Energy, Ecosystems, and Nutrient Cycles Chapters 2-4 and 3
Energy
Energy: the capacity to do ______ or transfer ______
Types:
• Kinetic energy – energy of motion. e.g., a moving automobile,
• Potential energy – stored energy. e.g., a stretched rubber band, water stored behind a dam.
Electromagnetic Radiation The wavelength varies ______________with both frequency and energy. Shorter wavelengths have a __________ frequency and _______energy content than longer wavelengths.
Increasing Frequency and Increasing Energy
Increasing Wavelength
Energy Quality
Energy quality is a measure of how useful an energy source is. High-quality energy is organized or concentrated. Low-quality energy is disorganized or dispersed. Example: ________
Energy Laws First Law of Thermodynamics: energy is ______________________ __________, but may be converted from one form to another. (AKA Law of Conservation of Energy) • Implies that in energy flows in
systems can be followed • also stated, "you can't get something
for nothing", in terms of energy quantity.
• Einstein showed energy & matter can be interconverted; E = mc2, but this is not applicable in Earth systems (but is applicable with regard to how the sun produces energy).
Energy Laws Second Law of Thermodynamics: when energy is converted from one form to another, some of the useful energy is always degraded to lower–quality, more dispersed energy. (Also can be stated: entropy _____________)
• entropy is a measure of ___________ • increased entropy means increased
randomness or dispersion; • degraded energy generally in form of
______
Discuss with your table partner: The flow of energy through a food chain forms an energy pyramid, with less available energy with each trophic level (step in the food chain).
o How is this consistent with the First Law of TD? o What happens to the total energy? o What happens to the entropy? o What happens to the overall energy quality?
Ecological efficiency: The percentage of usable energy transferred from one trophic level to the next. What is the ecological efficiency for each step the food chain shown below? ___________ The ecological efficiency can range from 2% to 40%, with 10% being the typical ecological efficiency.
Prokaryotic and Eukaryotic cells
Prokaryotic cells: Have ___________________organelles. Bacteria and Archaea are composed of prokaryotic cells. Eukaryotic cells: ___________________cells, containing membrane-bound organelles that each perform a specific function.
Figure 3-2
Parts of the earth's air, water, and soil where life is found
Biosphere
Smallest unit of a chemical element that exhibits its chemical properties
Ecosystem
Community
Population
Organism
A community of different species interacting with one another and with their nonliving environment of matter and energy Populations of different species living in a particular place, and potentially interacting with each other
A group of individuals of the same species living in a particular place
Cell
An individual living being
The fundamental structural and functional unit of life
Molecule
Atom
Chemical combination of two or more atoms of the same or different elements
Figure 3-3
Ecosystems Have Living and Nonliving Components
Abiotic: Nonliving components – Water – Air – Nutrients – Rocks – Heat – Solar energy
Biotic: _______________ _____________ (Ex: Leaf litter is biotic)
Abiotic Factors
Several Abiotic Factors Can Limit Population Growth
______________________Principle: Too much or too little of any abiotic factor can limit or prevent growth of a population, even if all other factors are at or near the optimal range of tolerance
Range of Tolerance for a Population of Organisms
INSERT FIGURE 3-10 HERE
Figure 3-10
Living Components of Ecosystems Producers, ________________ – Photosynthesis – Chemosynthesis
Consumers, _________________ – Primary – Secondary – Tertiary and higher levels… – Generally not more than 3 or 4 levels due to the
energy pyramid
Chemosynthesis o Uses the energy from certain
compounds such as hydrogen sulfide from _______________to provide the energy to produce carbohydrates.
o Performed by Bacteria and Archaea (________________).
o Occurs at __________________
Photosynthesis o Uses ____________ to provide
the energy required to produce carbohydrates from carbon dioxide and water.
6 CO2 + 6 H2O C6H12O6 + 6 O2
Photosynthesis vs. Chemosynthesis
Discuss with your table partner:
What do photosynthesis and chemosynthesis have in common? How do the two processes differ? Fill in your answers on the next slide.
____________________________________________________________________________________________________________________________________
Releasing Stored Energy All organisms store energy in sugars and other organic molecules. This energy is released as needed through either: -aerobic respiration (with oxygen) C6H12O6 + 6 O2 6 CO2 + 6 H2O - anaerobic respiration (without oxygen) also known as ___________________
Plants perform both photosynthesis and aerobic respiration.
Detritivores and Decomposers Detritivores: ____________________ dead organisms.
Decomposers: ________________to break down dead organisms. Recycle nutrients into the surrounding area.
___________________in an Ecosystem
Beetle larvae
Fig 3-11
file:///D:/Media/LITE/PowerPoint_Lectures/chapter3/videos_animations/matter_energy.html
Energy Flow Through the Ecosystem
Nutrient and Energy Flows Through the Ecosystem
Heat Heat
Heat
Heat Heat
Heat
Heat
Solar energy
Tertiary consumers
(top carnivores)
First Trophic Level
Second Trophic Level
Third Trophic Level
Fourth Trophic Level
Producers (plants)
Primary consumers (herbivores)
Secondary consumers (carnivores)
Decomposers and detritus feeders
___________ Level: A step in a food chain
____________ flow of energy in an ecosystem.
Living Components of Ecosystems
Gross Primary Productivity (GPP) Gross Primary Productivity is the rate at which
producers _____________________(for almost all producers) into _________________.
Usually measured in a unit of energy per unit of area over a given time span.
Example : kcal/m2/year
Some of the gross primary productivity is needed to support the producer and is not passed along the food chain.
Net Primary Productivity Net Primary Productivity (NPP) is the amount
of chemical energy available after the __________ requirements of the __________ have been _________________.
Discuss with your table partner: What could you measure to determine the NPP of an ecosystem? (Hint: Productivity = rate of photosynthesis)
Estuaries and swamps generally have a high net primary productivity. Why?
Why is the NPP compared for different ecosystems rather than the GPP?
By measuring the increase in _________________________________________or the decrease in the _______________________
__________________________________________________________________________________
NPP can be measured _______________________ ____________. GPP cannot __________________.
Estimated Annual Average NPP in Major Life Zones and Ecosystems
Figure 3-16
Nutrient Cycles Nutrient cycles (= biogeochemical cycles): natural processes that involve the flow of nutrients from the nonliving environment (air, water, soil, rock) to living organisms (biota) & back again.
Fig. 4–6
Nutrient cycles involve one–way flow of high–quality energy from the sun through the environment & recycling of crucial elements.
Major Locations (Reservoirs) of Nutrients hydrologic – involving flows through the hydrosphere, in the form
of liquid water, compounds dissolved in water, & sediments carried by water.
atmospheric – involving flows through the atmosphere, as gases or airborne particles (particulates).
sedimentary (lithospheric)– involving flows through the lithosphere (Earth's crust = soil & rock), as solid minerals.
Water Cycle Main Processes: evaporation: conversion from liquid to vapor form (surface to
atmosphere). _________________: evaporation from leaves of water
extracted from soil by roots & transported through the plant (surface to atmosphere).
transportation in atmosphere: transport as vapor. condensation: conversion of vapor to liquid droplets (clouds). precipitation: movement as rain, sleet, hail, & snow
(atmosphere to surface). infiltration: movement _____________ soil. percolation: downward flow ______________ soil to aquifers. flow in aquifers: below ground flow of water. _____________: surface flow downslope to ocean.
Review with your table partner: What are the similarities and differences between evaporation and transpiration? Put the following terms in the correct order that they would occur: Percolation, Precipitation, Infiltration.
Discuss with your table partner: How might deforestation of a tropical rainforest affect the rainfall in a region? (What process would be changed and how could this affect rainfall)
Water Cycle Role of Water:
terrestrial ecosystems – major factor determining _____________ ________________________
aquatic ecosystems – literally __________ that surrounds & serves as environment of aquatic organisms
flows of water are major means material & __________ transport water is critical for human activities – agriculture, industry, &
municipal use Human Influences: _____________ large quantities of fresh water – water diversion,
groundwater depletion, wetland drainage
clear ________________ – increase runoff, decrease infiltration & groundwater recharge, increase flooding & soil erosion
modify water __________ – add nutrients (P, N…) and/or pollutants
Carbon Cycle Role of Carbon:
building block of ________________ (carbohydrates, fats, proteins, & nucleic acid) – essential to life
currency of __________________ – chemical energy for life stored as bonds in organic compounds
carbon dioxide (CO2) is a _____________________– traps heat near Earth's surface & plays a key role as "nature's thermostat“
Carbon Cycle Processes
photosynthesis ( = carbon ___________) moves C from ______________ to ________________________ (C,H,O compounds) in organisms;
movement through food web: C movement in organic form from organism to _______________;
movement between oceans and atmosphere: uptake and release from oceans
aerobic respiration: organic molecules broken down to release _________ back to atmosphere;
Carbon Cycle Processes Cont. movement to sediments and rock: C forms CaCO3 through biological processes (______ __________ in plankton and larger marine organisms); enters sediments after organisms die; and eventually becomes rock (______________). Fossil fuel formation: organic molecules are buried, compressed, and heated to form ________________ (oil, natural gas), and elemental carbon (coal) combustion: organic molecules broken down by _____________ to release CO2 back to atmosphere;
Limestone
Carbon Cycle • Photosynthesis, Respiration, and decay happen in both land and ocean
ecosystems • Plants perform both photosynthesis and _______________ • Combustion inputs to the atmosphere include burning of fossil fuels,
_______________ (not shown), and _______________ (not shown).
(Photosynthesis)
Rock formation
Fossil fuel formation
(Combustion)
Review with your table partner:
What are two ways that humans are shifting the carbon cycle to increase the amount of carbon found in the atmosphere (CO2) rather than stored in organic (carbon-containing) molecules?
Human Influences to Carbon Cycle:
Nitrogen Cycle • Nitrogen (N2) is the most common gas
in the atmosphere (78%). • However, most organisms cannot
utilize N2 (don’t have the enzymes to break the triple bond)
• Nitrogen is needed by all living things. N is part of _________ and protein.
• ___________ Nutrient in many ecosystems: typically addition of N in fertilizers leads to increased productivity
Nitrogen Cycle Processes
nitrogen _____________: conversion of N2 (nitrogen gas) to NH4
+ (ammonium),
Performed by bacteria & blue-green algae (anaerobic),
e.g., Rhizobium in nodules on roots of legumes;
N2 is also fixed by lightning
nitrification: conversion of NH4+ to NO2
- (nitrite) and to NO3
-(nitrate) by _____________; (Oxidation process)
___________ of NO3 by plants, forms proteins and other N containing organic compounds, enters ______________;
Nitrogen Cycle Processes Cont. ammonification: decomposers return nitrate to Ammonium (NH4
+) by saprophytes and ________________ denitrification: conversion of NH4
+ to N2 by combustion or microbes. Conversion of NOx to N2 by bacteria (reduction process)
Nitrogen Cycle
Fig. 5–6
Review with your table partner: Name a form of nitrogen that can’t be used by most organisms. Name a form of nitrogen that can be used by most organisms. Why do legume plants (bean family) have an advantage in getting enough of the usable nitrogen compounds they need? Continue to next slide
What three types of bacteria are involved in the nitrogen cycle? Which are involved in producing usable nitrogen compounds and which are involved in cycling nitrogen compounds back to the atmosphere?
________________________- produce usable ammonium compounds (in soil or legume nodules)
____________________-produce usable nitrate compounds
_____________________-cycle nitrogen back to the atmosphere (N2)
Inorganic Fertilizers
During WWII, Fritz Haber developed process to convert atmospheric nitrogen into ammonia to make inorganic nitrate __________________.
(Process happens at high temperatures, which
consumes a lot of ________.) Revolutionized farming: increasing yields. Part of the
_______________________
http://www.youtube.com/watch?v=tdEE5uvFhOM
Human Influences on the Nitrogen Cycle • emit nitric oxide (NO), which
leads to ______________ and acid rain;
• emit nitrous oxide into the atmosphere – nitrous oxide (N2O) is a potent greenhouse gas & also depletes _______ in stratosphere
• Use of nitrogen fertilizers which leads to ___________ of water bodies
Beijing
• Can be limiting factor for growth • No ____________ component of cycle
Phosphorous Cycle
• Occurs in the form PO4)
• Released from rocks by ___________ (slow process)
• Needed by all living things for:
_____, ______, Phospholipids
_________ large quantities for fertilizers and detergents Cutting down __________ reduces available phosphate Add excess phosphate to aquatic systems from ____________ feedlots, runoff from farmland, and sewage discharges
Human Influences of Phosphorous Cycle:
Definition:
Process: End Result:
Addition of excess ____________ (usually phosphorous or nitrogen to a water body due to ____________________________
- Nutrients cause an overgrowth of _______. - Algae block light and start to die. - _________________ use up oxygen as they break down dead algae. (Note it is the decomposition that uses up oxygen- algae themselves are photosynthetic.)
Low oxygen levels can kill fish _________ = low oxygen _______ = no oxygen
Eutrophication
Sulfur Cycle
• Sulfur compounds are found in rocks, soil and fossil fuels (esp. ________) • Sulfur is required by all living things (2 amino acids contain sulfur) • Sulfur is found in the ______________ as sulfur dioxide (SO2) and sulfuric
acid (H2SO4)
Sulfur Cycle Human Influences: • Fossil fuel burning
(especially coal) • ____________ (refining of
metal ores)—releases SOx to atmosphere
• Sulfur compounds in the atmosphere cause ______ ______
Smelting
Coal Plant
Acid Rain Damage