How mycorrhizal types control biodiversity effects on productivity

Changes in nutrient acquisition strategies and soil microbial communities of AM and EcM trees as species diversity increases. Credit: Liu Lingli

Mycorrhizal symbiosis helps plants expand their root surface area, giving plants greater access to nutrients and water. Although the first and foremost role of mycorrhizal symbiosis is to facilitate plant nutrition, how mycorrhizal types mediate the nutrient acquisition and interactions of coexisting trees in forests has not been clear to scientists.

To address this issue, Prof. Liu Lingli’s research team from the Institute of Botany of the Chinese Academy of Sciences investigated nutrient acquisition strategies of arbuscular mycorrhizae (AM) and ectomycorrhizal (EcM) trees in the Biodiversity–Ecosystem Functioning (BEF) experiment in a subtropical forest in China, where trees of the two mycorrhizal types were initially evenly planted in mixtures of two, four, eight or 16 tree species.

The researchers found that as species richness increased, the net primary production (NPP) of EcM trees rapidly decreased, but the NPP of AM trees progressively increased, leading to the sheer dominance (>90%) of AM trees in the highest diversity treatment.

The team’s analyzes further revealed that differences in mycorrhizal nutrient-acquisition strategies, both nutrient acquisition from soil and nutrient resorption within the plant, contribute to the competitive edge of AM trees over EcM ones.

In addition, analysis of soil microbial communities showed that EcM-tree monocultures have a high abundance of symbiotic fungi, whereas AM-tree monocultures were dominated by saprotrophic and pathogenic fungi.

According to the researchers, as tree richness increased, shifts in microbial communities, particularly a decrease in the relative abundance of Agaricomycetes (mainly EcM fungi), corresponded with a decrease in the NPP of EcM subcommunities, but had a relatively small impact on the NPP. of AM subcommunities.

These findings suggest that more efficient nutrient-acquisition strategies, rather than microbial-mediated negative plant-soil feedback, drive the dominance of AM trees in high-diversity ecosystems.

This study, based on the world’s largest forest BEF experiment, provides novel data and an alternative mechanism for explaining why and how AM trees usually dominate in high-diversity subtropical forests.

These findings also have practical implications for species selection in tropical and subtropical reforestation—suggesting that it is preferable to plant mixed AM trees, as they have a more efficient nutrient-acquisition strategy than EcM trees.

This study was published online in Science advances on Jan. 18.

More information:
Meifeng Deng et al, Tree mycorrhizal association types controlling biodiversity-productivity relationship in a subtropical forest, Science advances (2023). DOI: 10.1126/sciadv.add4468.

Provided by Chinese Academy of Sciences

Citation: How mycorrhizal types control biodiversity effects on productivity (2023, January 18) retrieved 18 January 2023 from

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