10.2.2: Mutualisms between plants and soil microorganisms

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There are numerous examples of both positive and negative interactions between plants and soil microorganisms. Here, we will briefly consider the well-established mutualistic interactions of plants with mycorrhizal fungi and nitrogen fixers.

Mycorrhizal fungi are a diverse group of fungi that connect with the roots of most plants on Earth (Van Der Heijden et al., 2008). Partnerships between plants and specific mycorrhizal fungi reflect the traits of the mycorrhizal fungi and the plants’ nutrient needs (Averill et al., 2019). The fungi can boost plant productivity by helping supply the plant with resistance to disease and drought and several nutrients, including phosphorous, nitrogen, copper, iron, and zinc (Van Der Heijden et al., 2008). In fact, mycorrhizal fungi supply up to 75% of the phosphorus obtained by plants each year (Van Der Heijden et al., 2008). In exchange, the plant benefits the fungi by providing sugars produced by photosynthesis. The relationship is often mutualistic, but can become parasitic if the cost of the exchange exceeds the benefits for the plant (Johnson et al., 1997).

Similarly, nitrogen-fixing microorganisms can also form mutualistic relationships with plants. As described in Section 5.2.1, some nitrogen fixers live within root nodules formed by their partner plants, whereas others are free-living (Smercina et al., 2019). Both types can benefit plants by providing reactive nitrogen, one of the main nutrients that limits plant productivity (Chapin, 1980). In exchange, the nitrogen fixers receive sugars produced by photosynthesis.

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