Energy Flow in Ecosystem - Definition, Process, and Importance

Trophic Level and Food Chain

Trophic levels refer to the hierarchical stages in a food chain concerning various nutrition levels at which organisms transmit energy and nutrients. Producers will, therefore, be the lowest, while the top predators take the highest level.

Producers (Autotrophs)

These are organisms that make their food either from sunlight-photosynthesis- or chemical energy chemosynthesis. Producers are the base of the food chain.

Examples: Plants, algae, and some bacteria.

Primary Consumers (Herbivores)

Herbivores ingest producers and get their energy directly from plants or algae.

Examples: Rabbits, deer, and caterpillars.

Secondary Consumers (Carnivores or Omnivores)

These offer another level of consumers feeding on primary customers, thereby transferring their energy higher up through the food chain.

Examples: Lions—carnivores, humans—omnivores.

Tertiary Consumers

The next higher trophic level steps from the secondary consumer many are top predators.

Examples: Hawks, sharks.

Quaternary Consumers

Apex predators at the top of a food chain, preying on the tertiary consumers.

Examples: Orcas, large predators such as polar bears.

Decomposers (Detritivores)

Decomposers break down dead material and return nutrients to the system, which is important to keep an ecosystem fit and healthy.

Examples: Fungi, bacteria, earthworms.

Types of Food Chains in Ecosystems

Three main types of food chains are there for energy flow in ecosystems and its movement through different trophic levels:

Grazing Food Chain (GFC): This is the most common type of energy flow in food chains. It starts with plant producers, herbivores-primary consumers, carnivores-secondary consumers, and higher-level consumers. This kind of energy flow can be considered to follow the model set for ecosystems and often flows into representation in energy flow diagrams.

The Saprophytic or Detritus Food Chain: This is composed of dead organic matter, and therefore it constitutes the base, energy flows to the decomposers like fungi and bacteria and continues trophically. This kind of food chain type shows the role played by decomposers in the cycling of nutrients and energy dynamics in ecosystems.

Parasitic Food Chain (PFC): In this chain, the larger organisms whether producers or consumers, are exploited by the smaller organisms such as parasites. The energy flow goes from the host organism to the parasites as an altogether different interaction within the ecosystem.

Energy Pyramids

Energy pyramids refer to a graphical representation that shows the energy flow in ecosystems by depicting the amount of energy or matter that occurs at different trophic levels. This explains the energy dynamics and how it is converted in a step-down manner in the food chain.

Pyramid of Numbers

It represents the amount of organisms in each trophic level that exist in an ecosystem. It has a trend where one moves with decreasing numbers in higher levels. For example, given a grassland ecosystem, the number of producers is very high, like grasses, while the number of primary consumers, for example, rabbits, is lower.

The diagram represents the pyramid of the number

Pyramid of Biomass

The biomass pyramid represents the total mass of living organisms at each trophic level at a given time. Biomass usually decreases as energy moves up the levels due to the law of thermodynamics.

Laws of Thermodynamics in Ecosystems

The laws of thermodynamics provide a fundamental framework for understanding energy flow and transformation in ecosystems.

First Law of Thermodynamics (Conservation of Energy)

Energy cannot be created or destroyed but only changed from one form to another. In ecosystems, this is manifest as solar energy is converted into chemical energy in the process of photosynthesis. That chemical energy afterwards moves through different trophic levels by consumption.

For example, plants convert sunlight into glucose. Herbivores consume plants and in turn, convert that energy into kinetic energy for locomotion and metabolic processes. Conversely, carnivores attain food through consuming herbivores.

Second Law of Thermodynamics (Entropy)

The second law deals with energy flow, in that the transfer of energy increases the disorder, hence increasing the entropy of a system, and there is always some energy lost as heat in any such transfer. In the case of ecosystems, this is observed in the flow of energy upwards through trophic levels, where only about 10% of the energy is transferred to the next level and the rest is lost, mainly as heat produced during respiration and metabolic activities.

It's because of this loss of energy as heat that energy pyramids generally show a decrease in available energy moving up the trophic levels. This, in turn, limits just how many higher-level consumers an ecosystem can support.

Energy Transfer Efficiency

It is an important function of energy flow in ecosystems that affects the energy dynamics and structure in an ecosystem. It describes how energy flows through the trophic levels and influences the overall functioning of an ecosystem.

The 10% rule simply means that only about 10% of the energy is transferred from one trophic level to the next. For example, primary consumers obtain only 10% of the energy stored by producers, and secondary consumers receive just 10% of the energy from primary consumers. This low transfer efficiency, depicted in energy flow diagrams, limits the number of trophic levels an ecosystem can support, making it a basic notion in explaining food chain energy flow and energy flow models of ecosystems.

Most of the energy that is lost occurs during respiration, growth, and reproduction. This energy is in the form of heat and is emitted into the surroundings. This loss of energy at each trophic level, in turn, decreases the energy available at each successive trophic level. In this way also, it satisfies the law of thermodynamics.

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