Article

Anthropogenic stressors affect fungal more than bacterial communities in decaying leaf litter: A stream mesocosm experiment

Details

Citation

Juvigny-Khenafou NPD, Zhang Y, Piggott JJ, Atkinson D, Matthaei CD, Van Bael SA & Wu N (2020) Anthropogenic stressors affect fungal more than bacterial communities in decaying leaf litter: A stream mesocosm experiment. Science of The Total Environment, 716, Art. No.: 135053. https://doi.org/10.1016/j.scitotenv.2019.135053

Abstract
Despite the progress made in environmental microbiology techniques and knowledge, the succession and functional changes of the microbial community under multiple stressors are still poorly understood. This is a substantial knowledge gap as microbial communities regulate the biogeochemistry of stream ecosystems. Our study assessed the structural and temporal changes in stream fungal and bacterial communities associated with decomposing leaf litter under a multiple-stressor scenario. We conducted a fully crossed 4-factor experiment in 64 flow-through mesocosms fed by a pristine montane stream (21 days of colonisation, 21 days of manipulations) and investigated the effects of nutrient enrichment, flow velocity reduction and sedimentation after 2 and 3 weeks of stressor exposure. We used high-throughput sequencing and metabarcoding techniques (16S and 18S rRNA genes) to identify changes in microbial community composition. Our results indicate that (1) shifts in relative abundances of the pre-existing terrestrial microbial community, rather than changes in community identity, drove the observed responses to stressors; (2) changes in relative abundances within the microbial community paralleled decomposition rate patterns with time; (3) both fungal and bacterial communities had a certain resistance to stressors, as indicated by relatively minor changes in alpha diversity or multivariate community structure; (4) overall, stressor interactions were more common than stressor main effects when affecting microbial diversity metrics or abundant individual genera; and (5) stressor effects on microbes often changed from 2 weeks to 3 weeks of stressor exposure, with several response patterns being reversed. Our study suggests that future research should focus more on understanding the temporal dynamics of fungal and bacterial communities and how they relate to ecosystem processes to advance our understanding of the mechanisms associated with multiple-stressor interactions.

Keywords
16S rRNA; 18s rRNA; Mesocosm; Decomposition; China; Multiple stressors

Journal
Science of The Total Environment: Volume 716

StatusPublished
Publication date31/05/2020
Publication date online30/11/2019
Date accepted by journal16/10/2019
PublisherElsevier BV
ISSN0048-9697

People (1)

Dr Noel Juvigny-Khenafou

Dr Noel Juvigny-Khenafou

Lect in Aquatic Environmental Science, Institute of Aquaculture