Hostname: page-component-586b7cd67f-t8hqh Total loading time: 0 Render date: 2024-11-29T01:08:43.871Z Has data issue: false hasContentIssue false

Evaluating the Physical Effects of Sport Climbing on Archaeological Sites

Published online by Cambridge University Press:  16 January 2017

Lael Suzann Henrikson
Affiliation:
Bureau of Land Management, Burley, Idaho ([email protected])
Amanda M. Camp
Affiliation:
Bureau of Land Management, Burley, Idaho ([email protected])

Abstract

A statistical analysis was conducted to evaluate whether sport climbing has contributed to de-vegetation at the base of basalt cliffs within the American Falls Archaeological District (AFAD), located along the Snake River in southern Idaho and currently managed by the Bureau of Land Management (BLM) and the U.S. Bureau of Reclamation (USBR). The increasing popularity of sport climbing has created challenging conflicts between public recreation and cultural resource protection. The loss of vegetation in the AFAD’s dune environment, from both recreation and natural processes, has already displaced and damaged significant archaeological resources. The Access Fund acknowledges that staging areas at the base of climbs are susceptible to vegetation loss and erosion, especially in arid environments. Since numerous “bare spots” occur under and along basalt cliffs throughout the AFAD, this analysis was designed to quantify these un-vegetated areas. The results of the analysis, which indicate that bare spots directly associated with climbing walls are significantly larger than those that appear to be natural, will be applied in management decisions regarding the protection and preservation of federally managed cultural resources within the AFAD. Hopefully, these results will assist other land management agencies in making proactive decisions regarding recreational use in archaeologically sensitive areas.

Se realizó un análisis estadístico para evaluar si los deportes de escalada han contribuido a la pérdida de vegetación de los acantilados de basalto en American Falls Archaeological District (AFAD), localizado a lo largo del río Snake en el sur de Idaho y que es actualmente administrado por las oficinas del Bureau of Land Management (BLM) y del Bureau of Reclamation (USBR). La creciente popularidad de los deportes de escalada han creado conflictos desafiantes para la recreación pública y la protección de los recursos culturales. La pérdida de vegetación en el medio ambiente de dunas del AFAD, por ambos procesos recreativos y naturales, ya ha desplazado y dañado recursos arqueológicos importantes. El Access Fund reconoce que las áreas de montaje al pie de los ascensos son susceptibles de pérdida de vegetación y de erosión, especialmente en los medios áridos. Dado que se presentan zonas desnudas debajo y a lo largo de los acantilados de basaltos de AFAD, este análisis se diseño para cuantificar estas áreas sin vegetación. Los resultados del análisis, que indican que las zonas desnudas asociadas a la subida de paredes son mucho más grandes que aquellas que parecen ser naturales , podrán implementarse en la toma de decisiones relacionadas a la protección y preservación de los recursos culturales federalmente administrados dentro de la AFAD. Ojalá, estos resultados ayuden a otras agencias dedicadas a la administración del territorio a tomar decisiones preventivas en torno a las actividades recreativas en áreas arqueológicamente sensibles.

Type
Research Article
Copyright
Copyright © Society for American Archaeology 2015

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

References Cited

Attarian, Aram 2008 Climbing Management: A Guide to Climbing Issues and the Development of a Climbing Management Plan. Electronic document, http://bit.ly/1B93T4C, accessed November 17, 2011.Google Scholar
Barr, D.A., and Mckenzie, J.B. 1976 Dune Stabilization in Queensland, Australia, Using Vegetation and Mulches. International Journal of Biometeorology. 20:18.Google Scholar
Bird, Michele 1995 Coastal Morphodynamics and the Archaeological Record: Further Evidence from Upstart Bay, North Queensland. Australian Archaeology 40:5758.Google Scholar
Camp, Amanda M., and Henrikson, L. Suzann 2012 Condition Assessment for the American Falls Archaeological District. Bureau of Land Management, Burley Field Office Report No. 2011-29. Report on file, Burley, Idaho.Google Scholar
Camp, Richard J., and Knight , Richard L. 1998a Effects of Rock Climbing on Cliff Plant Communities at Joshua Tree National Park, California. Conservation Biology 12:13021306.Google Scholar
Camp, Richard J., and Knight , Richard L. 1998bRock Climbing and Cliff Bird Communities at Joshua Tree National Park, California. Wildlife Society Bulletin 26:892898.Google Scholar
Drennan, Robert D. 1996 Statistics for Archaeologists: A Commonsense Approach. Plenum Press, New York.CrossRefGoogle Scholar
Easterbrook, Don J. 1999 Surface Processes and Landforms. 2nd ed. Prentice-Hall, Inc., New Jersey.Google Scholar
Erlandson, Jon M. Rick, Torben C. and Peterson, Curt 2005 A Geoarchaeological Chronology of Holocene Dune Building on San Miguel Island, California. The Holocene 15:12271235. Google Scholar
Farris, Michael A. 1998 The Effects of Rock Climbing on the Vegetation of Three Minnesota Cliff Systems. Canadian Journal of Botany 76:19811990.Google Scholar
Kandel, Andrew W., Felix-Henningsen, Peter, and Conard, Nicholas J. 2003 An Overview of the Spatial Archaeoogy of the Geelbek Dunes, Western Cape, South Africa. In Papers of the 1st International Conference on Archaeology and Soils, edited by Fuleky, G., pp. 3744, BAR International S1163, Oxford.Google Scholar
Lyon, Jason W. 2002 Castle Rock Addition Archaeological Survey. National Park Service Report NEPE-CRM 01-5. Report on file, NPS Pacific West Regional Office. Seattle.Google Scholar
McMillan, Michele A., and Larson , Douglas W. 2002 Effects of Rock Climbing on the Vegetation of the Niagara Escarpment in Southern Ontario, Canada. Conservation Biology 16:389398.Google Scholar
Makley, Matthew S., and Makley , Michael J. 2010 Cave Rock: Climbers, Courts, and a Washoe Indian Sacred Place. University of Nevada Press, Reno, Nevada.Google Scholar
Mayer, James H. 2002 Evaluating Natural Site Formation Processes in Eolian Dune Sands: A Case Study from the Krmpotich Folsom Site, Killpecker Dunes, Wyoming. Journal of Archaeological Science 29:11991211.Google Scholar
Müller, Stephan W., Rusterholz, Hans-Peter, and Baur, Bruno 2004 Rock Climbing Alters the Vegetation of Limestone Cliffs in the Northern Swiss Jura Mountains. Canadian Journal of Botany 82:862870.Google Scholar
National Park Service (NPS) 2012 Rock Outcrop Management Plan Environmental Assessment/Assessment of Effect. Shenandoah National Park, Virginia. Electronic document, http://parkplanning.nps.gov/projectHome.cfm?projectID=19298, accessed March 7, 2012.Google Scholar
Rossillon, Mitzi 2010 American Falls Archaeological Site Condition Assessment. RTI Technical Report submitted to U.S. Bureau of Reclamation. Report on file, U.S. Bureau of Reclamation, Boise, Idaho.Google Scholar
Spurlock, Dan, and Spurlock, Pat 1999 Massacre Rocks Climbing Guide. Electronic document, http://www.seiclimbing.com/?page_id=45, accessed August 15, 2011.Google Scholar
United States Court of Appeals for the Ninth Circuit (USCA Ninth Circuit) 2007 Access Fund v. U.S. Dept. of Agriculture. 499 F.3d 1036.Google Scholar
United States District Court for the District of Wyoming (USDC Wyoming) 1998 Bear Lodge Multiple Use Association v. Babbit 2 F, Supp. 2d 1448.Google Scholar
United States National Archives and Records Administration 1987 Code of Federal Regulations. Title 43: Public Lands: Interior, Part 2920: Leases, Permits and Easements: General Provisions, 43 CFR § 2920.0-5(k).Google Scholar
Wood, Kerry T., Lawson, Steven R., and Marion, Jeffrey L. 2006 Assessing Recreation Impacts to Cliffs in Shenandoah National Park: Integrating Visitor Observation with Trail and Recreation Site Measurements. Journal of Park and Recreation Administration 24(4):86110.Google Scholar