Abstract
The Great Basin of the western USA is an arid region characterized by high spatial and temporal variability. The region experienced high levels of ecological disturbance during the early period of Euro-American settlement, especially from about 1870–1935. The principal plant communities of the Great Basin are sagebrush steppes, dominated by various Artemisia shrubs and perennial bunchgrasses that represent the largest rangeland ecosystem in North America. In low to mid-elevation sagebrush communities, exotic annual grasses have displaced native plant species and are associated with a dramatic increase in size and frequency of wildfires. Degradation in this region is driven by processes that cause the loss of mature bunchgrasses, which, when intact, limit exotic annual grass invasion. Historically, large economic investments to restore degraded Great Basin rangeland through establishment of native bunchgrasses, principally utilizing heavily mechanized agronomic approaches, have been met with limited success. A multitude of environmental factors contribute to the lack of restoration success in this region, but seedling mortality from freezing and drought has been identified as a primary demographic limitation to successful bunchgrass establishment. Novel approaches to overcoming limitations to bunchgrass establishment will be required for restoration success. Increased national concern and a near listing of the greater sage-grouse, a steppe-obligate species, to Endangered Species status, has spurred greater regional support and collaboration across a diversity of stakeholder groups such as state and federal land and wildlife management agencies, county planners, and ranchers.
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References
Alexander EB, Mallory JI, Colwell WL (1993) Soil-elevation relationships on a volcanic plateau in the southern Cascade Range, northern California, USA. Catena 20:113–128
Arredondo JT, Jones TA, Johnson DA (1998) Seedling growth of Intermountain perennial and weedy annual grasses. J Range Manag 51:389–584
Bailey RG (1995) Description of the ecoregions of the United States. USDA Forest Service Misc. Publ. No. 1391, Washington D.C., p 108
Baruch-Mordo S, Evans JS, Severson JP, Naugle DE, Maestas JD, Kiesecker JM, Falkowski MJ, Hagen CA, Reese KP (2013) Saving sage-grouse from the trees: a proactive solution to reducing a key threat to a candidate species. Biol Conserv 167:233–241
Bowman DMJS, Balch JK, Artaxo P, Bond WJ, Carlson JM, Cochrane MA, D’Antonio CM, DeFries RS, Doyle JC, Harrison SP, Johnston FH, Keeley JE, Krawchuck MA, Kull CA, Marston JB, Moritz MA, Prentice IC, Roos CI, Scott AC, Swetnam TW, van der Werf GR, Pyne SJ (2009) Fire in the Earth system. Science 24:481–484
Boyd CS, Davies KW (2010) Shrub microsite influences post-fire perennial grass establishment. Rangel Ecol Manag 63:248–252
Boyd CS, James JJ (2013) Variation in timing of planting influences bluebunch wheatgrass demography in an arid system. Rangel Ecol Manag 66:117–126
Boyd CS, Lemos JA (2015) Evaluating winter/spring seeding of a native perennial bunchgrass in the sagebrush steppe. Rangel Ecol Manag 68:494–500
Boyd CS, Svejcar TJ (2009) Managing complex problems in rangeland ecosystems. Rangel Ecol Manag 62:491–499
Boyd CS, Johnson DD, Kerby JD, Svejcar TJ, Davies KW (2014) Of grouse and golden eggs: can ecosystems be managed within a species-based regulatory framework? Rangel Ecol Manag 67:358–368
Bradley BA, Houghton RA, Mustard JF, Hamburg SP (2006) Invasive grass reduces aboveground carbon stocks in shrublands of the Western US. Global Change Biol 12:1815–1822
Chambers JC, Roundy BA, Blank RR, Meyer SE, Whittaker A (2007) What makes Great Basin sagebrush ecosystems invisible by Bromus tectorum? Ecol Monogr 77:117–145
Chambers JC, Pyke DA, Maestas JD, Pellant M, Boyd CS, Campbell SB, Espinosa S, Havlina DW, Mayer KE, Wuenschel A (2014) Using resistance and resilience concepts to reduce impacts of annual grasses and altered fire regimes on the sagebrush ecosystem and sage-grouse—a strategic multi-scale approach. U.S. Department of Agriculture, Forest Service, RMRS-GTR-326
Condon L, Weisberg PJ, Chambers JC (2011) Abiotic and biotic influences of Bromus tectorum invasion and Artemisia tridentata recovery after fire. Int J Wildland Fire 20:597–604
Cook CW (1966) Development and use of foothill ranges in Utah. Utah Agricultural Experiment Station Bulletin 461, Utah State University, Logan, p 47
Cox RD, Anderson VJ (2004) Increasing native diversity of cheatgrass-dominated rangeland through assisted succession. J Range Manag 57:203–210
D’Antonio CM, Vitousek PM (1992) Biological invasions by exotic grasses, the grass/fire cycle, and global change. Annu Rev Ecol Syst 23:63–87
Davies KW (2008) Medusahead dispersal and establishment in sagebrush steppe plant communities. Rangel Ecol Manag 61:110–115
Davies KW (2010) Revegetation of medusahead-invaded sagebrush steppe. Rangel Ecol Manag 63:564–571
Davies KW, Bates JD (2014) Attempting to restore herbaceous understories in Wyoming big sagebrush communities with mowing and seeding. Restor Ecol 22:608–615
Davies KW, Bates JD (2016) Restoring big sagebrush after controlling encroaching western juniper with fire: aspect and subspecies effects. Restor Ecol. doi:10.1111/rec.12375
Davies KW, Nafus AM (2013) Exotic annual grass invasion alters fuel amounts, continuity, and moisture content. Int J Wildland Fire 22:353–358
Davies KW, Svejcar TJ (2008) Comparison of medusahead-invaded and noninvaded Wyoming big sagebrush steppe in southeastern Oregon. Rangel Ecol Manag 61:623–629
Davies KW, Boyd CS, Beck JL, Bates JD, Svejcar TJ, Gregg MA (2011) Saving the sagebrush sea: an ecosystem conservation plan for big sagebrush plant communities. Biol Conserv 144(v11):2573–2584
Davies KW, Bates JD, Madsen MD, Nafus AM (2014) Restoration of mountain big sagebrush steppe following prescribed burning to control western juniper. Environ Manag 53:1015–1022
Davies KW, Boyd CS, Johnson DD, Nafus AM, Madsen MD (2015) Success of seeding native compared to introduced perennial vegetation for revegetating medusahead-invaded sagebrush rangeland. Rangel Ecol Manag 68:224–230
Enright NJ, Fontaine JB, Bowman DMJS, Bradstock RA, Williams RJ (2015) Interval squeeze: altered fire regimes and demographic responses interact to threaten woody species persistence as climate changes. Front Ecol Environ 13:265–272
Fansler VA, Mangold JM (2011) Restoring native plants to crested wheatgrass stands. Restor Ecol 19:16–23
Fiero B (1986) Geology of the Great Basin. University of Nevada Press, Reno
Frischknecht NC, Harris LE (1968) Grazing intensities and systems on crested wheatgrass in central Utah: response of vegetation and cattle. U.S. Forest Service, Washington D.C., p 47p
Fule PZ (2008) Does it make sense to restore wildland fire in changing climate? Restor Ecol 16:526–531
Hamerlynck EP, Huxman TE, Charlet TN, Smith SD (2002) Effects of elevated CO2 (FACE) on the functional ecology of the drought-deciduous Mojave Desert shrub Lycium andersonii. Environ Exp Bot 48:93–106
Hardegree SP, Roundy BA, Shaw NL, Monaco TA (2011) Assessment of range planting as a conservation practice (chapter 4). In: Briske DD (ed) Conservation benefits of rangeland practices: assessment, recommendations, and knowledge gaps. US Department of Agriculture, Natural Resources Conservation Service, Washington D.C., pp 171–212
Hardegree SP, Schneider JM, Moffet CA (2012) Weather variability and adaptive management for rangelands restoration. Rangelands 34:53–56
Hessburg PF, Kuhlmann EE, Swetnam TW (2005) Examining the recent climate through the lens of ecology: inferences from temporal pattern analysis. Ecol Appl 15:440–457
Housman DC, Zitzer SF, Huxman TE, Smith SD (2003) Functional ecology of shrub seedlings after a natural recruitment event at the Nevada Desert FACE Facility. Glob Change Biol 9:718–728
Hulet A, Roundy BA, Jessop B (2010) Crested wheatgrass control and native plant establishment in Utah. Rangel Ecol Manag 63:450–460
Hull AC Jr (1974) Species for seeding arid rangeland in southern Idaho. J Range Manag 19:216–218
Huxman TE, Smith SD (2001) Photosynthesis in an invasive grass and native forb at elevated CO2 during an El Nino year in the Mojave Desert. Oecologia 128:193–201
Huxman TE, Snyder KA, Tissue D, Leffler AJ, Ogle K, Pockman WT, Sandquist DR, Potts DL, Schwinning S (2004) Precipitation pulses and carbon fluxes in semiarid and arid ecosystems. Oecologia 141:254–268
James JJ, Svejcar TJ (2010) Limitations to postfire seedling establishment: the role of seeding technology, water availability, and invasive plant abundance. Rangel Ecol Manag 63:491–495
James JJ, Svejcar TJ, Rinella MJ (2011) Demographic processes limiting seedling recruitment in arid grassland restoration. J Appl Ecol 48:961–969
James JJ, Rinella MJ, Svejcar TJ (2012) Grass seedling demography and sagebrush steppe restoration. Rangel Ecol Manag 65:409–417
Johnson RH, Lincoln DE (1990) Sagebrush and grasshopper responses to atmospheric carbon dioxide concentration. Oecologia 84:103–110
Kitchen SG (2014) Learning to live with cheatgrass: giving up or a necessary paradigm shift? Rangelands 36:32–36
Kitchen SG (2016) Climate and human influences on historical fire regimes (AD 1400–1900) in the eastern Great Basin (USA). Holocene 26:397–407
Knutson KC, Pyke DA, Wirth TA, Arkle RS, Pilliod DS, Brooks ML, Chambers JC, Grace JB (2014) Long-term effects of seeding after wildfire on vegetation in Great Basin shrubland ecosystems. J Appl Ecol 51:1414–1424
Kyser GB, Wilson RG, Zhang J, DiTomaso JM (2013) Herbicide-assisted restoration of Great Basin sagebrush steppe infested with medusahead and downy brome. Rangel Ecol Manag 66:588–596
Leffler AJ, James JJ, Monaco TA (2013) Temperature and functional traits influence differences in nitrogen uptake capacity between native and invasive grasses. Oecologia 171:51–60
Leger EA, Baughman OW (2015) What seeds to plant in the Great Basin? Comparing traits prioritized in native plant cultivars and releases with those that promote survival in the field. Nat Areas J 35(1):54–68
Lentz RD, Simonson GH (1986) A detailed soils inventory and associated vegetation of Squaw Butte Range Experiment Station. Oregon State University Agricultural Experiment Station, Corvallis 760
Lucash MS, Farnsworth B, Winner WE (2005) Response of sagebrush steppe species to elevated CO2 and soil temperature. West N Am Nat 65(1):80–86
Lysne CR, Pellant ML (2004) Establishment of aerially seeded big sagebrush following southern Idaho wildfires. Technical Bulletin 2004-01. Department of the Interior, Bureau of Land Management, USDA, Boise, p 14
Madsen MD, Davies KW, Williams CJ, Svejcar TJ (2012a) Agglomerating seeds to enhance native seedling emergence and growth. J Appl Ecol 49:431–438
Madsen MD, Kostka SJ, Inouye AL, Zvirzdin DL (2012b) Postfire restoration of soil hydrology and wildland vegetation using surfactant seed coating technology. Rangel Ecol Manag 65:253–259
Madsen MD, Davies KW, Boyd CS, Kerby JD, Carter DL, Svejcar TJ (2013a) Restoring North America’s sagebrush steppe ecosystem using seed enhancement technologies. In: Proceedings of the 22nd international grassland congress, vol 22., pp 393–401
Madsen MD, Zvirzdin DL, Kostka SJ (2013b) Improving reseeding success after catastrophic wildfire with surfactant seed coating technology. ATSM Int 1569:44–55
Madsen MD, Davies KW, Boyd CS, Kerby JD, Svejcar TJ (2016) Emerging seed enhancement technologies for overcoming barriers to restoration. Restor Ecol. doi:10.1111/rec.12332
McAdoo JK, Schultz BW, Swanson SR (2013) Aboriginal precedent for active management of sagebrush-perennial grass communities in the Great Basin. Rangel Ecol Manag 66:241–253
McAfee SA, Russell JA (2008) Impact of the Northern Annular Mode on spring climate in the western United States. Geophys Res Lett 35:L17701
Melgoza G, Nowak RS, Tausch RJ (1990) Soil water exploitation after fire: competition between Bromus tectorum (cheatgrass) and two native species. Oecologia 83:7–13
Miller MR (1943) Halogeton glomeratus, poisonious to sheep. Science 97:262
Miller RK (1956) Control of halogeton in Nevada by range seedings and herbicides. J Range Manag 9:227–229
Miller RF, Rose JA (1999) Fire history and western juniper encroachment in sagebrush steppe. J Range Manag 52:550–559
Miller RF, Svejcar TJ, West NE (1994) Implications of livestock grazing in the intermountain sagebrush region: plant composition. In: Vavra M, Laycock WA, Pieper RD (eds) Ecological implications of livestock herbivory in the West. Society of Range Management, Denver, pp 101–146
Miller RF, Chambers JC, Pyke DA, Pierson FB, Williams JC (2013) A review of fire effects on vegetation and soils in the Great Basin Region: response and ecological site characteristics. U.S. Department of Agriculture, Forest Service, RMRS-GTR-308
Miller RF, Chambers JC, Pellant M (2014a) A field guide for selecting the most appropriate treatment in sagebrush and piñon-juniper ecosystems in the Great Basin: evaluating resilience to disturbance and resistance to invasive annual grasses, and predicting vegetation response. USDA Rocky Mountain Research Station. General Technical Report RMRS-GTR-322-rev, p 68
Miller RF, Ratchford J, Roundy BA, Tausch RJ, Hulet A, Chambers J (2014b) Response of conifer-encroached shrublands in the Great Basin to prescribed fire and mechanical treatments. Rangel Ecol Manag 67:468–481
Miller RF, Chambers JC, Pellant M (2015) A field guide for rapid assessment of post-wildfire recovery potential in sagebrush and piñon-juniper ecosystems in the Great Basin: evaluating resilience to disturbance and resistance to invasive annual grasses and predicting vegetation response. USDA Rocky Mountain Research Station. General Technical Report RMRS-GTR-338, p 70
Monaco TA, Osmond TM, Dewey SA (2005) Medusahead control with fall-and spring-applied herbicides on norther Utah foothills. Weed Technol 19:653–658
Monsen SB, Stevens R (2004) Seedbed preparation and seeding practices. In: Restoring western ranges and wildlands. Monsen SB, Stevens R, Shaw NL (eds) USDA Forest Service. Rocky Mountain Research Station General Technical Report RMRS-GTR-136, pp 121–154
Morris LR, Monaco TA, Sheley RL (2011) Land-use legacies and vegetation recovery 90 years after cultivation in Great Basin sagebrush ecosystems. Rangel Ecol Manag 64:488–497
Mote PW, Salathe EP (2010) Future climate in the Pacific Northwest. Clim Change 102:29–50
Mote PW, Abatzoglo JT, Kunkel KE (2013) Climate: variability and change in the past and the future. In: Dalton MM, Mote PW, Snover AK (eds) Climate change in the Northwest: implications for our landscapes, waters, and communities. Island Press, Washington D.C., pp 25–40
Nafus AM, Svejcar TJ, Ganskopp DC, Davies KW (2015) Abundances of co-planted native bunchgrasses and crested wheatgrass after 13 years. Rangel Ecol Manag 68:211–214
Nafus AM, Svejcar TJ, Davies KW (2016) Disturbance history, management, and seeding year precipitation influences vegetation characteristics of crested wheatgrass stands. Rangel Ecol Manag 69:248–256
National Interagency Fire Center (NIFC) (2013) Fire information—wildland fire statistics. Available at http://www.nifc.gov/fireInfo/fireInfo_documents
Naumburg E, Housman DC, Huxman TE, Charlet TN, Loik ME, Smith SD (2003) Photosynthetic response of Mojave Desert shrubs to free air CO2 enrichment are greatest during wet years. Glob Change Biol 9:276–285
Nevada Division of Water Resources (2000) Humboldt River Chronology Part II-Pre-Twentieth Century. http://water.nv.gov/mapping/chronologies/humboldt/hrc-pt2.pdf. Accessed 26 Apr 2016
Newingham BA, Vanier CH, Charlet TN, Ogle K, Smith SD, Nowak RS (2013) No cumulative effect of 10 years of elevated [CO2] on perennial plant biomass components in the Mojave Desert. Glob Change Biol 19:2168–2181
NOAA (2012) NOAA National Climatic Data Center, State of the Climate: National Overview for July, 2012. Available at http://www.ncdc.noaa.gov/sotc/national/2012/7
Pellant M, Lysne CR (2005) Strategies to enhance plant structure diversity in crested wheatgrass seedings. USDA Forest Service Proceedings RMRS-P-38: Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fort Collins, Colorado, p 64–70
Pellant M, Abbey B, Karl S (2004) Restoring the Great Basin desert, USA: integrating science, management, and people. Environ Monit Assess 99:169–179
Pierson FB, Bates JD, Svejcar TJ, Hardegree SP (2007) Runoff and erosion after cutting western juniper. Rangel Ecol Manag 60:285–292
Richards RT, Chambers JC, Ross C (1998) Use of native plants on federal lands: policy and practice. J Range Manag 51:625–632
Robertson JH, Eckert RE, Bleak AT (1966) Response of grasses seeded in Artemisia tridentata habitat in Nevada. Ecology 47:187–194
Rocca ME, Brown PM, MacDonald LH, Carrico CM (2014) Climate change impacts on fire regimes and key ecosystem services in Rocky Mountain forests. For Ecol Manag 327:290–305
Roundy BA, Miller RF, Tausch RJ, Young K, Hulet A, Rau B, Jessop B, Chambers JC, Eggett D (2014) Understory cover responses to pinon-juniper treatments across tree dominance gradients in the Great Basin. Rangel Ecol Manag 67:482–494
Sharp LA (1986) Crested wheatgrass, its values, problems and myths. In: Johnson KL (ed) Crested wheatgrass, its values, problems and myths: symposium proceedings; 3–7 October 1983, Logan, UT. Utah State University, Logan, pp 3–6
Smith SD, Strain BR, Sharkey TD (1987) Effects of CO2 enrichment on four Great Basin grasses. Funct Ecol 1:139–143
Smith SD, Huxman TE, Zitzer SF, Charlet TN, Housman DC, Coleman JS, Fenstermaker LK, Seemann JR, Nowak RS (2000) Elevated CO2 increases productivity and invasive species success in an arid ecosystem. Nature 408:79–82
Stewart OC (2002) Forgotten fires: Native Americans and the transient wilderness. University of Oklahoma Press, Norman
Stoddart LA, Smith AD, Box TW (1975) Range management, 3rd edn. McGraw-Hill Book Company, New York, p 523
Svejcar T (2015) The northern Great Basin: a region of continual change. Rangelands 37:113–118
Svejcar T, James JJ, Hardegree S, Sheley RL (2014) Incorporating plant mortality and recruitment into rangeland management and assessment. Rangel Ecol Manag 67:603–613
Thompson TW, Roundy BA, McArthur ED, Jessop BD, Waldron B, Davis JN (2006) Fire rehabilitation using native and introduced species: a landscape trial. Rangel Ecol Manag 59:237–248
United States Geological Survey (2013) The Great Basin and the Columbia Plateau. http://greatbasin.wr.usgs.gov/default.aspx. Accessed 25 Apr 2016
Vale TR (1974) Sagebrush conversion projects: an element of contemporary environmental change in the western United States. Biol Conserv 6:274–284
Vallentine JF (1977) Range development and improvements. Brigham Young University Press, Provo, p 516
Van de Water PK, Leavitt SW, Betancourt JL (2002) Leaf δ13C varability with elevation, slope aspect, and precipitation in the southwest United States. Oecologia 132:332–343
Weltzin JF, Loik ME, Schwinning S, Williams DG, Fay PA, Haddad BM, Harte J, Huxman TE, Knapp AK, Lin G, Pockman WT, Shaw RM, Small EE, Smith MD, Smith SD, Tissue DT, Zak JC (2003) Assessing the response of terrestrial ecosystems to potential changes in precipitation. Bioscience 53:941–952
West NE (1999) Synecology and disturbance regimes of sagebrush steppe ecosystems. In: Entwistle PG et al (eds) Proceedings: Sagebrush Steppe Ecosystems Symposium, Boise, ID, June 21–13, Bureau of Land Management Publication No. BLM/ID/PT-001001+150
West NE, Young JA (2000) Intermountain valleys and lower mountain slopes. In: Barbour MB, Billings WD (eds) North American terrestrial vegetation. Cambridge University Press, Cambridge, pp 256–284
Westerling AL, Hidalgo HG, Cayan DR, Swetnam TW (2006) Warming and earlier spring increase wester US forest wildfire activity. Science 313:940–943
Whisenant SG (1990) Changing fire frequencies on Idaho’s Snake River Plains: ecological and management implications. In: McArthur ED, Romney EM, Smith SD, Tueller PT (eds) Proceedings-Symposium on cheatgrass, invasion, shrub die-off and other aspects of shrub biology and management. USDA Forest Service, Intermountain Research Station, Tech Report INT-276, pp 4–10
Young JA (1988) The public response to the catastrophic spread of Russian thistle (1880) and halogeton (1945). Agric Hist 62:122–130
Young JA, Clements CD (2009) Cheatgrass: fire and forage on the range. University of Nevada Press, Reno, p 348
Young JA, McKenzie D (1982) Rangeland drill. Rangelands 4:108–113
Young JA, Sparks BA (1985) Cattle in the cold desert. Utah State University Press, Logan
Yue X, Mickley LJ, Logan JA, Kaplan JO (2013) Ensemble projections of wildfire activity and carbonaceous aerosol concentrations of the western United States in the mid-21st century. Atmospheric Environ 77:767–780
Ziska LH, Reeves JB III, Blank RR (2005) The impact of recent increases in atmospheric CO2 on biomass production and vegetative retention of cheatgrass (Bromus tectrorum): implications for fire disturbance. Glob Change Biol 11:1325–1332. doi:10.1111/J.1365-2486.2005.0092.x
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Thank you to Petrina White for editorial assistance, and the reviewers who provided thoughtful comments and caught errors we missed.
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Communicated by Dr. Olga Kildisheva, Dr. Lauren Svejcar and Dr. Erik Hamerlynck.
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Svejcar, T., Boyd, C., Davies, K. et al. Challenges and limitations to native species restoration in the Great Basin, USA. Plant Ecol 218, 81–94 (2017). https://doi.org/10.1007/s11258-016-0648-z
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DOI: https://doi.org/10.1007/s11258-016-0648-z