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Fungi
decompose things. Importantly, fungi are about the only organisms that can
digest wood, because the lignin which is complexed with the cellulose in
wood is so difficult to degrade. Lignin digestion is a fungal speciality but
they gain nutrition from living or dead animals as well as plants, and the
breakdown of other complex molecules such as cellulose and tannins in soils
is due mostly to fungal enzymatic activity.
Images from one of the best books on fungi you can buy: The Fifth Kingdom by Bryce Kendrick, Mycologue Publications |
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Fungi are all around us, and there are enormous numbers and quantities of them. It's been estimated that fungi make up 90% of the total living BIOMASS in forest soils. For grassland soils, another estimate puts the total length of hyphae at over 1 kilometre per gram weight! |
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There is such a large amount of fungal mycelium in most soils that it makes a major contribution to FOOD WEBS by being eaten by numerous vertebrates and invertebrates including insects, mites, molluscs and nematodes. Microarthropods are responsible for shredding organic matter in soil (and so prepare it for the final mineralization processes carried out by microbes), but about 80% of the tens of thousands of microarthropod species in forest soils are fungivores - they depend on the fungal mycelium for food. |
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When the mycelium makes fruit bodies (like mushrooms, brackets and truffles), these are also vital food sources for many animals, from mammals (including humans) to molluscs, as the following sequence of a slugfest shows ... |
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Because most small mammals depend on hypogeous fruit bodies (especially truffles) for a significant part of their diets the influence of fungi on the food web extends even further. Even top predators, like birds of prey, depend ultimately on the fungi because their prey do so. |
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| Fungal mycelia act as sinks of organic carbon and nitrogen nutrients in the soil | |||
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In many forests, a lot of carbon fixed by photosynthesis ends up in fungal mycelium because of the mycorrhizal symbiotic association in which the fungus assists the growth of forest trees. What is important is that the mycelial sink keeps the nutrients on site preventing loss of nutrient from the soil by leaching. This picture shows the mycorrhizal network of the roots of a small seedling |
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Plants on the left have mycorrhizas, plants on the right don't. Images from The Fifth Kingdom by Bryce Kendrick, Mycologue Publications |
The benefits of mycorrhizas to plants include efficient nutrient uptake, especially phosphorus; enhanced resistance to drought stress; and direct or indirect protection against some pathogens. Mycorrhizal fungi also link plants together into communities that are more resilient to stress and disturbance than single plants. When plants are connected by a common fungus, the products of photosynthesis can move through the fungus from a well-placed donor plant to a shaded recipient plant. In nutrient-poor soils, mycorrhizal fungi can provide nitrogen to their host plant that their mycelia have obtained by saprotrophic digestion of nutrients in the soil. |
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| Fungi exude polysaccharides |
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| Even fungal plant pathogens can enrich the natural environment |
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| … but fungal pathogens are not often benevolent. | ||||||||
| This is what Dutch Elm disease can do to the ‘urban forest’ |
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| Before and after images showing the effect of Dutch Elm Disease on an initially tree-lined avenue. From the website of the Coalition to Save the Elms at the URL http://www.savetheelms.mb.ca | ||||||||
Be aware of the fungi!
