Learning objectives Success criteria Decomposition and the nitrogen cycle Describe the role of decomposers in the decomposition of organic material Describe.

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Presentation transcript:

Learning objectives Success criteria Decomposition and the nitrogen cycle Describe the role of decomposers in the decomposition of organic material Describe how microorganisms recycle nitrogen within ecosystems

Nutrients are constantly recycled through the carbon cycle and the nitrogen cycle. What happens to nutrients? microbial decomposition of dead organisms and waste nutrients in the soil and atmosphere energy and biomass Producers Decomposers Consumers

What is a saprophyte? A saprophyte is an organism that gains nutrients from dead organic matter. This is usually the first stage of decay. Saprophytes produce enzymes that break down dead matter. They can then absorb the released nutrients. Bacteria and fungi feed saprotrophically. What would happen if they didn’t exist?

Why is nitrogen so important? Nitrogen is essential for growth because it is used by plants and animals to make proteins. Nitrogen makes up about 78% of the atmosphere. However, nitrogen deficiency is the most common cause of poor plant growth. How is atmospheric nitrogen changed into a useable form? Why are plants unable to use the nitrogen straight from the air? Nitrogen gas (N 2 ) is unreactive and is not easily converted into other compounds. Most plants can only take up nitrogen (by active transport) in the form of ammonia or nitrate.

Do NOT write anything down

Nitrogen Fixation Nitrogen gas can be ‘fixed’ into ammonia by humans using the Haber process. This is then used in the production of fertilisers. A small amount of nitrogen is fixed to nitrate by lightning.

Nitrogen Fixation Nitrogen fixing bacteria reduce nitrogen gas to ammonia, which they then use to manufacture amino acids. Nitrogen rich compounds are released from them when they die. Nitrogen fixing bacteria may be free living in soil or water. Non-symbiotic nitrogen fixing bacterium Azospirrillum.

Nitrogen Fixation The nitrogen-fixing bacteria (Rhizobium) may live in colonies inside the cells of root nodules of leguminous plants such as clover or peas (mutualism). In return for sugars from the plant, the bacteria fix nitrogen which can be used by the plant for growth. The nitrogen in the plant proteins is passed on to animals through food chains.

Ammonification When living organisms excrete waste or die their nitrogen is returned to the soil in the form of ammonium compounds by saprobiotic microorganisms (bacteria and fungi). Microbial saprophytes break down proteins in detritus to form ammonium ions (ammonification or deamination). This is where nitrogen returns to the non-living component of the ecosystem.

Nitrification Plants can only take up nitrogen in the form of nitrate. Ammonium compounds are oxidised into nitrates by nitrifying bacteria in two stages: first forming nitrite ions (Nitrosomonas) then forming nitrate ions (Nitrobacter) This is an oxidation reaction and so releases energy. These are chemosynthetic bacteria, which means they use the energy released by nitrification to live.

Nitrification Nitrifying bacteria require oxygen to carry out these conversions so the soil needs many air spaces. Farmers can increase the aeration of soils by Ploughing Good drainage

Denitrification The anaerobic denitrifying bacteria convert nitrate to nitrogen gas, which is then lost to the air. These are present in greater numbers when the soil becomes waterlogged. This represents a constant loss of “useful” nitrogen from soil, and explains why fertilisers and nitrogen fixation by the nitrifying bacteria are so important.

Task Construct the Nitrogen Cycle Each word could be used more than once

Plenary Wordsearch

Homework Questions