Pollutants often bioaccumulate in organisms at lower trophic levels, but they can also become diluted as they move up the food chain. While some pollutants, particularly persistent organic pollutants, can biomagnify and increase in concentration at higher trophic levels, this is not the case for all pollutants. Additionally, energy transfer between trophic levels is inefficient, leading to fewer organisms at higher levels, which can limit the overall concentration of pollutants. Environmental processes, such as degradation and dilution, also help mitigate pollutant accumulation at higher trophic levels.
As you move up the food chain in the ocean, energy is lost at each trophic level through metabolism and heat, resulting in fewer individuals able to be sustained. This leads to a pyramid-shaped population distribution, where there are more organisms at lower trophic levels (such as primary producers) compared to higher trophic levels (such as top predators).
A food chain helps maintain balance in an ecosystem by regulating the populations of different species. If one species becomes too abundant, it can lead to imbalances in the ecosystem. Predators at higher trophic levels help control the populations of species at lower trophic levels, ensuring that no one species becomes too dominant.
A food chain does not go all complex like a food web does, meaning it has anywhere from 3-... an example would be : grass -> rabbit -> fox
Energy is lost at each trophic level due to inefficiencies in energy transfer, metabolism, and heat loss, which results in less energy being available to higher trophic levels. This phenomenon, known as the 10% rule, means that only about 10% of the energy is passed on from one trophic level to the next, leading to a decrease in energy as you move up the food chain.
Pollutants often bioaccumulate in organisms at lower trophic levels, but they can also become diluted as they move up the food chain. While some pollutants, particularly persistent organic pollutants, can biomagnify and increase in concentration at higher trophic levels, this is not the case for all pollutants. Additionally, energy transfer between trophic levels is inefficient, leading to fewer organisms at higher levels, which can limit the overall concentration of pollutants. Environmental processes, such as degradation and dilution, also help mitigate pollutant accumulation at higher trophic levels.
i hope you mean trophic levels because then my answer will be correct. and yes it would be in the top level because producers go at the bottom and since a cheetah is a top consumer (nothing else eats it) it would go at the top.
As you move up the food chain in the ocean, energy is lost at each trophic level through metabolism and heat, resulting in fewer individuals able to be sustained. This leads to a pyramid-shaped population distribution, where there are more organisms at lower trophic levels (such as primary producers) compared to higher trophic levels (such as top predators).
Go into Gringott's bank where you have to learn how to build levels and play bonus levels.
The pH of rain will go down with the pollutants
Trophic levels are the feeding position in a food chain such as primary producers, herbivore, primary carnivore, etc. Green plants form the first trophic level, the producers. Herbivores form the second trophic level, while carnivores form the third and even the fourth trophic levels. In this section we will discuss what is meant by food chains, food webs and ecological pyramids.The first trophic level is the producers, followed by the primary consumers, followed by the secondary, and finally, tertiary consumers. On the side of most energy-flow pyramids are the decomposers. I got this answer <a href="http://www.botany.uwc.ac.za/sci_ed/grade10/ecology/trophics/troph.htm">here!</a> P.S. Two people contributed. I got my answer from my science book, packets, and teacher.:)
As trophic levels increase, the biomass of organisms generally decreases. This is because energy is lost as it moves up the food chain through trophic levels, with only a portion transferred to higher-level consumers. Consequently, the biomass available to support organisms at higher trophic levels is reduced.
Each trophic level contains one-tenth as much biomass as the level below it and ten times as much biomass as the level above it.
A food chain helps maintain balance in an ecosystem by regulating the populations of different species. If one species becomes too abundant, it can lead to imbalances in the ecosystem. Predators at higher trophic levels help control the populations of species at lower trophic levels, ensuring that no one species becomes too dominant.
A food chain does not go all complex like a food web does, meaning it has anywhere from 3-... an example would be : grass -> rabbit -> fox
Well the trophic model is like the pyramid (Food Chain).But the difference is that trophic model's change every time you go to a different ecosystem.(Ecosystem Definition - http://dictionary.reference.com/browse/ecosystem)Pristine Ecosystems have a wine shaped trophic model and Near - Pristine Ecosystems have a upside down wine shaped trophic model. Human affected ecosystems have a triangle trophic model.
Energy is lost at each trophic level due to inefficiencies in energy transfer, metabolism, and heat loss, which results in less energy being available to higher trophic levels. This phenomenon, known as the 10% rule, means that only about 10% of the energy is passed on from one trophic level to the next, leading to a decrease in energy as you move up the food chain.