Drivers of seasonal- and event-scale DOC dynamics at the outlet of mountainous peatlands revealed by high-frequency monitoring
<p>Peatlands store <span class="inline-formula">∼</span> 20 %–30 % of the global soil organic carbon stock and are an important source of dissolved organic carbon (DOC) for inland waters. Recent improvements for in situ optical monitoring...
| Main Authors: | , , , , , |
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| Format: | Article |
| Language: | English |
| Published: |
Copernicus Publications
2020-07-01
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| Series: | Biogeosciences |
| Online Access: | https://www.biogeosciences.net/17/3705/2020/bg-17-3705-2020.pdf |
| Summary: | <p>Peatlands store <span class="inline-formula">∼</span> 20 %–30 % of the global soil organic carbon stock and are an important source of dissolved organic carbon (DOC) for inland waters. Recent improvements for in situ optical monitoring
revealed that the DOC concentration in streams draining peatlands is highly
variable, showing seasonal variation and short and intense DOC concentration
peaks. This study aimed to statistically determine the variables driving
stream DOC concentration variations at seasonal and event scales. Two
mountainous peatlands (one fen and one bog) were monitored in the French
Pyrenees to capture their outlet DOC concentration variability at a
high-frequency rate (30 min). Abiotic variables including precipitation,
stream temperature and water level, water table depth, and peat water
temperature were also monitored at high frequency and used as potential
predictors to explain DOC concentration variability. Results show that at
both sites DOC concentration time series can be decomposed into a seasonal
baseline interrupted by many short and intense peaks of higher concentrations. The DOC concentration baseline is driven, at the seasonal
scale, by peat water temperature. At the event scale, DOC concentration
increases are mostly driven by a rise in the water table within the peat at
both sites. Univariate linear models between DOC concentration and peat
water temperature or water table increases show greater efficiency at the
fen site. Water recession times were derived from water level time series
using master recession curve coefficients. They vary greatly between the two
sites but also within one peatland site. They partly explain the differences
between DOC dynamics in the studied peatlands, including peat porewater DOC
concentrations and the links between stream DOC concentration and water
table rise within the peatlands. This highlights that peatland complexes are
composed of a mosaic of heterogeneous peat units distinctively producing or
transferring DOC to streams.</p> |
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| ISSN: | 1726-4170 1726-4189 |