Belowground impacts of alpine woody encroachment are determined by plant traits, local climate, and soil conditions - PubMed
. 2020 Dec;26(12):7112-7127.
doi: 10.1111/gcb.15340. Epub 2020 Oct 8.
Marko J Spasojevic 3 , Concepción L Alados 4 , Emma L Aronson 5 , Juan C Benavides 6 , Nicoletta Cannone 7 , Chatrina Caviezel 8 , Oriol Grau 9 10 , Hui Guo 11 , Gaku Kudo 12 , Nikolas J Kuhn 8 , Jana Müllerová 13 , Michala L Phillips 2 14 , Nuttapon Pombubpa 5 , Frédérique Reverchon 15 , Hannah B Shulman 5 , Jason E Stajich 5 , Alexia Stokes 16 , Sören E Weber 3 17 , Jeffrey M Diez 2
Affiliations
- PMID: 32902066
- DOI: 10.1111/gcb.15340
Free article
Belowground impacts of alpine woody encroachment are determined by plant traits, local climate, and soil conditions
Courtney G Collins et al. Glob Chang Biol. 2020 Dec.
Free article
Abstract
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 had distinct soil microbial community composition. Woody plant leaf traits indirectly influenced soil microbes through their impact on soil abiotic conditions, primarily soil pH and C:N ratios. Finally, site-level climate affected the overall magnitude and direction of woody plant influence, as soil fungal and bacterial richness were either higher or lower in woody encroached versus herbaceous soils depending on mean annual temperature and precipitation. All together, these results document global impacts of woody plant encroachment on soil microbial communities, but highlight that multiple biotic and abiotic pathways must be considered to scale up globally from site- and species-level patterns. Considering both the aboveground and belowground effects of woody encroachment will be critical to predict future changes in alpine ecosystem structure and function and subsequent feedbacks to the global climate system.
Keywords: alpine; global change; leaf traits; plant-soil interactions; soil microbes; woody encroachment.
© 2020 John Wiley & Sons Ltd.
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