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Cycles of Matter • Unlike the one-way flow of energy, matter is ______________ Cycles of Matter • Unlike the one-way flow of energy, matter is recycled within and between ecosystems. Cycles of Matter • Biogeochemical cycles – Cycles of Matter • Biogeochemical cycles – Process in which elements, chemical compounds, and other forms of matter passed from one organism to another and from one part of the biosphere to another Cycles of Matter • Biogeochemical cycles – Biological Geological Chemical Cycles are all connected The Water Cycle • Evaporation - The Water Cycle • Evaporation – process by which water changes from liquid form to an atmospheric gas The Water Cycle • Evaporation – process by which water changes from liquid form to an atmospheric gas • Transpiration - The Water Cycle • Evaporation – process by which water changes from liquid form to an atmospheric gas • Transpiration – process of water evaporating from the leaves of plants The Water Cycle • Evaporation and transpiration occur The Water Cycle • Evaporation and transpiration occur • Sun heats the atmosphere • Warm air rises, and eventually cools The Water Cycle • Sun heats the atmosphere • Warm air rises, and eventually cools • Water vapor condenses and forms clouds The Water Cycle • When large enough, water droplets return to Earth’s surface in form of precipitation – rain, snow sleet or hail The Water Cycle • When large enough, water droplets return to Earth’s surface in form of precipitation – rain, snow sleet or hail • On land, water runs along surface until it enters stream, river, lake or ocean The Water Cycle • On land, water runs along surface until it enters stream, river, lake or ocean • Some water also seeps into soil and becomes ground water The Water Cycle • Some water also seeps into soil and becomes ground water • Some water in soil enters plants through the roots The Water Cycle • Some water in soil enters plants through the roots and water cycle begins again Nutrient Cycles Nutrient Cycles • Benefits - Nutrient Cycles • Benefits – – Every organism needs nutrients to build tissues and carry out essential life functions Nutrient Cycles • Benefits – – Every organism needs nutrients to build tissues and carry out essential life functions • Like water, nutrients are passed between organisms and the environment through biogeochemical processes Nutrient Cycles • Benefits – – In many ecosystems, nutrients are in short supply Nutrient Cycles • Benefits – – In many ecosystems, nutrients are in short supply • Thus recycling nutrients is essential for the ecosystem to keep functioning Nutrient Cycles • Benefits – – Nutrient cycling prevents many chemicals from reaching concentrations that would otherwise be toxic or harmful to organisms Nutrient Cycles • Three cycles play especially prominent roles in the biosphere Nutrient Cycles • Three cycles play especially prominent roles in the biosphere – The carbon cycle Nutrient Cycles • Three cycles play especially prominent roles in the biosphere – The carbon cycle – The nitrogen cycle Nutrient Cycles • Three cycles play especially prominent roles in the biosphere – The carbon cycle – The nitrogen cycle – The phosphorus cycle The Carbon Cycle • There are four different kinds of processes involved in the carbon cycle The Carbon Cycle • There are four different kinds of processes involved in the carbon cycle – Biological processes - The Carbon Cycle • There are four different kinds of processes involved in the carbon cycle – Biological processes – photosynthesis, respiration, and decomposition of plants and animals The Carbon Cycle • There are four different kinds of processes involved in the carbon cycle – Geochemical processes - The Carbon Cycle • There are four different kinds of processes involved in the carbon cycle – Geochemical processes – release of carbon dioxide to atmosphere by volcanoes The Carbon Cycle • There are four different kinds of processes involved in the carbon cycle – Mixed biogeochemical processes - The Carbon Cycle • There are four different kinds of processes involved in the carbon cycle – Mixed biogeochemical processes – burial of carbon-rich remains of organisms and their conversion into fossil fuels (coal and petroleum) by the pressure of overlying earth The Carbon Cycle • There are four different kinds of processes involved in the carbon cycle – Human activity - The Carbon Cycle • There are four different kinds of processes involved in the carbon cycle – Human activity – including mining, the burning of fossil fuels, and the cutting and burning of forests The Carbon Cycle • In the atmosphere, carbon is present as carbon dioxide. CO2 CO2 The Carbon Cycle • In the atmosphere, carbon is present as carbon dioxide. • This carbon dioxide came from – – – – Volcanic activity Respiration Burning of fossil fuels Decomposition of organic matter CO2 CO2 The Carbon Cycle • Plants take in carbon dioxide CO2 CO2 The Carbon Cycle • Plants take in carbon dioxide CO2 – The carbon is used to build carbohydrates during photosynthesis CO2 The Carbon Cycle • The carbohydrates are passed along food webs to animals and other consumers CO2 CO2 The Carbon Cycle • In the ocean organisms use carbon to make calcium carbonate CO2 CO2 The Carbon Cycle • In the ocean organisms use carbon to make calcium carbonate – This calcium carbonate accumulates in marine sediments and in the bones and shells of organisms CO2 CO2 The Carbon Cycle • These calcium carbonate compounds eventually break down and the carbon returns to the atmosphere CO2 CO2 The Nitrogen Cycle • Nitrogen fixation - The Nitrogen Cycle • Nitrogen fixation – process where nitrogen gas is converted to ammonia by bacteria found in roots of plants called legumes The Nitrogen Cycle • Nitrogen required to make amino acids, which are used to build proteins. N2 NH3 NO3NO2- The Nitrogen Cycle • Nitrogen required to make amino acids, which are used to build proteins. • When organisms die, decomposers return nitrogen to the soil as ammonia N2 NH3 NO3NO2- The Nitrogen Cycle • nitrogen gas (N2) makes up 78% of atmosphere N2 NH3 NO3NO2- The Nitrogen Cycle • nitrogen gas (N2) makes up 78% of atmosphere • Through nitrogen fixation, nitrogen gas converted to ammonia N2 NH3 NO3NO2- The Nitrogen Cycle • Ammonia (NH3), nitrate ions (NO3-), and nitrite ions(NO2-) are found in wastes produced by organisms N2 NH3 NO3NO2- The Nitrogen Cycle • Ammonia (NH3), nitrate ions (NO3-), and nitrite ions(NO2-) are found in wastes produced by organisms • These compounds taken up by producers to make proteins N2 NH3 NO3NO2- The Nitrogen Cycle • Soil bacteria convert nitrates into nitrogen gas in process called denitrification N2 NH3 NO3NO2- The Phosphorous Cycle • Important to living organisms because it forms part of DNA and RNA The Phosphorous Cycle • Important to living organisms because it forms part of DNA and RNA • Not very common in biosphere The Phosphorous Cycle • Important to living organisms because it forms part of DNA and RNA • Not very common in biosphere • Does not enter atmosphere The Phosphorous Cycle • Important to living organisms because it forms part of DNA and RNA • Not very common in biosphere • Does not enter atmosphere – Instead it remains mostly on land in rock and soil minerals, and in ocean sediments The Phosphorous Cycle • Does not enter atmosphere – Instead it remains mostly on land in rock and soil minerals, and in ocean sediments – As rocks wear down, phosphate is released The Phosphorous Cycle • Does not enter atmosphere – Instead it remains mostly on land in rock and soil minerals, and in ocean sediments – As rocks wear down, phosphate is released – It is released into streams and rivers and eventually makes its way to the ocean and is used by marine organisms – On land it is absorbed by plants and passes up through the food chain Nutrient Limitation • Primary productivity - Nutrient Limitation • Primary productivity – rate at which organic matter is created by producers. Nutrient Limitation • Limiting nutrient – single nutrient that either is scarce or cycles very slowly, limiting the growth of organisms in an ecosystem Nutrient Limitation • Limiting nutrient – single nutrient that either is scarce or cycles very slowly, limiting the growth of organisms in an ecosystem – Examples – • farmers add fertilizers that contain nitrogen, phosphorus, and potassium to their crops Nutrient Limitation • Limiting nutrient – single nutrient that either is scarce or cycles very slowly, limiting the growth of organisms in an ecosystem – Examples – • farmers add fertilizers that contain nitrogen, phosphorus, and potassium to their crops • In freshwater aquatic environment, phosphorus is usually the limiting nutrient Nutrient limitation • Algal bloom - Nutrient limitation • Algal bloom – immediate increase in the amount of algae and other producers that results from a large input of a limiting nutrient Nutrient limitation • Algal bloom – immediate increase in the amount of algae and other producers that results from a large input of a limiting nutrient – Often results when runoff from heavily fertilized fields increases amount of limiting nutrient
