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Biogeochemical Cycles

Published byTeguh Setiabudi Modified over 5 years ago

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Presentation on theme: "Biogeochemical Cycles"— Presentation transcript:

1 Biogeochemical Cycles

2 Water Cycle Defined: Movement of water through the atmosphere
75% of the earth is water 99% of water undrinkable (salty & frozen) Water recycles over and over

3 How Does Water Go Up? Water rises into the atmosphere in two ways:
Evaporation: Heat changes water from a liquid to a gas Transpiration: Water evaporates from the leaves of plants through openings called stomata

4 How Does Water Come Down?
Warm, moist air rises and eventually cools Condensation: process where water vapor turns into a liquid Rain, snow, sleet, or hail falls when water drops become heavy (Precipitation)

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12 Water on the Ground Infiltration: Water soaks into the soil and collects as groundwater Process repeats Runoff: Water runs down hill into rivers, lakes, streams, oceans…

13 Oxygen Cycle Autotrophs: Release O2 into atmosphere via photosynthesis
All life: Absorbs O2 to be used during cellular respiration Respiration: creates ATP energy for cells

14 Carbon Cycle CO2 CO2 Carbon = (organic molecules) carbohydrates, proteins, lipids, nucleic acids Plants & autotrophs: Intake: Absorb CO2 from atmosphere Create glucose & sugar via photosynthesis Output: Release CO2 during respiration

15 Carbon Cycle Consumers
Intake: Carbon moves up the food chain as 1 feeds on another Output: Release CO2 during respiration

16 Carbon Cycle Decomposers Input: Feed on dead organic matter
Output: Release CO2 during respiration Output: Organic molecules returned to soil during decomposition

17 Carbon Cycle Human Industry
CO2 Human Industry Output: Release CO2 into atmosphere when fossil fuels (coal, oil, natural gas) are burned

18 Nitrogen Cycle N = 78% atmosphere (most unusable) Soil Bacteria
Ammonia Nitrates N = 78% atmosphere (most unusable) Soil Bacteria Nitrogen fixation: convert atmospheric nitrogen into ammonia Nitrification: ammonia converted into nitrates

19 Nitrogen Cycle Nitrates Plants Absorb nitrates through their roots

20 Nitrogen Cycle Animals
Nitrates Animals Ingest nitrates through the food chain (plants eaten)

21 Nitrogen Cycle Decomposers
Ammonia Ammonia Ammonia Decomposers Return ammonia to soil by feeding on dead matter

22 Nitrogen Cycle Lightning
Energy breaks atmospheric nitrogen into Nitrogen oxide Nitrogen oxide falls in rain to soil

23 Phosphorus (P) Cycle No phosphorus in atmosphere Rocks
Phosphorus released by weathering of rocks P P

24 Phosphorus (P) Cycle Plants Absorb P into their roots P

25 Phosphorus (P) Cycle Animals Ingest P when plants eaten
P continues to move up food chain P

26 Phosphorus (P) Cycle Decomposers
Breakdown dead matter and release P into soil P P

27 Phosphorus (P) Cycle Human Contribution P P P P
Adding excess P from fertilizers P washes into lakes, etc… Excess P causes extreme algae growth P P

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