Abstract
Vegetation management is a critical component of rights-of-way (ROW) maintenance for preventing electrical outages and safety hazards resulting from tree contact with conductors during storms. Northeast Utility’s (NU) transmission lines are a critical element of the nation’s power grid; NU is therefore under scrutiny from federal agencies charged with protecting the electrical transmission infrastructure of the United States. We developed a decision support system to focus right-of-way maintenance and minimize the potential for a tree fall episode that disables transmission capacity across the state of Connecticut. We used field data on tree characteristics to develop a system for identifying hazard trees (HTs) in the field using limited equipment to manage Connecticut power line ROW. Results from this study indicated that the tree height-to-diameter ratio, total tree height, and live crown ratio were the key characteristics that differentiated potential risk trees (danger trees) from trees with a high probability of tree fall (HTs). Products from this research can be transferred to adaptive right-of-way management, and the methods we used have great potential for future application to other regions of the United States and elsewhere where tree failure can disrupt electrical power.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Achim A, Ruel JC, Gardiner BA, Laflamme G, Meunier S (2005) Modelling the vulnerability of balsam fir forests to wind damage. Forest Ecology and Management 204:35–50
Anderson SH, Mann K, Shugart HH (1977) The effect of transmission line corridors on bird populations. American Midland Naturalist 97:216–221
Bramble WC, Byrnes WR (1976) Development of a stable low plant cover on a utility right-of-way. In: Tillman RE (ed) Proceedings of the first national symposium on environmental concerns in rights-of-way management. Mississippi State University, Mississippi State, pp 167–176
Breiman L (2001) Random forests. Machine Learning 45:5–32
Breiman L, Freidman JH, Olshen RA, Stone CJ (1984) Classification and regression trees. Wadsworth, Belmont, CA
Brüchert F, Gardiner B (2006) The effect of wind exposure on the tree aerial architecture and biomechanics of Sitka spruce (Picea stichensis, Pinaceae). American Journal of Botany 93:1512–1521
Byler JW, Marsden MA, Hagle SK (1990) The probability of root disease on the Lolo National Forest, Montana. Canadian Journal of Forest Research 20(7):987–994
Canham CD, Papaik MJ, Latty EF (2001) Interspecific variation in susceptibility to windthrow as a function of tree size and storm severity for northern temperate tree species. Canadian Journal of Forest Research 31:1–10
Chiba Y (2000) Modelling stem breakage caused by typhoons in plantation Cryptomeria japonica forests. Forest Ecology and Management 135:123–131
Cronon W (1983) Changes in the land: Indians, colonists, and the ecology of New England. Hill and Wang, New York
ESRI Inc. (2007) ESRI ArcMap, version 9.2. ESRI, Redlands, CA
Evans AM, Gregoire TG (2006) A geographically variable model of HWA spread. Biological Invasions 8:1–14
Evans AM, Camp AE, Tyrell ML, Reily CC (2007) Biotic and abiotic influences on wind disturbance in forests of NW Pennsylvania, USA. Forest Ecology and Management 245:44–53
Foster DR (1988a) Species and stand response to catastrophic wind in central New England, USA. Journal of Ecology 76:135–151
Foster DR (1988b) Disturbance history, community organization, and vegetation dynamics of the old-growth Pisgah forest, southwestern New Hampshire, USA. Journal of Ecology 76:105–134
Foster DR (1992) Land-use history (1730–1990) and vegetation dynamics in central New England, USA. Journal of Ecology 80:753–772
Gardiner BA, Quine CP (2000) Management of forests to reduce the risk of abiotic damage—a review with particular reference to the effects of strong winds. Forest Ecology and Management 135:261–277
Gilman EF, Masters F, Grabosky JC (2008) Pruning affects tree movement in hurricane force wind. Arboriculture and Urban Forestry 34(1):20–28
Glitzenstein JS, Harcombe PA (1986) Effects of the December 1983 tornado on forest vegetation of the Big Thicket, southeast Texas, USA. Forest Ecology and Management 25:269–290
Gove JH, Ducey MJ, Stahl G, Ringvall A (2001) Point relascope sampling: a new way to assess downed coarse woody debris. Journal of Forestry 99(4):4–11
Guggenmoos S (2003) Effects of tree mortality on power line security. Journal of Arboriculture 29:181–196
Guggenmoos S, Sullivan TE (2007) Outside right-of-way tree risk along electrical transmission lines. http://www.utilityarborist.org/professional_resources.htm
Henry JD, Swan JMA (1974) Reconstructing forest history form live and dead plant material—an approach to the study of forest succession in southwest New Hampshire. Ecology 55:772–783
Johnson WC, Schreiber RK, Burgess RL (1979) Diversity of small mammals in a powerline right-of-way and adjacent forest in east Tennessee. American Midland Naturalist 101:231–255
Jonsson MJ, Foetzki A, Kalberer M, Lundström T, Stöckli V (2007) Natural frequencies and damping ratios of Norway spruce (Picea abies (L.) Karst) growing on subalpine forested slopes. Trees 21:541–548
Kamimura K, Gardiner B, Kato A, Hiroshima T, Shiraishi N (2008) Developing a decision support approach to reduce wind damage risk—a case study on sugi (Cryptomeria japonica (Lf) D Don) forests in Japan. Forestry 81(3):429–446
King DI, Byers BE (2002) An evaluation of powerline rights-of-way as habitat for early-successional shrubland birds. Wildlife Society Bulletin 30:868–874
Liaw A, Wiener M (2002) Classification and regression by random forest. R News 2/3:18–22
Marks PL, Gardescu S, Hitzhusen GE (1999) Windstorm damage and age structure in an old growth forest in central New York. Northeastern Naturalist 6:156–176
McCune B, Grace JB (2004) Analysis of ecological communities. MJM Software Designs, Glenden Beach, OR
Miller J, Franklin J (2002) Modeling the distribution of four vegetation alliances using generalized linear models and classification trees with spatial dependence. Ecological Modeling 157:227–247
Mitchell SJ, Hailemariam T, Kulis Y (2001) Empirical modeling of cutblock edge windthrow risk on Vancouver Island, Canada, using stand level information. Forest Ecology and Management 154:117–130
Moore JR, Maguire DA (2005) Natural sway frequencies and damping ratios of trees: influence of crown structure. Trees 19:363–373
Niering WA, Egler FE (1955) A shrub community of Viburnum lentago, stable for twenty-five years. Ecology 36:356–360
Niering WA, Goodwin RH (1974) Creation of relatively stable shrublands with herbicides: arresting “succession” on rights-of-way and pastureland. Ecology 55(4):784–795
Niering WA, Dreyer GD, Egler FE, Anderson JP (1986) Stability of a Viburnum lentago shrub community after 30 years. Bulletin of the Torrey Botanical Club 113(1):23–27
Olofsson E, Blennow K (2005) Decision support for identifying spruce forest stand edges with high probability of wind damage. Forest Ecology and Management 207:87–98
Peltola H (2006) Mechanical stability of trees under static loads. American Journal of Botany 93(10):1501–1511
Peltola H, Kellomäki S, Väisänen H, Ikonen VP (1999) A mechanistic model for assessing the risk of wind and snow damage to single trees and stands of Scots pine, Norway spruce, and birch. Canadian Journal of Forest Research 29:647–661
Peterson CJ, Pickett STA (1991) Treefall and resprouting following catastrophic windthrow in an old-growth hemlock–hardwoods forest. Forest Ecology and Management 42:205–218
Poulos HM (2009) Mapping fuels in the Chihuahuan Desert borderlands using remote sensing, geographic information systems, and biophysical modeling. Canadian Journal of Forest Research 39:1917–1927
R Development Core Team (2007) R: a language and environment for statistical computing. R Foundation for Statistical Computing, Vienna. Accessed 8 Dec 2007
Raup HM (1966) A view from John Sandersons’ farm. Harvard Forestry Bulletin No. 44
Rees WT Jr, Birx TC, Neal DL, Summerson CJ, Tiburzi FL Jr, Thurber JA (1994) Priority trimming to improve reliability. In: ISA conference presentation, Halifax, Nova Scotia
Scott RE, Mitchell SJ (2005) Empirical modelling of windthrow risk in partially harvested stands using tree, neighbourhood, and stand attributes. Forest Ecology and Management 218:193–209
Shanks RE (1954) Plotless sampling trials in Appalachian forest types. Ecology 35(2):237–244
Shi T, Horvath S (2006) Unsupervised learning with random forest predictors. Journal of Computational and Graphical Statistics 15:118–138
Siccama TG, Weir G, Wallace K (1976) Ice damage in a mixed hardwood forest in Connecticut in relation to Vitis infestation. Bulletin of the Torrey Botanical Club 103:180–183
Simpson P, Van Bossuyt R (1996) Tree-caused electric outages. Journal of Arboriculture 22:117–121
Sinton DS, Jones JA, Ohmann JL, Swanson FJ (2000) Windthrow disturbance, forest composition, and structure in the Bull Run basin, Oregon. Ecology 81(9):2539–2556
Smallidge PJ, Leopold DJ, Allen CM (1996) Community characteristics and vegetation management of Karner blue butterfly (Lycaeides Melissa samuelis) habitats on rights-of-way in east-central New York, USA. Journal of Applied Ecology 33:1405–1419
Smith DM (1946) Wind damage in New England forests. M.F. Thesis, Yale University
Smith DM (1997) The practice of silviculture: applied forest ecology, 9th edn. Wiley, New York, p 127
Somerville A (1980) Wind stability: forest layout and silviculture. New Zealand Journal of Forest Science 10:476–501
Stephens EP (1956) The uprooting of trees: a forest process. In: Proceedings of the Soil Science Society of America, Madison, vol 20, pp 113–116
Vollsinger S, Mitchell SJ, Byrne KE, Novak MD, Rudnicki M (2005) Wind tunnel measurements of crown streamlining and drag relationships for several hardwood species. Canadian Journal of Forest Research 35(5):1238–1249
Westveld M (1956) Natural vegetation zones of New England. Journal of Forestry 54:332–338
Wonn HT, O’Hara KL (2001) Height:diameter ratios and stability relationships for four northern Rocky Mountain tree species. Western Journal of Applied Forestry 16:87–94
Acknowledgments
The authors wish to thank Tony Johnson and Bowin Lindgren of Northeast Utilities for logistical support. Funding for this research was provided by a grant from Northeast Utilities.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Poulos, H.M., Camp, A.E. Decision Support for Mitigating the Risk of Tree Induced Transmission Line Failure in Utility Rights-of-Way. Environmental Management 45, 217–226 (2010). https://doi.org/10.1007/s00267-009-9422-5
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00267-009-9422-5