Chantel Chizen

Soil Scientist | Educator

Soil carbon dynamics in drained prairie pothole wetlands


Journal article


Chantel J. Chizen, B. Helgason, B. Weiseth, G. Dhillon, H. Baulch, J. Schoenau, Angela K. Bedard-Haughn
Frontiers in Environmental Science, 2024

DOI
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Cite

APA   Click to copy
Chizen, C. J., Helgason, B., Weiseth, B., Dhillon, G., Baulch, H., Schoenau, J., & Bedard-Haughn, A. K. (2024). Soil carbon dynamics in drained prairie pothole wetlands. Frontiers in Environmental Science.


Chicago/Turabian   Click to copy
Chizen, Chantel J., B. Helgason, B. Weiseth, G. Dhillon, H. Baulch, J. Schoenau, and Angela K. Bedard-Haughn. “Soil Carbon Dynamics in Drained Prairie Pothole Wetlands.” Frontiers in Environmental Science (2024).


MLA   Click to copy
Chizen, Chantel J., et al. “Soil Carbon Dynamics in Drained Prairie Pothole Wetlands.” Frontiers in Environmental Science, 2024.


BibTeX   Click to copy

@article{chantel2024a,
  title = {Soil carbon dynamics in drained prairie pothole wetlands},
  year = {2024},
  journal = {Frontiers in Environmental Science},
  author = {Chizen, Chantel J. and Helgason, B. and Weiseth, B. and Dhillon, G. and Baulch, H. and Schoenau, J. and Bedard-Haughn, Angela K.}
}

Satellite image comparison of prairie pothole wetlands before and after drainage installation.
Figure credit: Chantel Chizen; Figure originally from journal article (Fig. 2)

Abstract

Drainage leads to trade-offs between crop production efficiency and wetland conservation, with complex impacts on ecosystem services. In North America’s Prairie Pothole Region, wetland drainage is widespread, often to increase the available land for cultivation, prevent crop loss due to flooding, and manage soil salinity. Wetlands are known for providing key ecosystem services such as improved water quality, flood mitigation, and carbon storage. There is limited research on how changes to soil hydrology and soil redistribution through wetland drainage can impact soil carbon storage and persistence in this region. This research evaluates factors that contribute to soil carbon storage in drained prairie pothole wetland based on 33 drained wetlands in Saskatchewan, Canada. These analyses showed regional differences in the response of soil carbon storage to drainage that are driven by environmental factors such as annual precipitation, temperature, and wetland permanence. We observed increasing soil carbon storage from the Dark Brown to Black soil zones, as well as with longer wetland pond permanence. The sampling depth used for calculating soil carbon storage was especially important when comparing geographically across the soil zones as the Black soil zone had greater soil carbon stored at depth. Soil carbon was also intensively monitored over 2 years following installation of surface drainage across a wetland complex (8 drained wetlands) where water was partially directed to a consolidation wetland. We further assessed changes in soil carbon dynamics and protection from microbial decomposition based on three soil organic matter fractions, ATR-FTIR for organic matter functional groups, and phospholipid fatty acid analysis to understand the microbial community abundance and structure. After 2 years following drainage, ephemeral wetlands with short pond permanence were found to be most sensitive to drainage and the only wetland class with decreases in soil carbon. The temporary and seasonal wetland classes showed no significant differences in soil carbon content but there were changes in the organic matter with depth due to soil redistribution during drainage implementation. Jointly, this research provides region-specific estimates of soil carbon storage in drained prairie pothole wetlands that can be used to inform wetland soil carbon management in cultivated fields.


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