Abstract
To mitigate the adverse environmental impact of forest roads, especially degradation of endangered salmonid habitat, many public and private land managers in the western United States are actively decommissioning roads where practical and affordable. Road decommissioning is associated with reduced long-term environmental impact. When decommissioning a road, it may be possible to recover some aggregate (crushed rock) from the road surface. Aggregate is used on many low volume forest roads to reduce wheel stresses transferred to the subgrade, reduce erosion, reduce maintenance costs, and improve driver comfort. Previous studies have demonstrated the potential for aggregate to be recovered and used elsewhere on the road network, at a reduced cost compared to purchasing aggregate from a quarry. This article investigates the potential for aggregate recycling to provide an economic incentive to decommission additional roads by reducing transport distance and aggregate procurement costs for other actively used roads. Decommissioning additional roads may, in turn, result in improved aquatic habitat. We present real-world examples of aggregate recycling and discuss the advantages of doing so. Further, we present mixed integer formulations to determine optimal levels of aggregate recycling under economic and environmental objectives. Tested on an example road network, incorporation of aggregate recycling demonstrates substantial cost-savings relative to a baseline scenario without recycling, increasing the likelihood of road decommissioning and reduced habitat degradation. We find that aggregate recycling can result in up to 24% in cost savings (economic objective) and up to 890% in additional length of roads decommissioned (environmental objective).
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Allison C, Sidle RC, Tait D (2004) Application of decision analysis to forest road deactivation in unstable terrain. Environmental Management 33(2):173–185
Anderson AE, Nelson JD, D’Eon RG (2006) Determining optimal road class and road deactivation strategies using dynamic programming. Canadian Journal of Forest Research 36(6):1509–1518
Brown C, Sessions J (1999) Variable tire pressure for tropical forests? A synthesis of concepts and applications. Journal of Tropical Forest Science 11(2):380–400
Eschenbach EA, Teasley R, Diaz C, Madej MA (2005) Decision support for road decommissioning and restoration using genetic algorithms and dynamic programming. In: Redwood Science Symposium: what does the future hold? USDA Forest Service General Technical Report PSW-GTR-194
Flanagan SA, Furniss MJ, Ledwith TS, Thiesen S, Love M, Moore K, Ory J (1998) Methods for inventory and environmental risk assessment of road drainage crossings. USDA Forest Service Pacific Southwest Region, San Dimas, CA, 45 pp
Foltz R, Burroughs E (1991) A test of normal tire pressure and reduced tire pressures on forest roads: sedimentation effects. In: Proceedings, forestry and environmental solutions, ASAE, New Orleans, pp 103–112
Foltz R, Truebe M (2003) Locally available aggregate and sediment production. Transportation Research Record 1819, Paper No. LVR8-1050
Forman RTT, Alexander LE (1998) Roads and their major ecological effects. Annual Review of Ecology and Systematics 29:207–231
Furniss MJ, Roelofs TD, Yee CS (1991) Road construction and maintenance. Influences of forest and rangeland management on salmonid fishes and their habitats. American Fisheries Society Special Publication 19. Bethesda, MD, pp 297–323
Gallo K, Lanigan SH, Eldred P, Gordon SN, Moyer C (2005) Northwest forest plan: the first 10 years (1994–2003). Preliminary assessment of the condition of watersheds. General technical report PNW-GTR-647. U.S. Department of Agriculture Forest Service, Pacific Northwest Research Station, Portland, Oregon
Girvetz E, Shilling F (2003) Decision support for road system analysis and modification on the Tahoe National Forest. Environmental Management 32(2):218–223
Gucinski H, Furniss MJ, Ziemer RR, Brookes MH (2001) Forest roads: a synthesis of scientific information. General Technical Report PNW-GTR-509. US Department of Agriculture, Forest Service, Pacific Northwest Research Station, Portland, OR
Harr RD, Nichols RA (1993) Stabilizing forest roads to help restore fish habitats: a northwest Washington example. Fisheries 18:18–22
Heller D (2002) A new paradigm for salmon and watershed restoration. In: Proceedings of the 13th international salmonid enhancement workshop: 16–19 September 2002, Hotel Westport, Westport, Co. Mayo, Ireland
Hicks BJ, Hall JD, Bisson PA, Sedell JR (1991) Responses of salmonids to habitat changes. In: Meehan WR (ed) Influences of forest and rangeland management on salmonid fishes and their habitats, Ch. 14. American Fisheries Society Special Publication 19. Bethesda, MD, pp 483–518
Jones JA, Swanson FJ, Wemple BC, Snyder KU (2000) Effects of roads on hydrology, geomorphology, and disturbance patches in stream networks. Conservation Biology 14(1):76–85
Kirby M, Lowe RJ (1975) Optimal policies for transporting rock to low-volume roads. Low volume roads, Special Report 160. Transportation Research Board, National Research Council, National Academy of Sciences, Washington, DC, pp 296–301
Kolka RK, Smidt MF (2004) Effects of forest road amelioration techniques on soil bulk density, surface runoff, sediment transport, soil moisture and seedling growth. Forest Ecology and Management 202:313–323
Luce CH, Black TA (1999) Sediment production from forest roads in western Oregon. Water Resources Research 35(8):2561–2570
Luce CH, Rieman BE, Dunham JB, Clayton JL, King JG, Black TA (2001) Incorporating aquatic ecology into decisions on prioritization of road decommissioning. Water Resources Impact 3:8–14
Lugo AE, Gucinski H (2000) Function, effects, and management of forest roads. Forest Ecology and Management 133:249–262
Madej MA (2001) Erosion and sediment delivery following removal of forest roads. Earth Surface Processes and Landforms 26:175–190
Madej MA, Eschenbach EA, Diaz C, Teasley R, Baker K (2006) Optimization strategies for sediment reduction practices on roads in steep, forested terrain. Earth Surface Processes and Landforms 31:1643–1656
Newcombe CP, MacDonald DD (1991) Effects of suspended sediments on aquatic ecosystems. North American Journal of Fisheries Management 11:72–82
Reeves GH, Williams JE, Burnett KM, Gallo K (2006) The aquatic conservation strategy of the northwest forest plan. Conservation Biology 20(2):319–329
Reid LM, Dunne T (1984) Sediment Production from Forest Road Surfaces. Water Resources Research 20(11):1753–1761
Sample VA, Price W, Donnay JS, Mater CM (2007) National Forest Certification Study. Pinchot Institute for Conservation. http://www.pinchot.org/current_projects/forest_cert/certification
Sessions J, Boston K, Thoreson R, Mills K (2006) Optimal policies for managing aggregate resources on temporary forest roads. Western Journal of Applied Forestry 21(4):207–216
Switalski TA, Bissonette JA, DeLuca TH, Madej MA (2004) Benefits and impacts of road removal. Frontiers in Ecology and the Environment 2(1):21–28
Thompson M, Tomberlin D (2005) Erosion control on logging roads. Institute for Operations Research and Management Sciences (INFORMS) 2005 Annual Meeting: Ecologies. Economies and Operations Research, San Francisco, CA
Tomberlin D, Baxter WT, Ziemer RR, Thompson M (2002) Logging roads and aquatic habitat protection in the California redwoods. Poster. 2002 SAF National Convention, 5–9 October 2002, Winston-Salem, NC. http://www.fs.fed.us/psw/rsl/projects/water/Tomberlin.pdf
Trombulak SC, Frissell CA (2000) Review of ecological effects of roads on terrestrial and aquatic communities. Conservation Biology 14:18–30
Weaver W, Hagans D (1999) Storm-Proofing Forest Roads. In: Proceedings of the international mountain logging and 10th Pacific Northwest Skyline Symposium, Oregon State University, Department of Forest Engineering and International Union of Forestry Research Organizations, Corvallis, OR. March 28–April 1, 1999, pp 230–245
Weaver W, Hagans D (2007) Road upgrading, decommissioning and maintenance—estimating costs on small and large scales. http://www.st.nmfs.gov/st5/Salmon_Workshop/10_Weaver_and_Hagans.pdf (Last accessed: 12-22-2007)
USDA Forest Service (1999) Roads analysis: informing decisions about managing the national forest transportation system. Misc. Rep. FS-643. Washington DC
USDA Forest Service (2001) Road management policy website. http://www.fs.fed.us/eng/road_mgt/policy.shtml
USDA Forest Service (2002) Road management website. http://www.fs.fed.us/eng/road_mgt/overview.shtml
Acknowledgments
Numerous individuals contributed to this article, for which we are grateful. We would like to thank two anonymous reviewers, Randy Foltz of the USDA Forest Service, and the associate editor for their constructive and helpful comments. We would also like to thank Jennie Cornell of the Washington State Department of Natural Resources, Mark Karr from the Umpqua National Forest, and Tom Kollasch from the Nature Conservancy for providing data from real-world instances of aggregate recycling. Tom Erkert and Mark Truebe of the USDA Forest Service provided invaluable insight into the opportunities for aggregate recycling on national forests. Dave Young of the OSU Research Forest office provided helpful information regarding road management on the McDonald-Dunn Forest. The primary author completed work on this article while a graduate student at Oregon State University as a recipient of the Wes and Nancy Lematta Fellowship and the Dorothy M. Hoener Fellowship.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Thompson, M., Sessions, J. Optimal Policies for Aggregate Recycling from Decommissioned Forest Roads. Environmental Management 42, 297–309 (2008). https://doi.org/10.1007/s00267-008-9136-0
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00267-008-9136-0