Sören E. Weber scite author profile

Global climate and land use change are altering plant and soil microbial communities worldwide, particularly in arctic and alpine biomes where warming is accelerated. The widespread expansion of woody shrubs into historically herbaceous alpine plant zones is likely to interact with climate to affect soil microbial community structure and function; however, our understanding of alpine soil ecology remains limited. This study aimed to (i) determine whether the diversity and community composition of soil fungi vary across elevation gradients and to (ii) assess the impact of woody shrub expansion on these patterns. In the White Mountains of California, sagebrush (Artemisia rothrockii) shrubs have been expanding upwards into alpine areas since 1960. In this study, we combined observational field data with a manipulative shrub removal experiment along an elevation transect of alpine shrub expansion. We utilized next-generation sequencing of the ITS1 region for fungi and joint distribution modelling to tease apart effects of the environment and intracommunity interactions on soil fungi. We found that soil fungal diversity declines and community composition changes with increasing elevation. Both abiotic factors (primarily soil moisture and soil organic C) and woody sagebrush range expansion had significant effects on these patterns. However, fungal diversity and relative abundance had high spatial variation, overwhelming the predictive power of vegetation type, elevation and abiotic soil conditions at the landscape scale. Finally, we observed positive and negative associations among fungal taxa which may be important in structuring community responses to global change.

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Fungal community assembly in soils and roots under plant invasion and nitrogen deposition

Phillips

Weber

Andrews

et al. 2019

Fungal Ecology

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Belowground impacts of alpine woody encroachment are determined by plant traits, local climate, and soil conditions

Collins

Spasojevic

Alados

et al. 2020

Global Change Biology

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Global climate and land use change are causing woody plant encroachment in arctic, alpine, and arid/semi-arid ecosystems around the world, yet our understanding of the belowground impacts of this phenomenon is limited. We conducted a globally distributed field study of 13 alpine sites across four continents undergoing woody plant encroachment and sampled soils from both woody encroached and nearby herbaceous plant community types. We found that woody plant encroachment influenced soil microbial richness and community composition across sites based on multiple factors including woody plant traits, site level climate, and abiotic soil conditions. In particular, root symbiont type was a key determinant of belowground effects, as Nitrogen-fixing woody plants had higher soil fungal richness, while Ecto/ Ericoid mycorrhizal species had higher soil bacterial richness and symbiont types | 7113 COLLINS et aL.

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Sören E. Weber

Responses of arbuscular mycorrhizal fungi to multiple coinciding global change drivers

Shrub range expansion alters diversity and distribution of soil fungal communities across an alpine elevation gradient

Fungal community assembly in soils and roots under plant invasion and nitrogen deposition

Belowground impacts of alpine woody encroachment are determined by plant traits, local climate, and soil conditions

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