For more information about National Park Service air resources, please visit http://www.nature.nps.gov/air/.
Studies and Monitoring
Rocky Mountain National Park
Rocky Mountain National Park (NP), Colorado, has its own unique environmental concerns based on its particular ecology. Studies at Rocky Mountain NP focus on: atmospheric deposition of nitrogen and sulfur, critical loads development and application, ozone injury to plants, and the biological effects of airborne contaminants. Click on the tabs below to review air quality studies and current air quality monitoring at Rocky Mountain NP, as well as to access air quality data.
- Studies & Projects
- Monitoring & Data
- Key References
Ongoing research in Rocky Mountain NP, Colorado:
Long-term research in Rocky Mountain NP has found that, over time, increasing amounts of atmospheric deposition of nitrogen has caused changes in the plant communities and chemistry of alpine lakes (Baron 2006), and in the chemistry of vegetation and soils in spruce forests (Rueth et al. 2002). Ongoing research indicates that nitrogen deposition is now also at a level known to affect alpine plant community composition in adjacent alpine communities (Bowman 2006). The earliest of these documented changes began in the 1950s, when nitrogen deposition from rain and snow was about 1.5 kilograms per hectare per year; the “critical load” according to scientists. Reducing nitrogen deposition to below the critical load is a park management goal, and is a goal for the Rocky Mountain NP Initiative to protect and restore natural resources at the park (Porter and Johnson 2007). Results from the related Rocky Mountain Nitrogen and Sulfur Study shed light on understanding the origins of emissions currently affecting ecosystems and visibility at Rocky Mountain NP, further exploring how emission controls or reduction strategies can help mitigate pollution effects. (Source: overview fact sheet [pdf, 214 KB]; NPS 2004 [pdf, 614 KB]). For example, state and federal agencies are working with agricultural producers to foster voluntary ammonia best management practices (pdf, 475 KB) because fertilized crops and livestock production contribute to the nitrogen impacts at Rocky Mountain NP.
Airborne Toxic Contaminants Impacts
Air currents transport contaminants such as pesticides, industrial pollutants, and heavy metals from their sources, and deposit these toxics in rain, snow, and dryfall in the park. Airborne contaminants in fish, vegetation, snow, and lake sediments were analyzed for the Western Airborne Contaminants Assessment Project. Different airborne contaminants including historic- and current-use pesticides, the flame retardant PBDE, and mercury were detected in the park. Ongoing research is examining whether such contaminants may be a contributing factor to reproduction disruption in some park fish.
Ground-Level Ozone Impacts
During the summer months, ground-level ozone sometimes reaches harmful levels for visitors to Rocky Mountain NP. On days when ozone levels are expected to be high, the park issues health alerts advising visitors to limit their activity (Health Advisories Issued for National Parks). In addition to affecting humans, ozone harms plants. Ongoing surveys at the park reveal ozone injury on sensitive plants (project summary [pdf, 98 KB]), suggesting the harm ozone induces upon plants as well.
Air quality monitoring information and data access:
Sites and Data Access
|Nitrogen||Wet deposition NADP/NTN|
|Dry deposition CASTNet|
Abbreviations in the above table:
CASTNet: EPA Clean Air Status and Trends Network
GPMP: Gaseous Pollutant Monitoring Program
IMPROVE: Interagency Monitoring of Protected Visual Environments
NADP: National Atmospheric Deposition Program
NPS: National Park Service
NTN: National Trends Network
VIEWS: Visibility Information Exchange Web System
WACAP: Western Airborne Contaminants Assessment Project
Key air quality related references from Rocky Mountain NP, Colorado:
Baron, J.S., Rueth, H.M., Wolfe, A.N., Nydick, K.R., Allstott, E.J., Minear, J.T., Moraska, B. 2000. Ecosystem responses to nitrogen deposition in the Colorado Front Range. Ecosystems 3: 352–368.
Baron, J.S. 2006. Hindcasting Nitrogen Deposition to Determine an Ecological Critical Load. Ecological Applications 16(2): 433–439.
Bowman, W.D., Gartner, J.R., Holland, K., Wiedermann, M. 2006. Nitrogen Critical Loads for Alpine Vegetation and Terrestrial Ecosystem Response: Are We There Yet? Ecological Applications 16(3):
[IMPROVE] Interagency Monitoring of Protected Visual Environments. 2010. Improve Summary Data. Available at http://vista.cira.colostate.edu/improve/Data/IMPROVE/summary_data.htm.
Landers, D.H., Simonich, S.M., Jaffe, D.A., Geiser L.H., Campbell, D.H., Schwindt, A.R., Schreck, C.B., Kent, M.L., Hafner, W.D., Taylor, H.E., Hageman, K.J., Usenko, S., Ackerman, L.K., Schrlau, J.E., Rose, N.L., Blett, T.F., and Erway, M.M. 2008. The Fate, Transport, and Ecological Impacts of Airborne Contaminants in Western National Parks (USA). EPA/600/R-07/138. U.S. Environmental Protection Agency, Office of Research and Development, NHEERL, Western Ecology Division, Corvallis, Oregon. Available at http://www.nature.nps.gov/air/studies/air_toxics/WACAPreport.cfm.
Landers, D.H., Simonich, S.M., Jaffe, D.A., Geiser L.H., Campbell, D.H., Schwindt, A.R., Schreck, C.B., Kent, M.L., Hafner, W.D., Taylor, H.E., Hageman, K.J., Usenko, S., Ackerman, L.K., Schrlau, J.E., Rose, N.L., Blett, T.F., and Erway, M.M. 2010. The Western Airborne Contaminant Assessment Project (WACAP): An Interdisciplinary Evaluation of the Impacts of Airborne Contaminants in Western U.S. National Parks. Environmental Science and Technology. Vol 44: 855–859.
[NPS] National Park Service. 2004. Nitrogen Deposition: Issues and Effects in Rocky Mountain National Park. Technical Background Document. Available at http://www.cdphe.state.co.us/ap/rmnp/noxtech.pdf
(pdf, 614 KB).
Porter, E. and Johnson, S. 2007. Translating science into policy: Using ecosystem thresholds to protect resources in Rocky Mountain National Park. Environmental Pollution 149: 268–280.
Rueth, H.M. and Baron, J.S. 2002. Differences in Englemann spruce forest biogeochemistry east and west of the Continental Divide in Colorado, USA. Ecosystems 5:45–57.
Wolfe, A.P., Baron, J. S., Cornett, J.S. 2001. Anthropogenic nitrogen deposition induces rapid ecological changes in alpine lakes of the Colorado Front Range (USA). Journal of Paleolimnology 25: 1–7.
Pollutants including nitrogen, toxics, ozone, and fine particles affect resources such as lakes, soils, and scenic vistas. Find out how on our Rocky Mountain NP Air Pollution Impacts web page.
Last Updated: February 03, 2016