booklet 2 - flows + transfers

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Created by
Isabel M

Cards (33)

  • transfers / fluxes: processes by which carbon moves between stores
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  • net carbon sink: more carbon enters a store than leaves it
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  • net carbon source: If more carbon leaves a store than enters it.
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  • what are the factors driving change in the carbon cycle - fast cycle: photosynthesis
    respiration
    combustion
    biological carbon pump
    decomposition
    ocean-atmosphere exchange
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  • what are the factors driving change in the carbon cycle - slow cycle: carbon sequestration in oceans + sediments
    weathering + volcanoes
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  • what is the fast carbon cycle? time it takes for carbon to move through cycle is measured in a lifespan
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  • what is the slow carbon cycle? can take place over many tens + hundreds of millions of years
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  • what is a carbon pump? - mechanism that drives carbon from one zone to another
    - generates transfers of carbon
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  • what are the two carbon pumps? ocean-atmosphere exchange
    biological carbon pump
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  • photosynthesis: - plants use energy from sun to produce carbohydrates in form of glucose
    - green plants absorb light with chlorophyll
    - energy converts CO2 into glucose + releases oxygen
    - glucose used in plant growth
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  • respiration: - chemical process occurring in all cells
    - glucose converted into energy that's used for growth + repair and controls body temp
    - CO2 returned to atmosphere
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  • decomposition: - when organisms die, they're consumed by decomposers (eg worms, bacteria + fungi)
    - during process, carbon is released as CO2
    - some organic material passed into soil + stored
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  • biomass combustion: - organic material contains carbon
    - burned in with oxygen, matter is converted into energy, CO2 and water
    - CO2 released to atmosphere, returning the carbon that has been stored in the rocks
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  • what is thermohaline circulation? - water sinks due to cooling + becoming more dense
    - also due to being saline (heavier)
    - becomes saline due to salt sinking to bottom of ice
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  • the oceanic carbon pump: - at ocean surface, theres exchange of CO2
    - some CO2 dissolves into water + some goes into atmosphere
    - warmer ocean = less carbon taken in + stored in sea
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  • ocean temperatures + CO2: - negative correlation
    - warm water in currents carried from tropics to polar regions
    - here, water cools + becomes dense enough to sink below surface (downwelling)
    - when water returns to surface (upwelling) + warms, it loses CO2 to atmosphere
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  • what does the oceanic carbon pump give? gives ocean more carbon than it would have if surface water wasn't constantly replenished
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  • the oceanic carbon stores - impact of global warming: the warmer the ocean gets, less carbon stored in it + so more carbon in atmosphere
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  • the oceanic carbon stores - impact of weakening thermohaline cycle: will weaken downwelling + so less storage will occur
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  • how do the oceanic carbon pump and thermohaline cycle act as carbon sinks? - oceanic carbon pump means water exchanges CO2
    - thermohaline cycle transports carbon absorbed at surface down to ocean bed, creating carbon sink
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  • biological carbon pump: - During the carbon cycle, CO2 is naturally removed from the atmosphere
    - Over thousands of years, fraction of it is sequestered in the oceans for prolonged periods of time
    - Dead phytoplankton and other organisms drive this pump as they sink towards the bottom of the ocean
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  • burial and compaction: - organisms compacted into sediments to form rock
    - sediments containing carbon may form hydrocarbons
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  • geological carbon cycle: - takes place over millions of years
    - involves cycling carbon through various layers of rock
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  • role of chemical weathering in carbon cycle: CO2 from atmosphere dissolves in rainwater, forming carbonic acid
    weak acid reacts with limestone - carbonation
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  • impact of chemical weathering in carbon cycle: - removes CO2 from atmosphere + stores it as dissolved carbon in hydrosphere
    - overtime, forms calcium carbonate in shells, which becomes limestone
    - locks carbon in long term store
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  • wheres the primary source of carbon from? - earths mantle
    - volcanoes release 200 million tonnes of carbon per year
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  • carbon sequestration: capturing CO2 out of atmosphere + placing it in long term storage
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  • terrestrial sequestration: use of plants to capture CO2 from atmosphere + store it in plants and soil
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  • oceanic sequestration
    The storing of CO2 dissolved in seawater
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  • the carbon budget: balance of carbon exchanges between 4 major carbon stores
    uses data to describe amount of carbon stored + transferred within carbon cycle
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  • local scale transfer of carbon - a tree: - carbon fixation = process of converting CO2 gas to living organisms to grow
    - amount of carbon stores depends on balance between photosynthesis + respiration
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  • whats a sere?

    succession (complete vegetation succession)
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  • seral scale transfer of carbon - deciduous woodland: - bare soil
    - pioneer grasses -> plants take in CO2 from atmosphere + store it as biomass
    - shrubs
    - bacterial decomposition releases CO2 back into atmosphere
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