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Testate amoeba records indicate regional 20th-century lowering of water tables in ombrotrophic peatlands in central-northern Alberta, Canada
- Source :
- Global Change Biology. 24:2758-2774
- Publication Year :
- 2018
- Publisher :
- Wiley, 2018.
-
Abstract
- Testate amoebae are abundant in the surface layers of northern peatlands. Analysis of their fossilized shell (test) assemblages allows for reconstructions of local water-table depths (WTD). We have reconstructed WTD dynamics for five peat cores from peatlands ranging in distance from the Athabasca bituminous sands (ABS) region in western Canada. Amoeba assemblages were combined with plant macrofossil records, acid-insoluble ash (AIA) fluxes and instrumental climate data to identify drivers for environmental change. Two functional traits of testate amoebae, mixotrophy and the tendency to integrate xenogenic mineral matter in test construction, were quantified to infer possible effects of AIA flux on testate amoeba presence. Age-depth models showed the cores each covered at least the last ~315 years, with some spanning the last millennium. Testate amoeba assemblages were likely affected by permafrost development in two of the peatlands, yet the most important shift in assemblages was detected after 1960 CE. This shift represents a significant apparent lowering of water tables in four out of five cores, with a mean drop of ~15 cm. Over the last 50 years, assemblages shifted towards more xerophilous taxa, a trend which was best explained by increasing Sphagnum s. Acutifolia and, to a lesser extent, mean summer temperature. This trend was most evident in the two cores from the sites located farthest away from the ABS region. AIA flux variations did not show a clear effect on mineral-agglutinating taxa, nor on S. s. Acutifolia presence. We therefore suggest the drying trend was forced by the establishment of S. s. Acutifolia, driven by enhanced productivity following regional warming. Such recent apparent drying of peatlands, which may only be reconstructed by appropriate indicators combined with high chronological control, may affect vulnerability to future burning and promote emissions of CO2 .
- Subjects :
- 010506 paleontology
Time Factors
Peat
010504 meteorology & atmospheric sciences
Environmental change
Permafrost
Ombrotrophic
01 natural sciences
Sphagnum
Alberta
Functional trait
Little Ice Age
Oil sands
Peat bog
Transfer function
Water table
Global and Planetary Change
Environmental Chemistry
Ecology
Soil
Sphagnopsida
Amoeba
Testate amoebae
Groundwater
0105 earth and related environmental sciences
General Environmental Science
biology
Temperature
Water
Macrofossil
Biodiversity
biology.organism_classification
Wetlands
Environmental science
Seasons
Physical geography
Subjects
Details
- ISSN :
- 13541013
- Volume :
- 24
- Database :
- OpenAIRE
- Journal :
- Global Change Biology
- Accession number :
- edsair.doi.dedup.....1d06c08e29f41e40b141c8bcbcb9b4dc