chapter 3 ecosystems: what are they and how do they work?
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CHAPTER 3 Ecosystems: What Are They and How Do They Work?. Core Case Study: Tropical Rain Forests Are Disappearing. Cover about 2% of the earth’s land surface Contain about 50% of the world’s known plant and animal species Disruption will have three major harmful effects Reduce biodiversity - PowerPoint PPT PresentationTRANSCRIPT
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LIVING IN THE ENVIRONMENT 17THMILLER/SPOOLMAN
CHAPTER 3Ecosystems: What Are They and How Do They Work?
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Core Case Study: Tropical Rain Forests Are Disappearing
• Cover about 2% of the earth’s land surface
• Contain about 50% of the world’s known plant and animal species
• Disruption will have three major harmful effects• Reduce biodiversity• Accelerate global warming• Change regional weather patterns
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Natural Capital Degradation: Satellite Image of the Loss of Tropical Rain Forest
Fig. 3-1a, p. 54
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3-1 What Keeps Us and Other Organisms Alive?
• Concept 3-1A The four major components of the earth’s life-support system are the atmosphere (air), the hydrosphere (water), the geosphere (rock, soil, and sediment), and the biosphere (living things).
• Concept 3-1B Life is sustained by the flow of energy from the sun through the biosphere, the cycling of nutrients within the biosphere, and gravity.
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The Earth’s Life-Support System Has Four Major Components
• Atmosphere• Troposphere: where weather happens• Stratosphere: contains ozone layer
• Hydrosphere
• Geosphere
• Biosphere
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Fig. 3-2, p. 56
Soil
Biosphere (living organisms)
Atmosphere
RockCrust
Mantle
Geosphere (crust, mantle, core)Mantle
Core Atmosphere (air)
Hydrosphere (water)
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The Diversity of Life
Fig. 3-3a, p. 56
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Three Factors Sustain Life on Earth
• One-way flow of high-quality energy:• Sun → plants → living things → environment as heat →
radiation to space
• Cycling of nutrients through parts of the biosphere
• Gravity holds earths atmosphere
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Sun, Earth, Life, and Climate
• Sun: UV, visible, and IR energy
• Radiation • Absorbed by ozone and other atmosphere gases• Absorbed by the earth• Reflected by the earth• Radiated by the atmosphere as heat
• Natural greenhouse effect
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Flow of Energy to and from the Earth
Fig. 3-4, p. 57
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3-2 What Are the Major Components of an Ecosystem?
• Concept 3-2 Some organisms produce the nutrients they need, others get their nutrients by consuming other organisms, and some recycle nutrients back to producers by decomposing the wastes and remains of organisms.
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Ecologists Study Interactions in Nature• Ecology: how organisms interact with each other and
their nonliving environment• Organisms• Populations• Communities• Ecosystems• Biosphere
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Smallest unit of a chemical element that exhibits its chemical properties
Atom
Molecule Chemical combination of two or more atoms of the same or different elements
CellThe fundamental structural and functional unit of life
Organism An individual living being
Population A group of individuals of the same species living in a particular place
Community Populations of different species living in a particular place, and potentially interacting with each other
Stepped Art
Ecosystem A community of different species interacting with one another and with their nonliving environment of matter and energy
Biosphere Parts of the earth's air,water, and soil where life is found
OxygenHydrogen
Water
Fig. 3-5, p. 58
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Ecosystems Have Living and Nonliving Components
• Abiotic• Water• Air• Nutrients• Rocks• Heat• Solar energy
• Biotic• Living and once living
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Major Biotic and Abiotic Components of an Ecosystem
Fig. 3-6, p. 59
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Producers and Consumers Are the Living Components of Ecosystems (1)
• Producers, autotrophs• Photosynthesis:• CO2 + H2O + sunlight → glucose + oxygen
• Chemosynthesis
• Consumers, heterotrophs• Primary consumers = herbivores• Secondary consumers• Tertiary consumers• Carnivores, Omnivores
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Producers
Fig. 3-7a, p. 59
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Consumers
Fig. 3-8a, p. 60
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Producers and Consumers Are the Living Components of Ecosystems (2)
• Decomposers• Consumers that release nutrients• Bacteria• Fungi
• Detritivores• Feed on dead bodies of other organisms• Earthworms• Vultures
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Decomposer
Fig. 3-9a, p. 61
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Detritivores and Decomposers
Fig. 3-10, p. 61
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Producers and Consumers Are the Living Components of Ecosystems (3)
• Aerobic respiration• Using oxygen to turn glucose back to carbon dioxide
and water
• Anaerobic respiration = fermentation• End products are carbon compounds such as methane
or acetic acid
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Energy Flow and Nutrient Cycling
• One-way energy flow from sun
• Nutrient cycling of key materials
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Ecosystem Components
Fig. 3-11, p. 62
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3-3 What Happens to Energy in an Ecosystem?
• Concept 3-3 As energy flows through ecosystems in food chains and webs, the amount of chemical energy available to organisms at each succeeding feeding level decreases.
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Energy Flows Through Ecosystems in Food Chains and Food Webs
• Food chain• Movement of energy and nutrients from one trophic
level to the next• Photosynthesis → feeding → decomposition
• Food web• Network of interconnected food chains
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A Food Chain
Fig. 3-12, p. 63
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A Food Web
Fig. 3-13, p. 64
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Usable Energy Decreases with Each Link in a Food Chain or Web
• Biomass• Dry weight of all organic matter of a given trophic
level in a food chain or food web• Decreases at each higher trophic level due to heat
loss
• Pyramid of energy flow• 90% of energy lost with each transfer• Less chemical energy for higher trophic levels
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10
Heat
Tertiaryconsumers(human)
Usable energy availableat each trophic level
(in kilocalories)
Heat
Secondaryconsumers(perch)
100
HeatDecomposersHeat
Primaryconsumers(zooplankton)
1,000
Heat
Producers(phytoplankton)
10,000
Stepped Art
Fig. 3-14, p. 65
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Some Ecosystems Produce Plant Matter Faster Than Others Do
• Gross primary productivity (GPP)• Rate at which an ecosystem’s producers convert solar
energy to chemical energy and biomass• Kcal/m2/year
• Net primary productivity (NPP)• Rate at which an ecosystem’s producers convert solar
energy to chemical energy, minus the rate at which producers use energy for aerobic respiration
• Ecosystems and life zones differ in their NPP
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Estimated Annual Average NPP in Major Life Zones and Ecosystems
Fig. 3-15, p. 66
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3-4 What Happens to Matter in an Ecosystem?
• Concept 3-4 Matter, in the form of nutrients, cycles within and among ecosystems and the biosphere, and human activities are altering these chemical cycles.
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Nutrients Cycle in the Biosphere
• Biogeochemical cycles, nutrient cycles• Hydrologic• Carbon• Nitrogen• Phosphorus• Sulfur
• Nutrients may remain in a reservoir for a period of time
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Water Cycles through the Biosphere• Natural renewal of water quality: three major processes
• Evaporation• Precipitation• Transpiration
• Alteration of the hydrologic cycle by humans• Withdrawal of large amounts of freshwater at rates faster than
nature can replace it• Clearing vegetation• Increased flooding when wetlands are drained
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Hydrologic Cycle Including Harmful Impacts of Human Activities
Fig. 3-16, p. 67
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Glaciers Store Water
Fig. 3-17, p. 68
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Water Erodes Rock in Antelope Canyon
Fig. 3-18, p. 69
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Science Focus: Water’s Unique Properties
• Properties of water due to hydrogen bonds between water molecules:• Exists as a liquid over a large range of temperature• Changes temperature slowly• High boiling point: 100˚C• Adhesion and cohesion• Expands as it freezes • Solvent• Filters out harmful UV
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Hydrogen Bonds in Water
Supplement 4, Fig 6
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Carbon Cycle Depends on Photosynthesis and Respiration
• Link between photosynthesis in producers and respiration in producers, consumers, and decomposers
• Additional CO2 added to the atmosphere• Tree clearing• Burning of fossil fuels• Warms the atmosphere
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Natural Capital: Carbon Cycle with Major Harmful Impacts of Human Activities
Fig. 3-19, p. 70
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Increase in Atmospheric Carbon Dioxide, 1960-2009
Supplement 9, Fig 14
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Nitrogen Cycles through the Biosphere: Bacteria in Action (1)
• Nitrogen fixed by lightning• Nitrogen fixed by bacteria and cyanobacteria• Combine gaseous nitrogen with hydrogen to make
ammonia (NH3) and ammonium ions (NH4+)
• Nitrification • Soil bacteria change ammonia and ammonium ions to
nitrate ions (NO3-)
• Denitrification• Nitrate ions back to nitrogen gas
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Nitrogen Cycles through the Biosphere: Bacteria in Action (2)
• Human intervention in the nitrogen cycle1. Additional NO and N2O in atmosphere from burning
fossil fuels; also causes acid rain2. N2O to atmosphere from bacteria acting on
fertilizers and manure3. Destruction of forest, grasslands, and wetlands4. Add excess nitrates to bodies of water5. Remove nitrogen from topsoil
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Nitrogen Cycle in a Terrestrial Ecosystem with Major Harmful Human Impacts
Fig. 3-20, p. 71
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Human Input of Nitrogen into the Environment
Supplement 9, Fig 16
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Phosphorus Cycles through the Biosphere
• Cycles through water, the earth’s crust, and living organisms
• Limiting factor for plant growth
• Impact of human activities1. Clearing forests2. Removing large amounts of phosphate from the
earth to make fertilizers3. Erosion leaches phosphates into streams
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Phosphorus Cycle with Major Harmful Human Impacts
Fig. 3-21, p. 73
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Sulfur Cycles through the Biosphere• Sulfur found in organisms, ocean sediments, soil, rocks, and
fossil fuels
• SO2 in the atmosphere
• H2SO4 and SO4-
• Human activities affect the sulfur cycle• Burn sulfur-containing coal and oil• Refine sulfur-containing petroleum• Convert sulfur-containing metallic mineral ores
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Natural Capital: Sulfur Cycle with Major Harmful Impacts of Human Activities
Fig. 3-22, p. 74
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3-5 How Do Scientists Study Ecosystems?
• Concept 3-5 Scientists use both field research and laboratory research, as well as mathematical and other models to learn about ecosystems.
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Some Scientists Study Nature Directly• Field research: “muddy-boots biology”
• New technologies available• Remote sensors• Geographic information system (GIS) software• Digital satellite imaging
• 2005, Global Earth Observation System of Systems (GEOSS)
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Science Focus: Satellites, Google Earth, and the Environment
• Satellites as remote sensing devices• Google Earth software allows you to view anywhere
on earth, including 3-D• Satellites can collect data from anywhere in the
world
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Google Earth Images: Jeddah, Saudi Arabia
Fig. 3-A (3), p. 76
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Some Scientists Study Ecosystems in the Laboratory
• Simplified systems carried out in• Culture tubes and bottles• Aquaria tanks• Greenhouses• Indoor and outdoor chambers
• Supported by field research
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Some Scientists Use Models to Simulate Ecosystems
• Mathematical and other models
• Computer simulations and projections
• Field and laboratory research needed for baseline data
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We Need to Learn More about the Health of the World’s Ecosystems
• Determine condition of the world’s ecosystems
• More baseline data needed
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Three Big Ideas
1. Life is sustained by the flow of energy from the sun through the biosphere, the cycling of nutrients within the biosphere, and gravity.
2. Some organisms produce the nutrients they need, others survive by consuming other organisms, and some recycle nutrients back to producer organisms.
3. Human activities are altering the flow of energy through food chains and webs and the cycling of nutrients within ecosystems and the biosphere.