Lowland plant arrival in alpine ecosystems facilitates a decrease in soil carbon content under experimental climate warming
Abstract
Climate warming is releasing carbon from soils around the world, constituting a positive climate feedback. Warming is also causing species to expand their ranges into new ecosystems. Yet, in most ecosystems, whether range expanding species will amplify or buffer expected soil carbon loss is unknown. Here, we used two whole-community transplant experiments and a follow-up glasshouse experiment to determine whether the establishment of herbaceous lowland plants in alpine ecosystems influences soil carbon content under warming. We found that warming (transplantation to low elevation) led to a negligible decrease in alpine soil carbon content, but its effects became significant and 52% ± 31% (mean ± 95% confidence intervals) larger after lowland plants were introduced at low density into the ecosystem. We present evidence that decreases in soil carbon content likely occurred via lowland plants increasing rates of root exudation, soil microbial respiration, and CO2 release under warming. Our findings suggest that warming-induced range expansions of herbaceous plants have the potential to alter climate feedbacks from this system, and that plant range expansions among herbaceous communities may be an overlooked mediator of warming effects on carbon dynamics. Show more
Permanent link
https://doi.org/10.3929/ethz-b-000554677Publication status
publishedExternal links
Journal / series
eLifeVolume
Pages / Article No.
Publisher
eLife Sciences PublicationsSubject
carbon cycling; climate change; plant ecophysiology; plant redistributions; plant-soil interactions; soil microbes; OtherOrganisational unit
09666 - Alexander, Jake (ehemalig) / Alexander, Jake (former)
Funding
678841 - Novel`interactions and species’ responses to climate change (EC)
173210 - Timescales of changing species interactions under warming climate (SNF)
176044 - Ecological consequences of novel plant-soil interactions under changing climate (SNF)
Related publications and datasets
Is new version of: http://hdl.handle.net/20.500.11850/513572
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