How does change to an ecosystem that results in succession benefit ecosystems?

How does change to an ecosystem that results in succession benefit ecosystems?

The correct answer is "succession contributes to the ecosystem's biodiversity." The term "ecological succession" refers to the slow process through which changes occur in an ecosystem, resulting in the evolution of the ecosystem. These changes can be seen as a progression from one type of community to another over time, usually due to the elimination of less-fit species or individuals within the population.

Ecological succession is important for biodiversity because it provides many different types of communities with a chance to evolve and replace each other over time. In areas where there is little human intervention, such as most forested lands, ecological succession leads to the development of new species over time. Areas subject to more frequent management, such as forests that are cut down and then regrown, may go through several successive stages during their development.

Succession benefits ecosystems by providing a way for them to renew themselves and evolve into new forms. Without this process, most terrestrial ecosystems would remain unchanged long after they have become stabilized, which would make them vulnerable to extinction due to climate change or other factors.

Ecosystems must undergo some form of succession to maintain their diversity. Old growth forests will only grow back if the trees that are killed by logging are replaced.

What would help restore the equilibrium of an ecosystem?

Expert Verified is the answer. Succession aids in the restoration of an ecosystem's balance by generating new species, diversifying species, and essentially replacing the injured, demented, or disturbed community. Successional management can be achieved through natural processes (successionary extinction), human intervention (assisted migration), or a combination of both (semi-natural selection).

When an organism dies, its resources are allocated to other organisms in its community. This means that death cleans out the weakest members of an ecosystem, leaving behind more resilient competitors to take their place. This process, called succession, creates a chain reaction that improves the overall health of the ecosystem over time. For example, when a tree falls in a forest and no one is around to hear it, it doesn't cause any damage. But if that same tree falls during high wind conditions, it could cause damage to nearby trees or even destroy them completely. The impact that this one tree had on the entire system was great, but because other similar trees stand in its place, the damage is limited.

Succession occurs whenever individuals within an ecosystem replace each other after they have died. This can happen due to natural causes (such as fire, disease, or storms) or because of human actions (such as logging or hunting). When this replacement happens quickly enough, it can have positive effects for humans too.

How does succession change a community?

The process of change in the species structure of an ecological community through time is known as ecological succession. The community begins with a small number of pioneering plants and animals and grows in complexity until it becomes stable or self-perpetuating as a climax community. Succession can also occur when human activity causes a previously viable ecosystem to become extinct, thereby making room for new species to move in.

Ecological succession is one example of how communities change over time due to natural selection. Natural selection is the evolutionary mechanism by which organisms with beneficial traits survive to reproduce, while those with detrimental traits are weeded out by other members of the community. As successive groups emerge from extinction and occupy different ecological roles, they experience different selective pressures that cause them to evolve distinct features. The overall effect of this evolution is that species within the community adapt to their surrounding environment.

One factor that influences what species succeed one another is the timing of their arrivals in a new area. If two species arrive at about the same time, then competition would be high and only the most competitive species would be able to survive. If one species arrives first, then it has some time to grow and compete against later arriving species. This form of succession is called primary successions and it creates conditions favorable for early arrivers because there are not yet enough resources for all competitors. As more late arrivers arrive, they have more chance of surviving since the pool of resources is limited.

How does the concept of ecological succession explain changes in an ecosystem?

It is a phenomena or process that occurs when an ecological community experiences more or less ordered and predictable changes as a result of a disturbance or the early colonization of a new environment. The term "succession" comes from the French word "succès," which means success, victory, or triumph.

Ecological succession can be either progressive or regressive. In progressive succession, the original species are replaced by similar species over time. For example, after a forest fire, seedlings from surviving trees replace the lost plants. In regressive succession, the original species is replaced by different species. For example, after heavy grazing, grasses grow back with thicker stems and fewer seeds than before the action of the animal. The outcome is generally the same - an area is restored to healthy vegetation. However, replacement of the original species with similar ones is only part of the story; what matters also is how long it takes for others to fill in the gap. If the interval between successive occurrences of a given species is short, then we say that the species is rapidly evolving into another state-or-status. For example, after a forest fire, some species may evolve to produce thickened bark that is resistant to heat, while other species may evolve to produce red berries that offer protection from birds who avoid eating these resistant fruits.

About Article Author

Bob Selvester

Bob Selvester works in nature conservation and stewardship, and has a deep interest in wildland fire management. Bob's life mission is to help protect ecosystems and their inhabitants so that people can live in harmony with nature.

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