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Post on 12-Jun-2015
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Relationships of organisms with one another and with their
environment
NUTRIENT CYCLES
• Carbon cycle
• Water cycle
• Nitrogen cycle
CARBON CYCLE
CARBON CYCLE REMOVAL OF CO₂ FROM THE ATMOSPHERE• PHOTOSYNTHESIS: uses light energy to convert CO₂ into organic
compounds in plants.
ADDITION OF CO₂ TO THE ATMOSPHERE• RESPIRATION: converts carbohydrates to CO₂ with the release
of energy.• DEATH AND DECAY: provide plant and animal material for
decomposers – bacteria and fungi.• COMBUSTION: releases CO₂ by the burning of fossil fuels.
FOSSILISATION: The hydrocarbon fuels, such as coal and petroleum, come from ancient plants which have only partly decomposed over the million of years since they were buried.
WATER CYCLE
NITROGEN CYCLE
NITROGEN CYCLE1)PROCESSES WHICH ADD NITRATES TO SOIL• Nitrifying bacteria: they use ammonia fron excretory
products and decaying organisms as a source of energy. In this process they produce nitrates.
There is a special group, the nitrogen-fixing bacteria, which can absorb N₂ as a gas from the air spaces in the soil, and build it into compounds of ammonia, which can be easily be changed to nitrates by other nitrifying bacteria. Some of these live in the roots nodules of leguminous plants (peas,beans, clover).
1)PROCESSES WHICH ADD NITRATES TO SOIL(cont)
• Lightning: lightning discharges makes some of the nitrogen gas in the air combine with oxygen, forming nitrogen oxides. They dissolve in rain, and are washed into the soil, where they form nitrates.
2)PROCESSES WHICH REMONVE NITRATES FROM THE SOIL
• Uptake by plants: plant roots absorb nitrates from the soil and combine them with the carbohydrates to make proteins.
• Leaching: as rain water passes through the soil it dissolves the nitrates and carries them away in the run-off or to deeper layers of the soil.
• Denitrifying bacteria: They obtain energy by breaking down nitrates to nitrogen gas which then escapes from the soil into the atmosphere.
POPULATION SIZE
• POPULATION: group of organisms of one species, living in the same area at the same time.
HUMAN POPULATION GROWTH
HUMAN INFLUENCES ON THE ECOSYSTEM
• AGRICULTURE
• POLLUTION
• CONSERVATION
POLLUTION
• WATER POLLUTION by sewage and chemical waste.
• AIR POLLUTION by: - sulfur dioxide. - greenhouse gases • POLLUTION DUE TO PESTICIDES AND
HERBICIDES.• POLLUTION DUE TO NUCLEAR FALL-OUT
POLLUTION OF WATER: the 2 pollutants that reduce oxygen in water are:
• Fertilisers: nitrates and phosphates are added to the soil by farmers. Some are washed from the soil by rain into the nearest pond, lake or river. This process is called leaching.
• Sewage: contains an excellent source of organic food from bacteria, and also contains phosphates from detergents.
AIR POLLUTION
• BY SULFUR DIOXIDE: contributes to acid rain.• BY GREENHOUSE GASES CONTIBUTING TO GLOBAL
WARMING.
Carbon + O₂ → carbon monoxide (CO) and carbon dioxide (CO₂)
Sulphur + O₂ → sulphur dioxide (SO₂)
Nitrogen + O₂ → nitrogen monoxide (NO) and nitrogen dioxide (NO₂)
Greenhouse effect:gases contributing
GAS % ESTIMATED CONTRIBUTION
MAIN SOURCES
Carbon dioxide 55 Burning fossil fuels
Methane 15 Decay of organic matter; waste gases from digestive processesin cattle and insects; natural gas leaks
CFCs (chlorofluorocarbons) 24 Refrigerators and air conditioning systems; plastic foams
Nitrogen oxides 6 Fertilisers; burning fossil fuels, especially in vehicles.
Pollution due to nuclear fall-out
• IONISING RADIATION MAY CAUSE CANCERAccidents at nuclear power stations may release substances into
the atmosphere. Exposure to large amounts of radiation from these substances can cause radiation sickness and burns. They can also increase mutation rates in DNA in our cells, which may lead to cancer.
- Alpha particles- Beta particles- Gamma rays
AGRICULTURE
• DEFORESTATION
• FERTILISERS
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