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Relationship between the natural abundance of soil nitrogen isotopes and condition in North Dakota wetlands
Citation:
Meyers, L., A. Nahlik, AND E. DeKeyser. Relationship between the natural abundance of soil nitrogen isotopes and condition in North Dakota wetlands. ECOLOGICAL INDICATORS. Elsevier Science Ltd, New York, NY, 60:394-401, (2016).
Impact/Purpose:
The authors of this manuscript intend to send it to Ecological Indicators for review and publication. This manuscript presents results from soil nitrogen isotope (δ15N) data collected as part of the North Dakota statewide intensification of the U.S. Environmental Protection Agency’s National Wetland Condition Assessment (NWCA). Wetland soil δ15N are currently being investigated as a research indicator in the NWCA. This manuscript provides the first look at the utility of soil nitrogen isotopes in large-scale assessments. Specifically, wetland soil δ15N was significantly higher (isotopically heavier) in wetlands surrounded by cropland compared to those surrounded by idle or grazed/hayed grasslands, possibly reflecting anthropogenic impacts and multiple nitrogen sources. Soil δ15N was significantly correlated with floristic quality and other independent measurements of condition – indicating that soil δ15N values may be representative of wetland condition. This study is the first step in exploring the potential applications of wetland soil nitrogen isotopes regarding wetland assessment and surrounding land use and provides important insight for future studies. In addition, it provides support for continuing the use and research of wetland soil δ15N in future NWCA surveys.
Description:
A statewide condition assessment of North Dakota wetlands in the summer of 2011 was conducted as part of the U.S. Environmental Protection Agency’s National Wetland Condition Assessment (NWCA). Two other wetland condition assessments, the Index of Plant Community Integrity (IPCI) and North Dakota Rapid Assessment Method (NDRAM), were also completed at each wetland. Previous studies have identified how the distinct signatures of stable isotopes can be used to determine different land uses, anthropogenic impacts, nutrient cycling, and biological processes. To evaluate if these relationships existed in northern prairie wetlands, the data collected from the wetland assessments were compared with the natural abundance of soil nitrogen (δ15N) isotopes. Wetland soil δ15N was significantly higher (isotopically heavier) in wetlands surrounded by cropland compared to those surrounded by idle or grazed/hayed grasslands, possibly reflecting anthropogenic impacts and multiple nitrogen sources. Soil δ15N was significantly correlated with floristic quality, IPCI scores, NDRAM scores, and average buffer width, indicating that soil δ15N values may be representative of wetland condition. Soil δ15N exhibited significant differences among wetland types, although limited sample sizes of certain wetland types may have affected this result. Additional studies on the natural abundance of wetland soil isotopes need to be performed in northern prairie wetlands. This study is the first step in exploring the potential applications of wetland soil nitrogen isotopes regarding wetland assessment and surrounding land use and provides important insight for future studies.
