Natural and artificial ecosystems

Ecosystems are one of the key concepts of ecology, which is a system that includes several components: a community of animals, plants and microorganisms, a characteristic habitat, a whole system of relationships through which the interchange of substances and energies is carried out.

In science, there are several classifications of ecosystems. One of them divides all known ecosystems into two large classes: natural, created by nature, and artificial, those created by man. Let's look at each of these classes in more detail.

natural ecosystems

As noted above, natural, natural ecosystems were formed as a result of the action of the forces of nature. They are characterized by:

• Close relationship between organic and inorganic substances
• A complete, vicious circle of the circulation of substances: starting from the appearance of organic matter and ending with its decay and decomposition into inorganic components.
• Resilience and ability to self-heal.

All natural ecosystems are defined by the following features:

• 1. species structure: the number of each species of animal or plant is regulated by natural conditions.
  2. Spatial structure: all organisms are arranged in a strict horizontal or vertical hierarchy. For example, in a forest ecosystem, tiers are clearly distinguished, in an aquatic ecosystem, the distribution of organisms depends on the depth of the water.
  3. Biotic and abiotic substances. The organisms that make up an ecosystem are divided into inorganic (abiotic: light, air, soil, wind, humidity, pressure) and organic (biotic - animals, plants).
  4. In turn, the biotic component is divided into producers, consumers and destroyers. Producers include plants and bacteria, which, with the help of sunlight and energy, create organic matter from inorganic substances. Consumers are animals and carnivorous plants that feed on this organic matter. Destroyers (fungi, bacteria, some microorganisms) are the crown of the food chain, as they produce the reverse process: organics are converted into inorganic substances.

The spatial boundaries of each natural ecosystem are very conditional. In science, it is customary to define these boundaries by the natural contours of the relief: for example, a swamp, lake, mountains, rivers. But in the aggregate, all the ecosystems that make up the bio-envelope of our planet are considered open, as they interact with the environment and space. In the most general view, the picture looks like this: living organisms receive energy, cosmic and terrestrial substances from the environment, and at the output - sedimentary rocks and gases, which eventually go into space.

All components of the natural ecosystem are closely interconnected. The principles of this connection are formed over the years, sometimes centuries. But that is why they become so stable, since these connections and climatic conditions determine the types of animals and plants that live in this area. Any imbalance in the natural ecosystem can lead to its disappearance or attenuation. Such a violation can be, for example, deforestation, extermination of a population of a particular species of animals. In this case, the food chain is immediately disrupted, and the ecosystem begins to "fail".

By the way, the introduction of additional elements into ecosystems can also disrupt it. For example, if a person starts breeding animals in the selected ecosystem that were not there initially. A vivid confirmation of this is the breeding of rabbits in Australia. At first it was profitable, because in such a fertile environment and excellent climatic conditions for breeding, rabbits began to multiply with incredible speed. But in the end it all came crashing down. Countless hordes of rabbits devastated pastures where sheep used to graze. The number of sheep began to decline. A person receives much more food from one sheep than from 10 rabbits. This case even entered the proverb: "Rabbits ate Australia." It took an incredible effort of scientists and great expenses before they managed to get rid of the rabbit population. It was not possible to completely exterminate their population in Australia, but their numbers declined and no longer threatened the ecosystem.

artificial ecosystems

Artificial ecosystems are communities of animals and plants that live in conditions created for them by man. They are also called noobiogeocenoses or socioecosystems. Examples: field, pasture, city, society, spaceship, zoo, garden, artificial pond, reservoir.

The simplest example of an artificial ecosystem is an aquarium. Here, the habitat is limited by the walls of the aquarium, the influx of energy, light and nutrients is carried out by man, he also regulates the temperature and composition of the water. The number of inhabitants is also initially determined.

First feature: all artificial ecosystems are heterotrophic, i.e. consuming prepared food. Take, for example, a city, one of the largest man-made ecosystems. The influx of artificially created energy (gas pipeline, electricity, food) plays a huge role here. At the same time, such ecosystems are characterized by a high yield of toxic substances. That is, those substances that in the natural ecosystem later serve for the production of organic matter often become unusable in artificial ones.

Another distinctive feature of artificial ecosystems is the open cycle of metabolism. Take, for example, agro-ecosystems - the most important for humans. These include fields, orchards, vegetable gardens, pastures, farms and other agricultural lands on which a person creates conditions for the removal of consumer products. A part of the food chain in such ecosystems is taken out by a person (in the form of a crop), and therefore the food chain becomes destroyed.

The third difference between artificial ecosystems and natural ones is their species scarcity.. Indeed, a person creates an ecosystem for the sake of breeding one (rarely several) species of plants or animals. For example, in a wheat field, all pests and weeds are destroyed, only wheat is cultivated. This makes it possible to get the best harvest. But at the same time, the destruction of organisms "unprofitable" for humans makes the ecosystem unstable.

Comparative characteristics of natural and artificial ecosystems

It is more convenient to present a comparison of natural ecosystems and socio-ecosystems in the form of a table: