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Published April 26, 2023 | Version v1
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Nutrient dynamics of 12 Sphagnum species during establishment on a rewetted bog

  • 1. ROR icon Radboud University Nijmegen
  • 2. ROR icon Utrecht University
  • 3. ROR icon B-Ware (Netherlands)
  • 4. ROR icon University of Greifswald
  • 5. Greifswald Mire Centre
  • 6. University of Groningen
  • 7. University of Oldenburg

Description

Peatland degradation through drainage and peat extraction have detrimental environmental and societal consequences. Rewetting is an option to restore lost ecosystem functions, such as carbon storage, biodiversity and nutrient sequestration. Peat mosses (Sphagnum) are the most important peat-forming species in bogs. Most Sphagnum species occur in nutrient-poor habitats; however, high growth rates have been reported in artificial nutrient-rich conditions with optimal water supply. Here, we demonstrate the differences in nutrient dynamics of 12 Sphagnum species during their establishment in a 1-year field experiment at a Sphagnum paludiculture area in Germany. Our study shows that slower-growing species (S. papillosum, S. magellancium, S. fuscum, S. rubellum, S. austinii; often forming hummocks) displayed signs of nutrient imbalance. These species accumulated higher amounts of N, P, K and Ca in their capitula, and had an elevated stem N:K quotient (>3). Additionally, this group sequestered less C and K per m2 than the fast and medium-growing species (S. denticulatum, S. fallax, S. riparium, S. fimbriatum, S. squarrosum, S. palustre, S. centrale). We conclude that nutrient dynamics and carbon/nutrient sequestration rates are species-specific. For bog restoration, generating ecosystem services or choosing suitable donor material for Sphagnum paludiculture, it is crucial to consider their compatibility with prevailing environmental conditions. 

This publication is supported by the WET HORIZONS project.

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Funding

WET HORIZONS – WET HORIZONS - upgrading knowledge and solutions to fast-track wetland restoration across Europe 101056848
European Commission