Abstract
The impacts of drying on bryospheric photosynthesis are poorly understood. Utilising a 20-yr-long experiment, we quantified the effects of long-term water level drawdown (WLD) on links between bryospheric photosynthesis, microbial community composition, decomposition, and environmental variables. The community structure of photoautotrophic microbes was investigated using metabarcoding and quantitative polymerase chain reaction. Microbial photosynthesis was measured as photosynthesis efficiency (φPSII) and maximum electron transport rate through photosystem II (ETRmax). Bryospheric photosynthesis was measured using an infrared gas flux analyser. Chlorophyta, Cyanobacteria, and Ochrophyta were dominant photoautotrophic phyla in all study areas, but communities had site-specific WLD responses. WLD increased microbial and bryospheric photosynthesis in the poor fen. ETRmax was promoted by soil phosphorus concentration, φPSII, and Chlorophyta abundance, and bryospheric photosynthesis by Cyanobacteria abundance, a deep water table, soil sulphur concentration, and decomposition. In undrained areas, high abundance of Cyanobacteria promoted soil nitrogen concentration and, therefore, photosynthesis. In WLD areas, these connections were lost, but bryospheric photosynthesis benefited from WLD directly. Our study confirms that photoautotrophic microbes, especially Cyanobacteria and Chlorophyta, are important contributors to bryospheric photosynthesis in pristine boreal peatlands. Furthermore, increased bryospheric photosynthesis after drying may offset carbon loss from increased decomposition, but this depends on the site characteristics.
| Original language | English |
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| Pages (from-to) | 1336-1350 |
| Number of pages | 15 |
| Journal | New Phytologist |
| Volume | 248 |
| Issue number | 3 |
| Early online date | 2 Sept 2025 |
| DOIs | |
| Publication status | Published - Nov 2025 |
Bibliographical note
Publisher Copyright:© 2025 The Author(s). New Phytologist © 2025 New Phytologist Foundation.
Funding
This study was funded by the Academy of Finland (grant nos. 330840, 345527), the Academy of Finland Flagship funding for ACCC (grant no. 337550), the Finnish Cultural Foundation (grant no. 00240717), and the Olvi foundation (grant no. 20230925). VEJJ and MLG were supported by the BALANCE project (grant no. ANR-23-ERCC-0001-01) funded by the French National Research Agency. The authors gratefully acknowledge the University of Eastern Finland, which is part of the AnaEE-ERIC research infrastructure, for providing the facilities and resources necessary to conduct this research. We thank Elisa Mannisto and Peter Garamszegi for assisting in field work and Stephen Frolking for his valuable comments on the manuscript. Open access publishing facilitated by Ita-Suomen yliopisto, as part of the Wiley-FinELib agreement.
| Funders |
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| OLVI-Sti |
Keywords
- Cyanobacteria
- microalgae
- microbial photosynthesis
- moss microbiome
- peatland drying
- Sphagnum