when the nuorganism dies the nutrient cant move or be doing what is normal does it doesnt have the power to do it
decomposers eat EVERYTHING but the bones when they eat an animal, even the nutrients......so the answer is, they put it in their tummy! Then the smaller decomposers eat the bones........ doesn't take very long!
The nutrients are returned to the soil, to be reused by future plant life.
it helps the fish
co'z it is important in returning the nutrients back to the soil.
Aututrophs are organisms which synthesize food on their own.They consume Carbon dioxide and release Oxygen,thus balancing the ratio in the atmosphere.Heterotrophs depend on decomposing dead organic matter by feeding them.Hence they help in keeping the environment clean,and also responsible for returning back the nutrients and minerals to earth by decomposing the organic matter,thus balancing the exchange cycle.
An ecosystem usually has stability, or balance. There are many changes occurring all the time, but some cancel each other out. Organisms live, die, and decompose, returning the materials they were made of to the soil. New plants grow and use the materials. Water evaporates from a pond, but rain adds more water. Because these changes balance each other, they do not cause the overall ecosystem to change over time. However, changes in a climate, rate of erosion and populations.
yes izzy is returning next season!
Decomposers and scavengers break down dead plants and animals. They also break down the waste (poop) of other organisms. Decomposers are very important for any ecosystem. If they weren't in the ecosystem, the plants would not get essential nutrients, and dead matter and waste would pile up.There are two kinds of decomposers, scavengers and decomposers.Scavengers are animals that find dead animals or plants and eat them. While they eat them, they break them into small bits. In this simulation, flies, wasps and cockroaches are scavengers. Earthworms are also scavengers, but they only break down plants.Once a scavenger is done, the decomposers take over, and finish the job. Many kinds of decomposers are microscopic, meaning that they can't be seen without a microscope. Others, like fungi, can be seen.Different kinds of decomposers do different jobs in the ecosystem.Others, like some kinds of bacteria, prefer breaking down meat or waste from carnivores.Actinolites only break down dead plants, including hard to break down plants and the waste of herbivores.Others, like certain kinds of fungi, prefer fruits and vegetables.GOTO:HerbivoresPlantsOmnivoresCarnivoresDecomposersPollinatorsEcodome
co'z it is important in returning the nutrients back to the soil.
Decomposers
Fungi.
Fungus, bacteria, insects and other animals scavenge the nutrients from the fallen tree - returning its energy back into the ecosystem.
restoration
Decomposers are needed everywhere that there is life. These organisms are responsible for breaking down dead material and returning the nutrients back to the environment for future use. Without decomposers, life would end because there would be no available nutrients for living and future plants and animals to consume.
the nitrogen cycle
It does run out if nutrients are not re-supplied by returning organic matter back into the soil or adding chemical fertilizer.
Decomposers (or saprotrophs) are organisms that consume dead organisms, and, in doing so, carry out the natural process of decomposition. Like herbivores and predators, decomposers are heterotrophic, meaning that they use organic substrates to get their energy, carbon and nutrients for growth and development. Decomposers use deceased organisms and nonliving organic compounds as their food source. The primary decomposers are bacteria and fungi. [edit] Importance of the function in the ecosystem When a plant or animal dies, it leaves behind nutrients and energy in the organic material that comprised its body. Scavenger and detritivores can feed on the carcasses or litter, but they will inevitably leave behind a considerable amount of unused energy and nutrients. Unused energy and nutrients will be present both in the unconsumed portions (bones, feathers or fur in the case of animals, wood and other indigestable litter in the case of plants) and in the feces of the scavengers and detritivores. Decomposers complete decomposition by breaking down this remaining organic matter. Decomposers eventually convert all organic matter into carbon dioxide (which they respire) and nutrients. This releases raw nutrients (such as nitrogen, phosphorus, and magnesium) in a form usable to plants and algae, which incorporate the chemicals into their own cells. This process resupplies nutrients to the ecosystem, in turn allowing for greater primary production. An example of a decomposer is saprotrophic fungus; it breaks down dead trees, harvesting the energy stored therein. Although decomposers are generally located on the bottom of ecosystem diagrams such as food chains, food webs, and energy pyramids, decomposers in the biosphere are crucial to the environment. By breaking down dead material, they provide the nutrients that other organisms need to survive. As decomposers feed on dead organisms, they leave behind nutrients. These nutrients become part of the soil. Therefore, more plants can grow. [edit] Importance of the function in the ecosystem When a plant or animal dies, it leaves behind nutrients and energy in the organic material that comprised its body. Scavenger and detritivores can feed on the carcasses or litter, but they will inevitably leave behind a considerable amount of unused energy and nutrients. Unused energy and nutrients will be present both in the unconsumed portions (bones, feathers or fur in the case of animals, wood and other indigestable litter in the case of plants) and in the feces of the scavengers and detritivores. Decomposers complete decomposition by breaking down this remaining organic matter. Decomposers eventually convert all organic matter into carbon dioxide (which they respire) and nutrients. This releases raw nutrients (such as nitrogen, phosphorus, and magnesium) in a form usable to plants and algae, which incorporate the chemicals into their own cells. This process resupplies nutrients to the ecosystem, in turn allowing for greater primary production. An example of a decomposer is saprotrophic fungus; it breaks down dead trees, harvesting the energy stored therein. Although decomposers are generally located on the bottom of ecosystem diagrams such as food chains, food webs, and energy pyramids, decomposers in the biosphere are crucial to the environment. By breaking down dead material, they provide the nutrients that other organisms need to survive. As decomposers feed on dead organisms, they leave behind nutrients. These nutrients become part of the soil. Therefore, more plants can grow
Producers, consumers, and decomposers.
Because they break dead organisms down into basic chemicals which can then be used by other organisms to grow and build their bodies, which can then be eaten by other organisms, thus continuing the food chain.They are the final stage of returning nutrients back into the environment.
Every part of a forest is organic, and will decompose naturally, returning nutrients to the soil.