Data from: Can frequent precipitation moderate drought impact on peatmoss carbon uptake in northern peatlands?

Northern peatlands represent a large global carbon store that potentially can be destabilised by summer water table drawdown. Precipitation can moderate negative impacts of water table drawdown by rewetting peatmoss (Sphagnum spp.), the ecosystems’ key species. Yet, the frequency for such rewetting...

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Bibliographic Details
Main Authors: Nijp, Jelmer J., Limpens, Juul, Metselaar, Klaas, Van Der Zee, Sjoerd E. A. T. M., Berendse, Frank, Robroek, Bjorn J. M.
Format: Dataset
Language:unknown
Published: 2014
Subjects:
Life sciences
medicine and health care
climate change
Sphagnum fuscum
Sphagnum balticum
Sphagnum majus
desiccation tolerance
mires
moisture stress
photosynthesis
rain variability
Sphagnum physiology
water balance
northern Europe
northern Sweden
Fennoscandia
Scandinavia
boreal zone
subarctic
Holocene
envir
geo
Northern Sweden
Subarctic
Online Access:https://doi.org/10.5061/dryad.3k88t
http://library.wur.nl/WebQuery/wurpubs/453712
Description
Summary:Northern peatlands represent a large global carbon store that potentially can be destabilised by summer water table drawdown. Precipitation can moderate negative impacts of water table drawdown by rewetting peatmoss (Sphagnum spp.), the ecosystems’ key species. Yet, the frequency for such rewetting to be effective remains unknown. We experimentally assessed the importance of precipitation frequency for Sphagnum water supply and carbon uptake during a stepwise decrease in water tables in a growth chamber. CO2 exchange and the water balance were measured for intact cores of three peatmoss species (Sphagnum majus, S. balticum and S. fuscum) representative of three hydrologically distinct peatland microhabitats (hollow, lawn, hummock) and expected to differ in their water table-precipitation relationships. Precipitation contributed significantly to peatmoss water supply at deep water tables, demonstrating the importance of precipitation during drought. The ability to exploit transient resources was species-specific; S. fuscum carbon uptake increased linearly with precipitation frequency at deep water tables, whereas carbon uptake by S. balticum and S. majus was depressed at intermediate precipitation frequencies. Our results highlight an important role for precipitation on carbon uptake by peatmosses. Yet, the potential to moderate drought impact is species-specific and dependents on the temporal distribution of precipitation. All relevant datasets are included in the zip fileThe zip file contains 5 files: 1) Precipitation dependence data 2) Carbon fluxes 3) Volumetric water content vs carbon fluxes 4) Volumetric water content vs photosystem II efficiency and 5) Recovery: carbon fluxes at wet and rewetted treatment. See for detailed file description in the ReadMe fileNijp Data_Precipitation frequency effects on Sphagnum C uptake.zip

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