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Data from: Fertilizer legacies meet saltwater incursion: challenges and constraints for coastal plain wetland restoration

Citation

Ardón, Marcelo; Helton, Ashley M.; Scheuerell, Mark D.; Bernhardt, Emily S. (2017), Data from: Fertilizer legacies meet saltwater incursion: challenges and constraints for coastal plain wetland restoration, Dryad, Dataset, https://doi.org/10.5061/dryad.kn5s2

Abstract

Coastal wetland restoration is an important tool for climate change adaptation and excess nutrient runoff mitigation. However, the capacity of restored coastal wetlands to provide multiple ecosystem services is limited by stressors, such as excess nutrients from upstream agricultural fields, high nutrient legacies on-site, and rising salinities downstream. The effects of these stressors are exacerbated by an accelerating hydrologic cycle, expected to cause longer droughts punctuated by more severe storms. We used seven years of surface water and six years of soil solution water chemistry from a large (440 ha) restored wetland to examine how fertilizer legacy, changes in hydrology, and drought-induced salinization affect dissolved nutrient and carbon concentrations. To better understand the recovery trajectory of the restored wetland, we also sampled an active agricultural field and two mature forested wetlands. Our results show that nitrogen (N) and phosphorus (P) concentrations in soil solution were 2–10 times higher in the restored wetland compared to two mature forested wetlands, presumably due to legacy fertilizer mobilized by reflooding. Despite elevated nutrient concentrations relative to reference wetlands, the restored wetland consistently attenuated N and P pulses delivered from an upstream farm. Even with continued loading, N and P concentrations in surface water throughout the restored wetland have decreased since the initial flooding. Our results suggest that high nutrient concentrations and export from wetlands restored on agricultural lands may be a severe but temporary problem. If field to wetland conversion is to become a more widespread method for ameliorating nutrient runoff and adapting coastal plain ecosystems to climate change, we should adopt new methods for minimizing the initial export phase of wetland restoration efforts.

Usage Notes

Funding

National Science Foundation, Award: DEB-1021149, NSF DBI-0805576, DBI-1216512, DEB-1452886, DEB-1713592, EF-1426892, EF-1713435

Location

North Carolina