Abstract
One of the fastest growing areas of natural gas production is coal bed methane (CBM) due to the large monetary returns and increased demand for energy from consumers. The Powder River Basin, Wyoming is one of the most rapidly expanding areas of CBM development with projections of the establishment of up to 50,000 wells. CBM disturbances may make the native ecosystem more susceptible to invasion by non-native species, but there are few studies that have been conducted on the environmental impacts of this type of resource extraction. To evaluate the potential effects of CBM development on native plant species distribution and patterns of non-native plant invasion, 36 modified Forest Inventory and Analysis plots (each comprised of four 168-m2 subplots) were established in the Powder River Basin, Wyoming. There were 73 168-m2 subplots on control sites; 42 subplots on secondary disturbances; 14 on major surface disturbances; eight on well pads; and seven on sites downslope of CBM wells water discharge points. Native plant species cover ranged from 39.5 ± 2.7% (mean ± 1 SE) in the secondary disturbance subplots to 17.7 ± 7.5% in the pad subplots. Non-native plant species cover ranged from 31.0 ± 8.4% in the discharge areas to 14.7 ± 8.9% in the pad subplots. The control subplots had significantly less non-native species richness than the combined disturbance types. The combined disturbance subplots had significantly greater soil salinity than the control sites. These results suggest that CBM development and associated disturbances may facilitate the establishment of non-native plants. Future research and management decisions should consider the accumulative landscape-scale effects of CBM development on preserving native plant diversity.
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References
All Consulting (2001). Draft management common, existing management and their impacts;montana statewide oil and gas environmental impact statement and amendment of the powderriver and billings resource management plan, 4-4 to 4-6. Prepared for the U.S. Departmentof Interior, Bureau of Land Management, Miles City Field Office, Montana.
Bashkin, M., Stohlgren, T.J., Otsuki, Y., Lee, M., Evangelista, P., & Belnap, J. (2003).Soil characteristics and plant exotic species invasions in the Grand Staircase – EscalanteNational Monument, Utah, USA. Applied Soil Ecology, 22, 67–77.
Beckstead, J., & Augspurger, C.K. (2004). An experimental test of resistance tocheatgrass invasion: limiting resources at different life stages. Bio Invasions, 6, 417–432.
Biondini, M.E., Patton, B.D., & Nyren, P.E. (1998). Grazing intensity and ecosystemprocesses in a northern mixed-grass prairie, USA. Ecology Applied, 8, 469–479.
Boelter, A.M., Lamming, F.N., Farag, A.M., & Bergman, H.L. (1992). Environmental effectsof saline oil-field discharges on surface waters. Environ Toxicology and Chemistry, 11, 1187–1195.
Boone, R.D., Grigal, D.F., Ahrens, R.A., Sollins, P., & Armstrong, D.E. (1999). Soilsampling, preparation, archiving, and quality control. In: G.P. Robertson, C.S. Bledsoe, D.C. Coleman, and P. Sollins (Eds), Standard Soil Methods for Long-term EcologicalResearch (pp. 3–28). New York: Oxford University Press.
Bull, K.A., Stolte, K.W., & Stohlgren, T.J. (1998). Forest Health Monitoring:Vegetation Pilot Field Methods Guide, Washington, D.C.: USDA Forest Service.
Bureau of Land Management (BLM): (2003). Final environmental impact statement and proposedplan amendment for the powder river basin oil and gas project. Volume 1 of 4. WY-070-02-065. US Department of the Interior, Bureau of Land Management, Buffalo FieldOffice.
Burke, M.J.W., & Grime, J.P. (1996). An Experimental study of plant communityinvasibility. Ecology, 77, 776–790.
Bryner, G. (2002). Coalbed methane Development in the Intermountain West, NaturalResources Law Center, University of Colorado School of Law.
Carter, M.R. (ed.) (1993). Soil sampling and methods of analysis. Boca Raton, FL, USA: Lewis Publishers.
Clifford, H.: (2001). Wyoming's powder keg. High Country News 33, 5. Retrieved 15 January 2003 from http://www.hcn.org/servlets/hcn.PrintableArticle?article_id=1082.
Colwell, R.K. (2004). EstimateS: statistical estimation of species richness and sharedspecies from samples. Version 7. User's Guide and application published at:http://www.purl.oclc.org/estimates.
Connelly, J.W., Schroeder, M.A., Sands, A.R., & Braun, C.E. (2000). Guidelines to managesagegrouse populations and their habitats. Wildlife Society Bulletin, 28, 967–985.
Crawford, J.A., Olson, R.A., West, N.E., Mosley, J.C., Schroeder, M.A., Whitson, T.D., Miller, R.F.Gregg, M.A., & Boyd, C.S. (2004). Synthesis paper-Ecology andmanagement of sage-grouse and sage-grouse habitat. Journal of Range Management, 57, 2–19.
D'Antonio, C.M., Levine, J.M., & Thomsen, M. (2001). Ecosystem resistance to invasion toinvasion and the role of propangule supply: A California perspective. Journal of Mediterranean Ecology, 2, 233–245.
D'Antonio, C. M., & Vitousek, P.M. (1992). Biological invasions by exotic grasses, thegrass/fire cycle, and global change. Annual Review Ecology System, 23, 63–87.
Daehler, C.C. (2003). Performance comparisons of co-occurring native and alien invasiveplants: implications for conservation and restoration. Annual Review Ecology Evoloation System, 34, 183–211.
Davis, M.A., Grime, J.P., & Thompson, K. (2000). Fluctuating resources in plantcommunities: A general theory of invasibility. Journal of Ecology, 88, 528–534.
De'ath, G., & Fabricius, K.E. (2000). Classification and regression trees: A powerful yetsimple technique for ecological data analysis. Ecology, 81, 3178–3192.
Dorn, R.D. (2001). Vascular Plants of Wyoming Third Edition. Cheyenne, WY: MountainWest Publishing.
Ellstrand, N., & Schierenbeck, K.A. (2000). Hybridization as a stimulus for the evolutionof invasiveness in plants? Proceedings from the National Academy of Sciences, 97, 7043–7050. Retrieved 15 April 24, 2006 from http://www.pnas.org/cgi/content/full/97/13/7043.
Fox, M.D., & Fox, B.J. (1986). The susceptibility of natural communities to invasion. In:R.H. Groves and J.J. Burdon (eds). Ecology of Biological Invasions, pp 57–66. Cambridge: Cambridge University Press.
Flores, R., Stricker, G., Meyer, J., Doll, T., Norton Jr., P., Livingston, R., & Jennings, M.C. (2001). A Field Conference on Impacts of Coalbed Methane Development in thePowder River Basin, Wyoming. Open-File Report 01-126, USGS Denver, CO.
Frayer, W.E., & Furnival, G.M. (1999). Forest survey sampling designs: A history. Journal of Forestry, 97, 4–10.
Friedl, M.A., & Brodley, C.E. (1997). Decision tree classification of land cover fromremotely sensed data. Remote Sensing Environment, 61, 399–409.
Gee, G.W., & Bauder, J.W. (1986). Particle size analysis. In: A. Klute, (ed.) Methods of soil analysis. Part 1 – Physical and mineralogical methods. 2nd ed., pp. 383–411. ASA, Madison, WI, USA.
Gelbard, J.L., & Belnap, J. (2003). Roads as conduits for exotic plant invasions in asemiarid landscape. Conservation Biology, 17, 420–432.
Glenn, E., Tanner, R., Mendex, S., Kehret, T., Moore, D., et al. (1998). Growth rates, salt tolerance and water use characteristics of native and invasive riparian plants fromthe delta of the Colorado River, Mexico. Journal of Arid Environments, 40, 281–294.
Grime, J.P. (1998). Benefits of plant diversity to ecosystems: Immediate, filter andfounder effects. The Journal of Ecology 86, 902–910.
Hansen, Dubayah, M.R., & Defries, R. (1996). Classification trees: an alternative totraditional land cover classifiers. Journal of Remote Sensing, 17, 1075–1081.
Harrison, S. (1999). Local and regional diversity in a patchy landscape: native, alien, and endemic herbs on serpentine. Ecology, 80, 70–80.
Hobbs, R.J., & Huenneke, L.F. (1992). Disturbance, diversity, and invasion: implicationsfor conservation. Conservation Biology, 6, 324–327.
Hobbs, R.J., & Mooney, H.A. (1991). Effects of rainfall variability and gopherdisturbance on serpentine annual grassland dynamics. Ecology, 72, 59–68.
Huenneke, L., Glick, D., Waweru, F.W., Brownell Jr., R.L., & Goodland, R. (1988). SCOPEprogram on biological invasions: A Status Report. Conservation Biology, 2, 8–10.
Hull Sieg, C., Uresk, D., & Hansen, R.M. (1983). Spoils and sagebrush-grassland in thenorthern high plains. Journal of Range Management, 36, 289–294.
Knops, J.M., Bradley, K.L., & Wedin, D.A. (2002). Mechanisms of plant species impacts onecosystem nitrogen cycling. Ecology Letters, 5, 454–466.
Lennon, L. (2006). Coalbed methane: economic boon or environmental boondoggle? AllThings Cretaceous: A Digital Resource Collection for Teaching and Learning. Montana StateUniversity Science Education Center at Carleton College. Retrieved 24 April 2006 from http://serc.carleton.edu/research_education/cretaceous/coalbed.html.
Logan, J., & Chandler, W. (1998). Natural Gas Gains Momentum. The China BusinessReview. Retrieved 24 April 2006 from http://www.pnl.gov/aisu/pubs/cbr1.htm.
Mack, R.N. (1986). Invasion of Bromus tectorum L. into western North America:an Ecological Chronicle. Annual Review Ecology System, 7, 145–165.
Mack, R.N. (1986). Alien plant invasion to the IntermountainWest: a case history. In:HA Mooney and JA Drake (eds) Ecology of Biological Invasions of North America andHawaii, p 191–210. New York: Springer-Verlag.
Mack, R.N., Simberloff, D., Lonsdale, W.M., Evans, H., Clout, M., & Bazzaz, F.A. (2000).Biotic Invasions: Causes, Epidemiology, Global Consequences, and Control. Ecology Applied, 10, 689–710.
McGregor, R.L., Barkely, T.M. (ed), Brooks, R.E. (assoc ed), Schofield, E.K. (assoc. ed)1986, Flora of the Great Plains, Lawrence, KS: University Press of Kansas.
Montgomery, S.L. (1999). Powder River Basin, Wyoming: An expanding coalbed methane (CBM)Play. Am Assoc of Petroleum Geologists Bulletin, 83, 1207–1222.
Naugle, D.E., Aldridge, C., Walker, B., Cornish, T., Moynahan, B., et al. (2004). WestNile Virus: pending crisis for greater sage-grouse, Ecology Letters, 7, 704–713.
Olson, K.C., White, R.S., & Sindelar, B.W. (1985). Response of vegetation of the northerngreat plains to precipitation amount and grazing intensity. Journal of RangeManagement, 38, 357–361.
Powder River Basin (2003). Coalbed methane gas Wyoming–PowderRiverBasin.org. Retrieved 1January 2003 from http://www.powderriverbasin.org.
Rice, C.A., Ellis, M.S., & Bullock Jr., J.H. (2000). Water co-produced with coalbedmethane in the Powder River Basin, Wyoming: Preliminary composition data. USGS Open-FileReport 00-372, USGS Denver, CO.
Ringwall, K., Biondini, M., & Grugiel, C. (2000). Effects of nitrogen fertilization inleafy spurge root architecture. Journal of Range Management, 53, 228–232.
Rosenzweig, M. (1995). Species diversity in space and time. Cambridge, UK: Cambridge University Press.
SPPS Inc. (2001). ‘SYSTAT’, v10.0.
Stohlgren, T.J., Binkley, D., Chong, G.W., Kalkhan, M.A., Schell, L.D., Bull, K.A., Otsuki, Y., Newman, Bashkin, M., & Son, Y. (1999). Exotic Plant Species Invade Hot Spots of Native Plant Diversity. Ecology Monographs, 69, 25–46.
Stohlgren, T.J., Chong, G.W., Schell, L.D., Rimar, K.A., Otsuki, Y., Lee, M., Kalkhan, M.A., & Villa, C.A. (2002). Assessing Vulnerability to Invasion by Nonnative PlantSpecies at Multiple Spatial Scales. Environment Management, 29, 566–577.
Stohlgren, T.J., Barnett, D., & Kartesz, J. (2003). The rich get richer: patterns ofplant invasions in the United States. Frontiers in Ecology and the Environment, 1, 11–14.
Swift, C. (1997). Salt Tolerance of Various Temperate Zone Ornamental Plants. Technical Report, Colorado State University Cooperative Extension (Tri River AreaOffice), Grand Junction, Colorado.
Thatcher, A.P. (1959). Distribution of sagebrush as related to site differences in albanycounty, Wyoming. Journal of Range Management, 12, 55–61.
Thompson, G.G., Withers, P.C., Pianka, E.R., & Thompson, S.A. (2003). Assessingbiodiversity with species accumulation curves; inventories of small reptiles bypit-trapping in Western Australia. Austral Ecology, 28, 361–383.
Tyler, R., Ambrose, W.A., Scott, A.R., & Kaiser, W.R. (1995). Geologic and hydrologicassessment of natural gas from coal: Greater Green River, Piceance, Powder River, andRaton Basins. Report of Investigations 228 pp 219, Bureau of Economic Geology, University of Texas at Austin.
United States Department of Agriculture (USDA) NRCS: (2001). The Plants Database http://plants.gov/plants. National Plant Data Center, Baton Rouge, LA, 70870.
United States Forest Service (USFS). (n.d.). Forest Inventory and Analysis NationalProgram Retrieved 24 April 2006 from http://fia.fs.fed.us/.
Watkins, R.Z., Chen, J., Pickens, J., & Brosofske K.D. (2003). Effects of forest roads onunderstory plants in a managed hardwood landscape. Conservation Biology, 17(2), 411–419.
Vitousek, P.M., D'Antonio, C.M., Loope, L.L., Rejmanek, M., & Westbrooks, R. (1997).Introduced species: a significant component of human caused global change. New Zealand Journal of Ecology, 21, 1–16.
Vitousek, P.M., & Walker, L.R. (1989). Biological Invasion by Myrica Faya in Hawai'i:Plant Demography, Nitrogen Fixation, Ecosystem Effects. Ecological Monographs, 59, 247–265.
Wardle, D.A., Bonner, K., Barker, G.M., Yeates, G.W., Nicholson, K.S., Bardgett, R.D.,Watson, R.N., & Ghani, A. (1999). Plant removals in perennial grassland: vegetationdynamics, decomposers, soil biodiversity, and ecosystem properties. EcologicalMonographs, 69, 575–568.
Wilcove, D.S., Rothstein, D., Dubow, J., Phillips, A., & Losos, E. (1998). Quantifyingthreats to imperiled species in the United States. BioScience, 48, 607–615.
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Bergquist, E., Evangelista, P., Stohlgren, T.J. et al. Invasive species and coal bed methane development in the Powder River Basin, Wyoming. Environ Monit Assess 128, 381–394 (2007). https://doi.org/10.1007/s10661-006-9321-7
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DOI: https://doi.org/10.1007/s10661-006-9321-7