"Decomposer" Example Sentences
1. Bacteria and fungi are common decomposers that break down organic matter.
2. Earthworms and beetles are also important decomposers in the soil.
3. Decomposers play a vital role in recycling nutrients and matter within an ecosystem.
4. Decomposers release inorganic nutrients into the environment that are used by producers.
5. Decomposers break down dead organic matter through the chemical process of decomposition.
6. Without decomposers, dead organic matter would accumulate and nutrients would not cycle within ecosystems.
7. Bacteria are the most common and abundant decomposers in soil and aquatic environments.
8. Fungi, including mushrooms and molds, are also effective decomposers that break down organic matter.
9. Decomposers break down complex organic polymers, like proteins, carbohydrates and lipids, into simpler compounds.
10. Bacteria thrive in moist environments where they can act as decomposers of organic material.
11. The main job of decomposers is to break down biochemical components of dead and decaying organisms.
12. Soil organisms like earthworms aid decomposition by shredding and mixing organic material in soil.
13. As decomposers go to work on dead organisms, they release carbon dioxide and water back into the environment.
14. Decomposers obtain energy by breaking chemical bonds within organic molecules and absorbing nutrients.
15. Decomposers help sustain ecosystems by recycling nutrients that are used again by producers.
16. Decomposition of organic matter by fungi and bacteria is essential for soil fertility and plant growth.
17. Decomposers, through the process of decomposition, recycle essential elements back into the environment.
18. Snails, springtails and centipedes are also organisms that help with decomposition as minor decomposers.
19. Rotting fruits and vegetables provide food for decomposers in the form of simple and complex carbohydrates.
20. Most dead material is broken down by decomposers in only a few years before the nutrients become available again.
21. Fallen leaves on forest floors remain moist, providing shelter and nutrients for soil decomposers.
22. Decomposition is essential for the sustainability of all ecosystems by returning nutrients to decomposers.
23. The overall process of decomposition is a complex interaction between many different decomposing organisms.
24. As the population of decomposers increases on available organic material, decomposition speeds up.
25. Shredding organic material into smaller pieces by organisms aids decomposition by decomposers.
26. Decomposers use extracellular enzymes to break the bonds within organic compounds during decomposition.
27. Compost bins provide rich environments for the growth of decomposers that break down organic waste materials.
28. Decomposition by decomposers within soil helps maintain soil structure and porosity that are vital for plant growth.
29. Changes in the activity level of decomposers throughout the year influence rates of decomposition within ecosystems.
30. During spring and summer months, decomposers are most active in breaking down organic matter into nutrients.
31. Decomposers are dependent on producers to provide the organic material that they decompose within ecosystems.
32. Without the work of decomposers, nutrients like nitrogen, phosphorus and potassium would remain locked up in dead organic matter.
33. Dead organisms become food for decomposers that recycle their nutrients for use by producers within ecosystems.
34. Environmental factors like moisture, temperature and pH affect the activity and growth of decomposer populations.
35. Enzymes produced by decomposers aid in breaking down organic material into smaller molecules that they can absorb.
36. The energy stored in organic molecules is transferred by decomposers to their own biomass through decomposition.
37. Compost heaps harbor large populations of beneficial decomposers working together to break down organic material.
38. Bioremediation uses decomposers to break down organic pollutants in soil and water into less harmful substances.
39. The end products of decomposition by decomposers are carbon dioxide, water, and inorganic nutrients.
40. Decomposers compete with each other for the organic material and nutrients released during decomposition.
41. Decomposers play a vital ecological role within ecosystems by returning nutrients to the biogeochemical cycles.
42. Decomposing organisms derive metabolic energy for growth through breaking chemical bonds within organic molecules.
43. Some decomposers can change environmental conditions to favor their own activity levels during decomposition.
44. Decomposition of organic matter is essential for nutrient cycling, soil health and the productivity of ecosystems.
45. Woodchips and other organic mulches provide food and habitat for beneficial decomposers in gardens and landscaping.
46. Examples of decomposers include earthworms, bacteria, fungi, millipedes, wood lice, nematodes and slaters.
47. Producers within ecosystems rely on decomposers to decompose organic material and release nutrients back into the soil.
48. Leaves and twigs that fall into ponds and streams provide nutrients for aquatic decomposers like bacteria and fungi.
49. Dead organisms are broken down by decomposers into simpler organic and inorganic molecules through the decay process.
50. The metabolic processes of decomposers release carbon dioxide that is used by producers through photosynthesis.
51. Landfills require decomposers like bacteria and fungi to break down garbage and organic waste over long periods of time.
52. Decomposer organisms derive energy and nutrients by breaking down complex organic molecules in a step-wise manner.
53. Rate of decomposition depends on temperature, moisture levels, enzyme activity and population of decomposing organisms.
54. Decomposers fill an essential ecological niche within ecosystems by breaking down and recycling organic material.
55. Decomposers recycle nutrients and help maintain soil structure, porosity and fertility that support plant growth.
56. Leaves fall to provide winter cover and nutrients for soil decomposers that become active again in the spring.
57. Decomposers range in size from microscopic bacteria to larger soil organisms that physically break down organic matter.
58. Decomposition rates depend not just on decomposer activity but also accessibility of organic material to decomposers.
59. Microorganisms like bacteria and fungi are the smallest and most abundant decomposers that break down organic material.
60. Forest management practices aim to maintain or enhance habitat for beneficial soil decomposers that recycle nutrients.
Common Phases
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Decomposers break down dead organic matter.
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Decomposers include bacteria and fungi.
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Decomposers help recycle nutrients in the environment.
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Decomposers feed on dead organic material.
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Decomposers return nutrients to the soil.
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Decomposers make nutrients available to plants.
• Decomposition by
decomposers releases nutrients.
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Decomposers work to decompose organic waste.
• Decomposition by
decomposers recycles elements.
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Decomposers feed on waste organic compounds.
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Decomposers are essential for nutrient cycling.
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Decomposers aid in nutrient recycling.
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Decomposers modify dead organic material.
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Decomposers release carbon dioxide and water.
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Decomposers break down complex compounds.
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Decomposers derive energy from decomposition.