Food chain: trophic level and energy flow

protection click fraud

Food chain is a sequence of living beings in which one serves as food for another. On this route, the energy and matter of food are transferred from one level to another. Each living being is essential to the food chain, and the elimination of one of these organisms in the ecosystem can lead to environmental imbalance, affecting the entire chain.

Trophic levels of the food chain

In food chains, we observe the feeding relationship between different living beings in an ecosystem. The position each living being occupies in this chain is called trophic level. Producers, consumers and decomposers are the different trophic levels observed in this scheme.

Each organism occupies a different position, according to its eating habits, in the food chain.
Each organism occupies a different position, according to its eating habits, in the food chain.
  • Producers

You producer bodies are the first trophic level observed in a food chain. Organisms at this level are classified as autotrophic, that is, they are living beings capable of producing their own food, and it is not necessary to feed on another living being. At plants and seaweed are organisms classified as producers.

instagram story viewer

know more: Photosynthesis: energy capture and transformation process carried out by producing organisms

  • Consumers

You consumers, as the name implies, they are living beings that feed on other living beings to get the energy and nutrients necessary for their survival. Consumer bodies are therefore heterotrophs.

Consumer bodies can be further classified into primary, secondary, tertiary, quaternary and so on. However, it is important to note that the chains tend not to be very large, with five or fewer links being generally observed. Among the hypotheses that explain why the chains do not extend far is the energetic hypothesis, which suggests that size is limited due to low energy transfer efficiency.

Do not stop now... There's more after the advertising ;)

Primary consumers are those who feed on the producer. In the above scheme, the primary consumer is the grasshopper. The organism that feeds on the primary consumer is called the secondary consumer. In the example, this is the frog. The tertiary consumer is the one who feeds on the secondary, as is the case of the snake feeding on the frog. If, in the example, some organism was feeding on the tertiary consumer, this would be called the quaternary consumer, and so on.

  • Decomposers

Note that decomposers act, at all the trophic levels mentioned, by decomposing organic matter.
Note that decomposers act, at all the trophic levels mentioned, by decomposing organic matter.

You decomposers are organisms that participate in the food chain carrying out the decomposition of organic matter, and act on all trophic levels. Like consumers, decomposers are heterotrophs. Examples of decomposing organisms are the fungiand the bacteria.

Know more: garbage decomposition time

Energy flow in the food chain

Most of the energy that enters an ecosystem comes from the solar radiation. The producer organizations that carry out photosynthesis absorb solar energy and fix it in chemical energy. When consumers feed from producers, part of this energy goes to these organisms, which, when serving as food for other living beings, also pass part of the energy to them. This, therefore, flows, in a unidirectional sense, passing from a lower level to a higher one.

THE each level, however, there is a loss of some energy. Plants, for example, transform solar energy into chemical, but use part of this initial energy for the breathing process. So only part of it will be available to the next level, which is one of the reasons food chains don't stretch very far.

food chain and web

When we talk about food chains, we are referring to a sequence of living beings that serve as food for others. THEWeb, in turn, is the connectionof food chains. Webs are a better way to understand the functioning of an ecosystem, since an organism, in most cases, does not have just one type of prey.

Another important point to be highlighted is that, when analyzing a food chain, we find that a living being occupies only a specific trophic level. In the food web, in turn, the same organism can occupy different levels. The animals omnivores, for example, when feeding on vegetables, they are classified as primary consumers and, when feeding on herbivores, as secondary consumers. If you are more interested in the subject, read our text: food chain and web.

In food webs we observe several interconnected food chains.
In food webs we observe several interconnected food chains.

Know more:What is a food chain?

How the introduction and extinction of species affect the food chain

Food chains show the food relationships that exist in a given ecosystem. When a new species is added to this location, it can cause imbalances in the environment. If it does not find food available in that region, it can quickly die and be eliminated. If it finds it, it can trigger the competition with another living being, which is detrimental to the balance of the ecosystem.

This new introduced species may also have no natural predators and multiply excessively, if the environment is favorable, which can lead to a drastic reduction of their prey. Therefore, we found that the introduction of a new species can negatively affect feeding relationships in that location.

Another known situation is the extinction of a species. Let's imagine, for example, a simple food chain involving a plant, a rodent, a snake and a hawk. If the snake is eliminated from the environment, the hawk will be without food. On the other hand, the rodent can multiply excessively, due to the lack of predators, which can cause the reduction of plants in the place. Over time, the reduction in the number of plants will also impact the rodent, which will run out of food. We can see, therefore, that each living being is essential for the balance of the ecosystem.

Read too: Endangered species

By Ma. Vanessa Sardinha dos Santos

Teachs.ru
Simple Diffusion: definition, examples and differences

Simple Diffusion: definition, examples and differences

Simple diffusion is a type of passive transport of substances across the cell membrane.It is a pr...

read more
Sodium and Potassium Pump: what it is, how it works and active transport

Sodium and Potassium Pump: what it is, how it works and active transport

The sodium and potassium pump is a type of active transport that takes place in every cell in the...

read more
What is Sperm?

What is Sperm?

The human sperm is the male sex gamete or the male reproductive cell. They are small cells, mobil...

read more
instagram viewer