KETAHANAN EKO- SISTEM Aliran Energi
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KETAHANAN
EKO-SISTEM
Aliran Energi
smno.psdl-ppsub.2013
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ECOSYSTEM ENERGY FLOW
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Apa Ekosistem?
• System = regularly interacting and interdependent components forming a unified whole
• Ecosystem = an ecological system;
= a community and its physical environment treated together as a functional system
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THE RULES OF ECOLOGY
F. A. BAZZAZ:
1. Everything is connected to everything else.
2. Everything must go somewhere 3. There is no such thing as a free
lunch.
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H. T. Odum:
To understand any system you must understand the next
larger system.
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Attributes of Ecosystems
• Order• Development• Metabolism (energy flow)• Material cycles• Response to the environment• Porous boundaries• Emphasis on function, not
species
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ENERGY FLOW IN ECOSYSTEMS
• All organisms require energy,
for growth, maintenance, reproduction, locomotion, etc.
• Hence, for all organisms there must be:
A source of energy
A loss of usable energy
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Types of energy
• Heat energy
• Mechanical energy (+gravitational energy, etc.)
• Chemical energy = energy stored in molecular bonds
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Transformations of energy
• How is solar energy converted to chemical energy?
• How does this process influence life as we see it on earth?
• The transformations of energy from solar radiation to chemical energy and mechanical energy and finally back to heat are a traditional topic of Ecosystem Ecology.
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An ecosystem has abiotic and biotic components:
Komponen ABIOTIK:
• Solar energy provides practically all the energy for ecosystems.
• Inorganic substances, e.g., sulfur, boron, tend to cycle through ecosystems.
• Organic compounds, such as proteins, carbohydrates, lipids, and other complex molecules, form a link between biotic and abiotic components of the system.
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Komponen BIOTIK:
• The biotic components of an ecosystem can be classified according to their mode of energy acquisition.
• In this type of classification, there are:
Autotrophsand
Heterotrophs
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Autotrophs• Autotrophs (=self-
nourishing) are called primary producers.
• Photoautotrophs fix energy from the sun and store it in complex organic compounds
• (= green plants, algae, some bacteria)
photoautotrophs
simpleinorganic
compounds
complexorganic
compounds
light
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• Chemoautotrophs (chemosynthesizers) are bacteria
• that oxidize reduced inorganic substances
• (typically sulfur and ammonia compounds)
• and produce complex organic compounds.
chemoautotrophs
reducedinorganic
compounds
complexorganic
compounds
oxygen
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Heterotrophs• Heterotrophs (=other-
nourishing) cannot produce their own food directly from sunlight+ inorganic compounds. They require energy previously stored in complex molecules.
heterotrophsSenyawa
an-organik
Senyawa Organik
(this may include several steps, with
several different types of organisms)
Panas / Kalor
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Heterotrophs can be grouped as:ConsumersDecomposers
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1. Consumers feed on organisms or particulate organic matter.
2. Decomposers utilize complex compounds in dead protoplasm.
3. Bacteria and fungi are the main groups of decomposers.
4. Bacteria are the main feeders on animal material.
5. Fungi feed primarily on plants, although bacteria also are important in some plant decomposition processes.
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Hukum Termodinamika
Energy flow is a one-directional process. sun---> heat (longer wavelengths)
Hukum Termodinamika Pertama:
Energy can be converted from one form to another, but cannot be created or
destroyed.
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HUKU TERMODINAMIKA KE-2
• Transformations of energy always result in some loss or dissipation of energy
or• In energy exchanges in a closed system, the
potential energy of the final state will be less than that of the initial state
or• Entropy tends to increase (entropy = amount of
unavailable energy in a system)
or• Systems will tend to go from ordered states to
disordered states (to maintain order, energy must be added to the system, to compensate for the loss of energy)
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Examples• Internal combustion engines in
cars are 25% efficient in converting chemical energy to kinetic energy; the rest is not used or is lost as heat.
• My house, particularly my girls' rooms, goes from a complex, ordered state to a simpler, disordered state.
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Simplistically:
• This pattern of energy flow among different organisms is the TROPHIC STRUCTURE of an ecosystem.
heat
Producers Consumers
Decomposers
heat
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ALIRAN ENERGI
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• It is useful to distinguish different types of organisms within these major groups, particularly within the consumer group.
Consumers
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ALIRAN ENERGI
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Terminology of trophic levels
1. We can further separate the TROPHIC LEVELS, particularly the Consumers:
2. Producers (Plants, algae, cyanobacteria; some chemotrophs)--capture energy, produce complex organic compounds
3. Primary consumers--feed on producers
4. Secondary consumers--feed on primary consumers
5. Tertiary consumers--feed on secondary consumers
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Trophic levels:
• Detritivores--invertebrates that feed on organic wastes and dead organisms (detritus) from all trophic levels
• Decomposers--bacteria and fungi that break down dead material into inorganic materials
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Alternate Terminology
• Producers = plants etc. that capture energy from the sun
• Herbivores = plant-eaters• Carnivores = animal-eaters
• Omnivores--eat both animals and plants
• Specialized herbivores:• Granivores--seed-eaters• Frugivores--fruit-eaters
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• Together, these groups make up a FOOD CHAIN
• E.g., grass, rabbit, eagle
Carnivore
Herbivore Producer
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Carnivores• Carnivores can be further divided into groups:• quaternary carnivore (top)• tertiary carnivore• secondary carnivore• primary carnivore
• The last carnivore in a chain, which is not usually eaten by any other carnivore, is often referred to as the top carnivore.
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Rarely are things as simple as grass, rabbit, hawk, or indeed any simple
linear sequence of organisms.
More typically, there are multiple interactions, so that we end up with
a FOOD WEB.
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JARING-JARING MAKANAN
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ENERGY TRANSFERS AMONG TROPHIC LEVELS
• How much energy is passed from one trophic level to the next?
• How efficient are such transfers?
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Biomass--the dry mass of organic material in the organism(s).
(the mass of water is not usually included, since water content is variable and contains no usable
energy)
Standing crop--the amount of biomass present at any point in
time.
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Biomasa
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Produktivitas Primer• Primary productivity is the rate of energy
capture by producers.• = the amount of new biomass of
producers, per unit time and space
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• Gross primary production (GPP)= total amount of energy captured
• Net primary production (NPP) = GPP - respiration
• Net primary production is thus the amount of energy stored by the producers and potentially available to consumers and decomposers.
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Produktivitas Primer
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Secondary productivity is the rate of production of new biomass by consumers, i.e., the rate at which consumers convert
organic material into new biomass of consumers.
Note that secondary production simply involves the repackaging of energy
previously captured by producers--no additional energy is introduced into the
food chain.And, since there are multiple levels of consumers and no new energy is being
captured and introduced into the system, the modifiers gross and net are not very
appropriate and are not usually used.
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Produktivitas Sekunder
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Ecological pyramids• The standing crop, productivity,
number of organisms, etc. of an ecosystem can be conveniently depicted using “pyramids”, where the size of each compartment represents the amount of the item in each trophic level of a food chain.
• Note that the complexities of the interactions in a food web are not shown in a pyramid; but, pyramids are often useful conceptual devices--they give one a sense of the overall form of the trophic structure of an ecosystem.
producers
herbivores
carnivores
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Pyramid of energy• A pyramid of energy
depicts the energy flow, or productivity, of each trophic level.
• Due to the Laws of Thermodynamics, each higher level must be smaller than lower levels, due to loss of some energy as heat (via respiration) within each level.
producers
herbivores
carnivores
Energy flow in :
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Pyramid of numbers• A pyramid of numbers
indicates the number of individuals in each trophic level.
• • Since the size of individuals may vary
widely and may not indicate the productivity of that individual, pyramids of numbers say little or nothing about the amount of energy moving through the ecosystem.
# of producers
# of herbivores
# of carnivores
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Pyramid of standing crop
• A pyramid of standing crop indicates how much biomass is present in each trophic level at any one time.
• As for pyramids of numbers, a pyramid of standing crop may not well reflect the flow of energy through the system, due to different sizes and growth rates of organisms.
biomass of producers
biomass of herbivores
biomass of carnivores
(at one point in time)
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Inverted pyramids
• A pyramid of standing crop (or of numbers) may be inverted, i.e., a higher trophic level may have a larger standing crop than a lower trophic level.
• This can occur if the lower trophic level has a high rate of turnover of small individuals (and high rate of productivity), such that the First and Second Laws of Thermodynamics are not violated.
biomass of producers
biomass of herbivores
biomass of carnivores
(at one point in time)
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Pyramid of yearly biomass production
• If the biomass produced by a trophic level is summed over a year (or the appropriate complete cycle period), then the pyramid of total biomass produced must resemble the pyramid of energy flow, since biomass can be equated to energy.
producers
herbivores
carnivores
Yearly biomass production(or energy flow) of:
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Note that pyramids of energy and yearly biomass production can never be
inverted, since this would violate the laws of thermodynamics.
Pyramids of standing crop and numbers can be inverted, since the amount of
organisms at any one time does not indicate the amount of energy flowing
through the system.
E.g., consider the amount of food you eat in a year compared to the amount on hand
in your pantry.
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Aliran energi dalam
agroekosistem sawah