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Flow of Energy and Matter. Ecosystem Recycling. Energy and matter flow through an ecosystem Plants get energy from the sun We get energy from what we eat Metabolism. Ecosystem Recycling. Matter must be recycled and reused. A few elements make up most living things CHNOPS
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Ecosystem Recycling • Energy and matter flow through an ecosystem • Plants get energy from the sun • We get energy from what we eat • Metabolism
Ecosystem Recycling • Matter must be recycled and reused. • A few elements make up most living things • CHNOPS • These elements move between living and non living things.
CHNOPS • CHNOPS cycle through an ecosystem and recombine into different compounds. • Compounds important to life: • Carbohydrates: CHO • Lipids: CHO • Proteins: CHNO • Nucleic Acids: CHNOP
Biogeochemical Cycles • How do these elements and compounds move through an ecosystem? • Biogeochemical cycles: • Movement of elements through the air, water, soil, rock and living things.
Water Cycle • Why is water critical to life? • Makes up most of our cells • It’s a place for chemical reactions to take place • Helps to dissolve, break up and transport compounds in rock and soil.
Water Cycle • Where is water in the environment? • Atmosphere • Water vapor • Bodies of Water • Streams, lakes, oceans • Frozen in ice • Groundwater
Water Cycle • How does water “cycle” • Evaporation • Transpiration • Condensation • Precipitation • Infiltration • Run off
Effects of Human Activities on Water Cycle • We alter the water cycle by: • Using large amounts of freshwater. • Clearing vegetation and eroding soils. • Polluting surface and underground water. • Contributing to climate change.
Carbon Cycle • What make Carbon so great? • Carbon bonds easily with carbon • Carbon makes a skeleton for other atoms • It’s the perfect building block for large molecules like protein and nucleic acids
Carbon Cycle • Where is carbon in the environment? • Atmosphere: carbon dioxide • Ocean: marine life, dissolved in water. • Stored in rocks, soil and fossil fuel
Carbon Cycle • Plants use CO₂ and water for photosynthesis and release O₂ • Animals use O₂ for cellular respiration and release CO₂
Effects of Human Activities on Carbon Cycle • We alter the carbon cycle by adding excess CO2 to the atmosphere through: • Burning fossil fuels. • Clearing vegetation faster than it is replaced.
Nitrogen Cycle Why is Nitrogen important to life? Used to make proteins and DNA Life could not go on without it Where do we get nitrogen? 80% of the atmosphere is nitrogen But….living things can not use it in this form.
Nitrogen Cycle • Nitrogen fixation - bacteria change N₂ to a usable form NO₃⁻ • Decomposers – break down dead things, urine and dung (N₂ to NH₃⁻) • Nitrification – bacteria change NH₃⁻ to NO₃⁻ • Denitrification – bacteria change fixed nitrogen to nitrogen gas. • Plants take up nitrogen and animals eat plants or other animals.
Effects of Human Activities on the Nitrogen Cycle • We alter the nitrogen cycle by: • Adding gases that contribute to acid rain. • Adding nitrous oxide to the atmosphere through farming practices which can warm the atmosphere and deplete ozone. • Contaminating ground water from nitrate ions in inorganic fertilizers. • Releasing nitrogen into the troposphere through deforestation.
Phosphorus Cycle • Why is Phosphorus Important to Life? ATP (that energy molecule created by every living thing) DNA and Bone tissue too. • Where is it? • Rocks and soil
Phosphorus Cycle • How does it cycle? • Plants absorb it from the soil • Animals get P from eating plants of other animals. • P is returned to the soil by excrement and decomposing organisms • It’s absorbed again or its stored in rocks
Effects of Human Activities on the Phosphorous Cycle • We remove large amounts of phosphate from the earth to make fertilizer. • We reduce phosphorous in tropical soils by clearing forests. • We add excess phosphates to aquatic systems from runoff of animal wastes and fertilizers.
Rock Cycle • Rocks: • Igneous • Sedimentary • Metamorphic • Processes that change rock into soil • Weathering (freeze/thaw) • Erosion (removal by wind/water/ice)