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Which term best describes energy transfer between trophic levels?
The term that best describes energy transfer between trophic levels is "trophic transfer." This process involves the transfer of energy from one trophic level to the next as organisms consume and are consumed by each other in a food chain.
Why is energy lost at each trophic level in an ecosystem?
Energy is lost at each trophic level in an ecosystem because organisms use some of the energy they consume for their own growth, metabolism, and other life processes. This results in less energy being available for the next trophic level, leading to a decrease in energy as it moves up the food chain.
Why is so little of the energy from one trophic level transferred up to the next trophic level?
Energy is lost as heat through respiration, metabolism, and waste production as it moves up the food chain. Each trophic level can only convert about 10% of the energy it receives into biomass that is available to the next trophic level, resulting in an overall inefficiency in energy transfer.
Why most communities have only about three or four trophic levels?
Most communities have only three or four trophic levels because energy transfer between levels is inefficient, with energy lost as heat at each transfer. This limits the number of trophic levels that can be supported by available energy. Additionally, top predators at higher trophic levels require large territories, which limits their abundance in a community.
Why are there fewer organisms in the higher trophic levels than the lower trophic levels?
the temperature is higher and in generally the conditions of life is much easier... There are also many atmospheric and oceanic phenomena participating in making the environment much more friendly than any other geographic level. and of course, cause they're near me :)
Because of the constant loss of energy, there can be a maximum of 7trophic levels in a food chain,TRUEFALSE?
True
Why can each trophic level support only about one tenth the amount of living tissue of the level below?
This is because energy is lost at each trophic level (from all the activity done by that level, e.g., running, climbing, fighting) . The energy available to the next trophic level is about 10% of the energy of the previous trophic level.
Why can each trophic level support only about one tenth the amount of the living tissue of the level below?
This is because energy is lost at each trophic level. The energy available to the next trophic level is about 10% of the energy of the previous trophic level.
Why do different trophic levels have different amounts of energy?
Different trophic levels have different amounts of energy because energy is lost as it moves up the food chain. Organisms at higher trophic levels need to consume more energy because only about 10% of energy is transferred from one trophic level to the next, with the rest lost as heat during metabolism.
Which ecological pyramid always remains upright?
The pyramid of energy always remains upright because energy diminishes as it moves up trophic levels in an ecosystem. This is because energy is lost as heat during each transfer between trophic levels, leading to a decrease in available energy for higher trophic levels.
Which term best describes energy transfer between trophic levels?
The term that best describes energy transfer between trophic levels is "trophic transfer." This process involves the transfer of energy from one trophic level to the next as organisms consume and are consumed by each other in a food chain.
How is the amount of energy on earth kept constant when only 10 percent of energy is transferred?
Not sure what you mean with "10 percent of energy is transferred". The amount of energy on Earth will remain more or less constant, because energy incoming from the Sun will either be reflected immediately, or - if it is absorbed - most of it will heat up matter, which will make it radiate heat radiation (infrared radiation) faster, until eventually a balance is reached.
The maximum energy of a photon is expressed as?
The maximum energy of a photon is often expressed as Planck's Law or constant. It is also referred to as "h" and is used in quantum mechanics as well.
When the K E of a pendulum is at half its maximum value how much P E does it posses?
When the kinetic energy of a pendulum is at half its maximum value, the potential energy it possesses will also be at half its maximum value. This is because the total mechanical energy of the pendulum (the sum of kinetic and potential energy) remains constant throughout its motion.
Why do different tropic levels have different amounts of energy?
Different trophic levels have different amounts of energy because energy is lost as it moves up the food chain. Organisms at higher trophic levels must consume a larger amount of lower trophic level organisms to obtain enough energy to sustain themselves. This inefficiency in energy transfer limits the amount of energy available at each trophic level.
Which thermodynamic process gives maximum work?
Reversible adiabatic expansion/compression
What is primarily responsible for limiting the number of trophic levels in most eco systems?
The inefficiency of energy transfer from one trophic level to the next is primarily responsible for limiting the number of trophic levels in most ecosystems. As energy is transferred up the food chain, a significant amount is lost as heat, resulting in less energy available to support higher trophic levels. This limits the number of trophic levels that can be sustained in an ecosystem.
