Publications by authors named "Linda H Geiser"
The DeLong Mountain Transportation System (DMTS) haul road links the Red Dog Mine-one of the world's largest zinc mines-with a shipping port on the Chukchi Sea in northwest Alaska, USA. The road traverses 32 km of National Park Service (NPS) lands managed by Cape Krusenstern National Monument (CAKR). Fugitive dusts from ore concentrate transport and mining operations have dispersed zinc (Zn), lead (Pb), cadmium (Cd), and metal sulfides onto NPS lands since the mine began operating in 1989.
View Article and Find Full Text PDFCritical loads are thresholds of atmospheric deposition below which harmful ecological effects do not occur. Because lichens are sensitive to atmospheric deposition, lichen-based critical loads can foreshadow changes of other forest processes. Here, we derive critical loads of nitrogen (N) and sulfur (S) deposition for continental US and coastal Alaskan forests, based on nationally consistent lichen community surveys at 8855 sites.
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- Atmospheric nitrogen and sulfur pollution from fossil fuels and agriculture has negatively impacted many plant species in the U.S., despite some recent reductions in emissions.
- A study involving over 14,000 survey sites revealed that 70% of herbaceous plant species are adversely affected by nitrogen and sulfur deposition, with 15% of species declining consistently at low deposition rates.
- The findings indicate that certain vulnerable native species are at greater risk, highlighting the need for improved air quality policies to protect diverse plant communities.
Critical loads of atmospheric deposition help decision-makers identify levels of air pollution harmful to ecosystem components. But when critical loads are exceeded, how can the accompanying ecological risk be quantified? We use a 90% quantile regression to model relationships between nitrogen and sulfur deposition and epiphytic macrolichens, focusing on responses of concern to managers of US forests: Species richness and abundance and diversity of functional groups with integral ecological roles. Analyses utilized national-scale lichen survey data, sensitivity ratings, and modeled deposition and climate data.
View Article and Find Full Text PDFUnlabelled: We provide updated spatial distribution and inventory data for on-road NH emissions for the continental United States (U.S.) On-road NH emissions were determined from on-road CO emissions data and empirical NH:CO vehicle emissions ratios.
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- In 2001 and 2006, researchers studied zinc (Zn), lead (Pb), and cadmium (Cd) levels in Hylocomium moss near the Red Dog Mine haul road in Alaska, finding that metal concentrations decreased logarithmically with distance from the road and marine port.
- A comparison of data from both years showed that by 2006, Zn and Pb levels dropped by 31-54% in areas closest to the haul road, while Cd saw a significant 38% decrease immediately adjacent to the road.
- The results indicated that, despite improvements in infrastructure to control dust emissions from mining operations, elevated metal concentrations persisted within 5,000 meters of the haul road.
Atmospheric nitrogen (N) deposition has been shown to decrease plant species richness along regional deposition gradients in Europe and in experimental manipulations. However, the general response of species richness to N deposition across different vegetation types, soil conditions, and climates remains largely unknown even though responses may be contingent on these environmental factors. We assessed the effect of N deposition on herbaceous richness for 15,136 forest, woodland, shrubland, and grassland sites across the continental United States, to address how edaphic and climatic conditions altered vulnerability to this stressor.
View Article and Find Full Text PDFCritical loads (CLs) define maximum atmospheric deposition levels apparently preventative of ecosystem harm. We present first nitrogen CLs for northwestern North America's maritime forests. Using multiple linear regression, we related epiphytic-macrolichen community composition to: 1) wet deposition from the National Atmospheric Deposition Program, 2) wet, dry, and total N deposition from the Communities Multi-Scale Air Quality model, and 3) ambient particulate N from Interagency Monitoring of Protected Visual Environments (IMPROVE).
View Article and Find Full Text PDFAgriculture releases copious fertilizing pollutants to air sheds and waterways of the northwestern United States. To evaluate threats to natural resources and historic rock paintings in remote Hells Canyon, Oregon and Idaho, deposition of ammonia (NH3), nitrogen oxides (NOx), sulfur dioxide (SO2), and hydrogen sulfide (H2S) at five stations along 60 km of the Snake River valley floor were passively sampled from July 2002 through June 2003, and ozone data and particulate chemistry were obtained from the Interagency Monitoring of Protected Visual Environments (IMPROVE) station at Hells Canyon. NH3 concentrations were high; biweekly averages peaked at 5-19 ppb in spring and summer and the nutrient-laden Snake River is a likely source.
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- - Human activities are negatively impacting air quality and climate in the US Pacific Northwest, prompting a study using advanced modeling techniques to understand these effects on lichen communities across 1,416 forest plots.
- - The study identified that the worst air quality scores were found in urban-industrial and agricultural areas, contributing to significant changes in lichen populations, such as the absence of sensitive species and an increase in nitrophilous lichens.
- - Future temperature projections for 2040 suggest the creation of new climate zones that don't currently exist, and the model developed can help track ongoing changes in air quality and climate by scoring future measurements.