Abstract
To protect important resources under their bureau’s purview, the United States National Park Service’s (NPS) Arctic Network (ARCN) has developed a series of “vital signs” that are to be periodically monitored. One of these vital signs focuses on wet and dry deposition of atmospheric chemicals and further, the establishment of critical load (CL) values (thresholds for ecological effects based on cumulative depositional loadings) for nitrogen (N), sulfur, and metals. As part of the ARCN terrestrial monitoring programs, samples of the feather moss Hylocomium splendens are being collected and analyzed as a cost-effective means to monitor atmospheric pollutant deposition in this region. Ultimately, moss data combined with refined CL values might be used to help guide future regulation of atmospheric contaminant sources potentially impacting Arctic Alaska. But first, additional long-term studies are needed to determine patterns of contaminant deposition as measured by moss biomonitors and to quantify ecosystem responses at particular loadings/ ranges of contaminants within Arctic Alaska. Herein we briefly summarize 1) current regulatory guidance related to CL values 2) derivation of CL models for N and metals, 3) use of mosses as biomonitors of atmospheric deposition and loadings, 4) preliminary analysis of vulnerabilities and risks associated with CL estimates for N, 5) preliminary analysis of existing data for characterization of CL values for N for interior Alaska and 6) implications for managers and future research needs.
Highlights
The United States National Park Service’s (NPS) Arctic Network (ARCN) is currently developing “vital signs” [1] that address resource management objectives under their bureau’s purview
One of the ARCN’s vital signs is a multifaceted indicator, “Wet and Dry Deposition of Various Pollutants” which intends to examine airborne depositional trends and patterns, and ecological effects associated with deposition of nitrogen (N), sulfur, metals and semi-volatile organic compounds (SVOCs)
Moss data combined with refined CL values could be used to help guide future regulation of atmospheric contaminant sources potentially impacting Arctic Alaska; additional research will be needed before that can occur
Summary
Comparisons between biologically incorporated contaminants in moss biomonitors and depositional loads (as measured by instrumental monitors or abiotic passive samplers); and more importantly to presumptive CLs, would enable NPS to more accurately predict the potential for ecological effects based on moss sampling. We briefly summarize 1) current regulatory guidance related to CL’s of pollutant deposition; 2) derivation of CL models for N and metals; 3) use of mosses as biomonitors of atmospheric deposition or loads of nitrogen, sulfur, and metals; 4) a preliminary analysis of vulnerabilities and risks associated with CL estimates for N; 5) a preliminary analysis of existing data for characterization of CLs for N at Alaska monitoring stations; and 6) implications for managers and future research needs. Our review focuses on arctic, sub-arctic, and boreal zones of Alaska which hopefully will benefit developing resource management plans reliant on monitoring activities conducted by NPS and other agencies here and elsewhere
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