Topic 4.3 Carbon Cycling Flashcards
Different forms of carbon
- Atmospheric gases – mainly carbon dioxide (CO2), but also methane (CH4)
- Oceanic carbonates – including bicarbonates dissolved in the water and calcium carbonate in corals and shells
- As organic materials – including the carbohydrates, lipids and proteins found in all living things
- As non-living remains – such as detritus and fossil fuels
Autotrophs and carbon dioxide
they convert inorganic carbon dioxide into organic compounds via photosynthesis
the level of carbon dioxide within the organism should be low since it is used during photosynthesis, in other words the concentration of carbon dioxide in the atmosphere is always higher
The amount of carbon dioxide in the environment will be determined by the level of these two processes:
- If there is more net photosynthesis than cell respiration occurring in the biosphere, atmospheric carbon dioxide levels should drop
- If there is more net respiration than overall photosynthesis occurring, atmospheric carbon dioxide levels should increase
Carbonic acid
Carbon dioxide dissolves in water and some of it will remain as a dissolved gas, however the remainder will combine with water to form carbonic acid (CO2 + H2O ⇄ H2CO3)
Methanogens
archaean microorganisms that produce methane (CH4) as a metabolic by-product in anaerobic conditions
Methanogens may be found in
Wetlands
Marine sediments
Digestive tract of ruminant animals
Methane in the long run
it only persists for approx 12 years as it can be naturally oxidized into carbon and water
this is why there isn’t much in the atmosphere despite that quantities being produced
By-products of anaerobic digestion
Acetic acid → Methane and Carbon Dioxide (CH3COO– + H+ → CH4 + CO2)
Carbon Dioxide and Hydrogen → Methane and Water (CO2 + 4 H2 → CH4 + 2 H2O)
Carbon source: fossil fuels - how is it acquired
Plant/animals –decomposition–> Soil bacteria –fossilation–> Fossils –extraction–> Fossil fuels
Partial decomposition
In many soils, saprotrophic bacteria and fungi will decompose dead organisms and return nutrients to the soil for cycling
Coal formation
Since the organic matter is not fully decomposed in waterlogged soils, carbon-rich molecules remain in the soil and form peat
- When deposits of peat are compressed under sediments, the heat and pressure force out impurities and remove moisture
- The remaining material has a high carbon concentration and undergoes a chemical transformation to produce coal
Formation of oil/natural gas
Oil (i.e. petroleum) and natural gas form as the result of the decay of marine organisms on the ocean floor (takes place over millions of years)
- Sediments (e.g. clay and mud) are deposited on top of the organic matter, creating anoxic conditions that prevent decomposition
- As a result of the burial and compaction, the organic material becomes heated and hydrocarbons are formed
- The hydrocarbons form oil and gas, which are forced out of the source rock and accumulate in porous rocks (e.g. sandstone)
Pollution
Fuels -> Combustion -> Atmosphere (CO2)
Combustion sources - fossil fuels
- The heat and pressure over time triggers a chemical transformation that results in the compaction of the organic matter
- The resulting products of this process are fossil fuels (coal, oil and natural gas)
- Because this geological process takes millions of years to occur, fossil fuels are a non-renewable energy source
Combustion sources - biomass
- Living organisms produce hydrocarbons as part of their total biomass (either for use or as a waste product)
- These hydrocarbons can be extracted and purified to produce an alternative fuel source (e.g. bioethanol and biodiesel)
- Provided new raw materials are provided and waste products are removed, this source of energy is renewable
