Decomposers: Difference between revisions

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=== Invertebrates ===
=== Invertebrates ===
Soil invertebrates contribute to the recycling of dead plant material. [7] Invertebrates contribute to decomposition by breaking down [[Organic Matter|organic matter]] with their own endogenic enzymes. These enzymes are vital to the decomposition process as they degrade lignocellulose present in plant material. The most notable decomposers invertebrates are earthworms, [[termites]], woodlice, snails, millipedes, beetles, and [[mesofauna]]. [7] Their abilities to break down dry plant matter make them valuable decomposers. As seen with other decomposers, invertebrates increase soil nutrient availability for plants. The nutrients directly increase leaf, root, and stem growth. Positive growth impacts vary based on the plant and uptake levels. Invertebrates do not only directly break down organic matter but also increase soil moisture further enhancing nutrient uptake. Mesofauna, such as [[Collembola]], are associated with an increased number of plant leaves and higher nitrogen content in soils. [7] Increased presence of invertebrates has been associated with higher root to shoot biomass.  
Soil invertebrates contribute to the recycling of dead plant material. [7] Invertebrates contribute to decomposition by breaking down [[Organic Matter|organic matter]] with their own endogenic enzymes. These enzymes are vital to the decomposition process as they degrade lignocellulose present in plant material. The most notable decomposers invertebrates are earthworms, [[termites]], woodlice, snails, millipedes, beetles, and [[mesofauna]]. [7] Their abilities to break down dry plant matter make them valuable decomposers. As seen with other decomposers, invertebrates increase soil nutrient availability for plants. The nutrients directly increase leaf, root, and stem growth. Positive growth impacts vary based on the plant and uptake levels. Invertebrates do not only directly break down [[Organic Matter|organic matter]] but also increase soil moisture further enhancing nutrient uptake. Mesofauna, such as [[Collembola]], are associated with an increased number of plant leaves and higher nitrogen content in soils. [7] Increased presence of invertebrates has been associated with higher root to shoot biomass.  


[[file: 6BED154B-CF03-432E-9690-271C654108B7.jpeg|450px]]
[[file: 6BED154B-CF03-432E-9690-271C654108B7.jpeg|450px]]


Invertebrate decomposers. [7]
Invertebrate decomposers and their interactions with their environment. [7]


= References =
= References =

Revision as of 22:23, 2 April 2023

Decomposers are organisms which break down dead or decaying organic material. This most commonly includes bacteria, fungi, and invertebrates. The material broken down in decomposition is referred to as detritus. Detritus is matter composed of leaves and other plant parts, animal remains, waste products, and other organic debris that falls onto the soil or into bodies of water from surrounding terrestrial communities. [1]

Function

The purpose of decomposers is to carry out the decomposition process of organic matter. If organic matter did not go through the decomposition process, nitrogen would be “locked” in organic tissue making environments nutrient scarce. [3] Decomposers combat this by breaking down decaying matter and allowing nitrogen to continue to cycle through the environment. Making nutrients readily available provides the fuel needed for plants to grow. 4C9E32BD-5427-4364-858F-FFB8652FAA35.jpeg

Figure 1 Decomposers food web showing the energy transfer of decomposition. [2]

Decomposers break organic material into smaller fragments in a process known as fragmentation. [3]

Diversity

Bacteria

6076BF2D-C583-4E39-BF95-B097008A1F56.jpeg

Bacterial decomposition on the forest floor. [6]

Fungi

Fungi are primarily multicellular eukaryotic organisms that are heterotrophic and play an important role in nutrient cycling within ecosystems. [4] There are both “good” and “bad” fungi in a given environment. “Good” fungi may serve to aid a plant in the uptake of nutrients while “bad” fungi can be responsible for impacts related to disease. Fungí communicate with plants through their hyphae networks called mycelium. [4]

Fungi serve a large role as decomposers. They can be either generalists or specialists. The most important function of fungi as decomposers is to provide growing plants with nitrogen. Nitrogen is provided in soil when fungi break down decaying organic material.

6416AD1A-287C-4ABD-BADB-6A66DAF187A4.jpeg

Fungi decomposing a decaying log. [5]

Invertebrates

Soil invertebrates contribute to the recycling of dead plant material. [7] Invertebrates contribute to decomposition by breaking down organic matter with their own endogenic enzymes. These enzymes are vital to the decomposition process as they degrade lignocellulose present in plant material. The most notable decomposers invertebrates are earthworms, termites, woodlice, snails, millipedes, beetles, and mesofauna. [7] Their abilities to break down dry plant matter make them valuable decomposers. As seen with other decomposers, invertebrates increase soil nutrient availability for plants. The nutrients directly increase leaf, root, and stem growth. Positive growth impacts vary based on the plant and uptake levels. Invertebrates do not only directly break down organic matter but also increase soil moisture further enhancing nutrient uptake. Mesofauna, such as Collembola, are associated with an increased number of plant leaves and higher nitrogen content in soils. [7] Increased presence of invertebrates has been associated with higher root to shoot biomass.

6BED154B-CF03-432E-9690-271C654108B7.jpeg

Invertebrate decomposers and their interactions with their environment. [7]

References

Citations

  1. Lotha, Gloria. “Detritus.” Encyclopædia Britannica, Encyclopædia Britannica, Inc., 15 May 2020, https://www.britannica.com/science/detritus.
  2. “Organisms in Composting.” Texas A&M AgriLife, Aggie Horticulture, Feb. 2009, https://aggie-horticulture.tamu.edu/earthkind/landscape/dont-bag-it/chapter-1-the-decomposition-process/. Accessed 1 Apr. 2023.
  3. University, Utah State. “Decomposition: Herbarium.” Utah State University, https://www.usu.edu/herbarium/education/fun-facts-about-fungi/decomposition.
  4. Editors, BD. “Fungi - Definition, Types and Examples.” Biology Dictionary, 4 Oct. 2019, https://biologydictionary.net/fungi/.
  5. “Decomposing Fungi.” National Parks Service, U.S. Department of the Interior, 16 Sept. 2021, https://www.nps.gov/muwo/learn/nature/decomposing-fungi.htm.
  6. “Decomposition: How Nature Recycles.” Decomposition - How Nature Recycles , 2023, https://www.edtechlens.com/blog/rainforest-kids-science-decomposition-nature-recycles.
  7. Griffiths, Hannah M, et al. “The Impact of Invertebrate Decomposers on Plants and Soil.” New Phytologist Foundation, New Phytologist, 15 June 2021, https://nph.onlinelibrary.wiley.com/doi/10.1111/nph.17553.