Source: https://youtu.be/izgqpfPZyRQ

26. THANK YOU