An increase in sedimentation or a decrease in water levels would likely lead to terrestrial succession in a pond, as these changes can provide more favorable conditions for terrestrial plant growth. This would result in the gradual transformation of the pond into a terrestrial ecosystem.
The species that were kept in control by the predators start over populating and upset the balance of the ecosystem
some ansewer this sht
In a terrestrial ecosystem, wind and humidity are indeed considered abiotic factors, as they are non-living components that influence the environment. Wind affects temperature, moisture levels, and the dispersal of seeds and spores, while humidity impacts water availability and plant transpiration. On the other hand, mosses and rocks are biotic and abiotic factors, respectively; mosses are living organisms that contribute to biodiversity, while rocks provide physical structure and minerals essential for soil formation. Together, these factors interact to shape the ecosystem's dynamics.
If species disappeared from an ecosystem the balance in the ecosystem will be altered.
An increase in sedimentation or a decrease in water levels would likely lead to terrestrial succession in a pond, as these changes can provide more favorable conditions for terrestrial plant growth. This would result in the gradual transformation of the pond into a terrestrial ecosystem.
A polar bear would not be found in a deep ocean ecosystem. Polar bears are terrestrial animals that inhabit Arctic regions and are not adapted to survive in deep ocean environments.
A wetland ecosystem could be found in a park. It would consist of various plants like cattails and water lilies, along with animals such as frogs, turtles, and various bird species. The wetland would provide important habitat for both aquatic and terrestrial species.
The species that were kept in control by the predators start over populating and upset the balance of the ecosystem
The ultimate source of energy for terrestrial ecosystems is sunlight. Plants capture sunlight and convert it into chemical energy through photosynthesis, which is then passed on to consumers in the food chain. Without sunlight, photosynthesis cannot occur, and the ecosystem would not have the energy needed to sustain life.
some ansewer this sht
AnswerYes the ecosystem could survive without the Aye-aye (Daubentonia madagascarensis). It is not a keystone species. However, its loss would leave an open niche and weaken the ecosystems in which it lives.
In a terrestrial ecosystem, wind and humidity are indeed considered abiotic factors, as they are non-living components that influence the environment. Wind affects temperature, moisture levels, and the dispersal of seeds and spores, while humidity impacts water availability and plant transpiration. On the other hand, mosses and rocks are biotic and abiotic factors, respectively; mosses are living organisms that contribute to biodiversity, while rocks provide physical structure and minerals essential for soil formation. Together, these factors interact to shape the ecosystem's dynamics.
"Terra" is the Latin for land or earth. It would therefore follow that Earth is "terrestrial".
Yes. We are part of an ecosystem. Without an ecosystem we would, nothing would, be able to survive. Hope that answered your question for ya!!
If species disappeared from an ecosystem the balance in the ecosystem will be altered.
Three forest populations that would likely not survive in a pond ecosystem include deer, which rely on terrestrial vegetation for food, and birds like woodpeckers that depend on tree habitats for nesting and foraging. Additionally, many small mammals, such as squirrels, require trees for shelter and food sources, making them ill-suited for a primarily aquatic environment. These populations are adapted to specific forest conditions that a pond ecosystem cannot provide.