Free Standard AU & NZ Shipping For All Book Orders Over $80!
Register      Login
International Journal of Wildland Fire International Journal of Wildland Fire Society
Journal of the International Association of Wildland Fire
Shopping Cart: ( empty )
You are here: Home > Journals > WF > WF07043
RESEARCH ARTICLE
Contents Vol 18(2)

Environmental and climatic variables as potential drivers of post-fire cover of cheatgrass (Bromus tectorum) in seeded and unseeded semiarid ecosystems

Douglas J. Shinneman A C and William L. Baker B
+ Author Affiliations
- Author Affiliations

A Department of Botany, University of Wyoming, Laramie, WY 82071, USA.

B Ecology Program and Department of Geography, University of Wyoming, Laramie, WY 82071, USA. Email: bakerwl@uwyo.edu

C Corresponding author. Present address: US Geological Survey, Forest and Rangeland Ecosystem Science Center, Snake River Field Station, 970 Lusk St., Boise, ID 83706, USA. Email: dshinneman@usgs.gov

International Journal of Wildland Fire 18(2) 191-202 https://doi.org/10.1071/WF07043
Submitted: 28 February 2007  Accepted: 24 June 2008   Published: 3 April 2009

Abstract

Cheatgrass, a non-native annual grass, dominates millions of hectares in semiarid ecosystems of the Intermountain West (USA). Post-fire invasions can reduce native species diversity and alter ecological processes. To curb cheatgrass invasion, land managers often seed recently burned areas with perennial competitor species. We sampled vegetation within burned (1–9 years post-fire) and nearby unburned (representing pre-fire) piñon–juniper (Pinus edulisJuniperus osteosperma) woodland and sagebrush (Artemisia sp.) in western Colorado to analyze variables that might explain cheatgrass cover after fire. A multiple regression model suggests higher cheatgrass cover after fire with: (1) sagebrush v. piñon–juniper; (2) higher pre-fire cover of annual forbs; (3) increased time since fire; (4) lower pre-fire cover of biological soil crust; and (5) lower precipitation the year before fire. Time since fire, which coincided with higher precipitation, accounts for most of the variability in cheatgrass cover. No significant difference was found in mean cheatgrass cover between seeded and unseeded plots over time. However, negative relationships with pre-fire biological soil crust cover and native species richness suggest livestock-degraded areas are more susceptible to post-fire invasion. Proactive strategies for combating cheatgrass should include finding effective native competitors and restoring livestock-degraded areas.

Additional keywords: invasive species, non-native, piñon–juniper woodland, post-fire seeding, sagebrush shrubland.


Acknowledgements

The present study was supported by the US Department of Interior, Bureau of Land Management under Agreement No. ESA020016. We appreciate the assistance of Bob Welch and Amanda Clements at the Uncompahgre Field Office and Harley Metz with the Grand Junction Field Office. We also acknowledge support provided by the USDA Forest Service Northern Research Station, Grand Rapids, MN, and The Nature Conservancy, Minneapolis, MN.


References


Aguirre L , Johnson DA (1991a) Influence of temperature and cheatgrass competition on seedling development on two bunchgrasses. Journal of Range Management  44, 347–354.
Crossref | GoogleScholarGoogle Scholar | Beavers A (2001) Vegetation recovery following fire in west-central Colorado. MSc thesis. Colorado State University, Fort Collins, CO.

Beckstead J , Augspurger CK (2004) An experimental test of resistance to cheatgrass invasion: limiting resources at different life stages. Biological Invasions  6, 417–432.
Crossref | GoogleScholarGoogle Scholar | Belnap J, Kaltenecker JH, Rosentreter R, Williams J, Leonard S, Eldridge D (2001) Biological soil crusts: ecology and management. USDI, Bureau of Land Management, National Science and Technology Center, Technical Reference 1730–2. (Denver, CO)

Beyers JL (2004) Post-fire seeding for erosion control: effectiveness and impacts on native plant communities. Conservation Biology  18, 947–956.
Crossref | GoogleScholarGoogle Scholar | Billings WD (1990) Bromus tectorum, a biotic cause of ecosystem impoverishment in the Great Basin. In ‘The Earth in Transition: Patterns and Processes of Biotic Impoverishment’. (Ed. GM Woodwell) pp. 301–322. (Cambridge University Press: New York)

Booth MS, Caldwell MM , Stark JM (2003) Overlapping resource use in three Great Basin species: implications for community invasibility and vegetation dynamics. Journal of Ecology  91, 36–48.
Crossref | GoogleScholarGoogle Scholar | Despain DG (2004) Post-fire twig diameters as a measure of fire intensity. In ‘Proceedings of the 22nd Tall Timbers Fire Ecology Conference. Fire in Temperate, Boreal, and Montane Ecosystems’, 15–18 October 2001, Kananaskis, AB. (Eds RT Engstrom, KEM Galley, WJ de Groot) Tall Timbers Research Station, Conference Proceedings FC22, p. 210. (Tallahassee, FL)

DiTomaso J (2000) Invasive weeds in rangelands: species, impacts, and management. Weed Science  48, 255–265.
Crossref | GoogleScholarGoogle Scholar | CAS | Floyd ML, Hanna D, Romme WH, Crews T (2004) Non-native invasions following fire in south-western Colorado: long-term effectiveness of mitigation treatments and future predictions. Prescott College and Joint Fire Science Program, Product Number 1496-Blm2–454. (Prescott, AZ)

Floyd ML, Hanna D, Romme WH , Crews T (2006) Predicting and mitigating weed invasions to restore natural post-fire succession in Mesa Verde National Park, Colorado, USA. International Journal of Wildland Fire  15, 247–259.
Crossref | GoogleScholarGoogle Scholar | Goodrich S, Rooks D (1999) Control of weeds at a pinyon–juniper site by seeding grasses. In ‘Proceedings: Ecology and Management of Pinyon–Juniper Communities within the Interior West: Sustaining and Restoring a Diverse Ecosystem’, 15–18 September 1997, Provo, UT. (Eds SB Monsen, R Stevens) USDA Forest Service, Rocky Mountain Research Station, Proceedings RMRS-P-9, pp. 403–407. (Ogden, UT)

Greig-Smith P (1983) ‘Quantitative Plant Ecology.’ 3rd edn. (Blackwell Scientific: Oxford)

Guenther D, Stohlgren TJ, Evangelista P (2004) A comparison of a near-relict site and a grazed site in a pinyon–juniper community in the Grand Staircase–Escalante National Monument, Utah. In ‘The Colorado Plateau: Cultural, Biological, and Physical Research’. (Eds C van Riper III, KL Cole) pp. 153–162. (University of Arizona Press: Tucson, AZ)

Hargrove WW , Pickering J (1992) Pseudoreplication: a sine qua non for regional ecology. Landscape Ecology  6, 251–258.
Crossref | GoogleScholarGoogle Scholar | Hosten PE, West NE (1994) Cheatgrass dynamics following wildfires on a sagebrush semidesert site in central Utah. In ‘Proceedings: Ecology and Management of Annual Rangelands’, 18–22 May 1992, Boise, ID. (Eds SB Monsen, SG Kitchen) USDA Forest Service, Intermountain Research Station, General Technical Report INT-GTR-313, pp. 56–62. (Ogden, UT)

Humphrey LD , Schupp EW (2004) Competition as a barrier to establishment of a native perennial grass (Elymus elymoides) in alien annual grass (Bromus tectorum) communities. Journal of Arid Environments  58, 405–422.
Crossref | GoogleScholarGoogle Scholar | Ladyman JAR, Muldavin E (1996) Terrestrial cryptograms of pinyon–juniper woodlands in the south-western United States: a review. USDA Forest Service, Rocky Mountain Forest and Range Experiment Station, General Technical Report RM-GTR-280. (Fort Collins, CO)

Mack RN (1981) Invasion of Bromus tectorum L. into western North America: an ecological chronicle. Agro-ecosystems  7, 145–165.
Crossref | GoogleScholarGoogle Scholar | Mather PM (1976) ‘Computational Methods of Multivariate Analysis in Physical Geography.’ (Wiley: London)

McCune B, Grace JB (2002) ‘Analysis of Ecological Communities.’ (MjM Software Design: Gleneden Beach, OR)

McCune B, Mefford MJ (1999) ‘PC-ORD. Multivariate Analysis of Ecological Data.’ Version 4.0. (MjM Software: Gleneden Beach, OR)

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.
Crossref | GoogleScholarGoogle Scholar | Mielke PWJr, Berry KJ (2001) ‘Permutation Methods: a Distance Function Approach.’ Springer Series on Statistics. (Springer-Verlag: New York)

Miller RF, Tausch RJ (2001) The role of fire in juniper and pinyon woodlands: a descriptive analysis. In ‘Proceedings of the Invasive Species Workshop: the Role of Fire in the Control and Spread of Invasive Species’. (Eds KEM Galley, TP Wilson) Tall Timbers Research Station, Miscellaneous Publication No. 11, pp. 15–30. (Tallahassee, FL)

National Climatic Data Center (2005) Online Climate Data Directory. Available at http://lwf.ncdc.noaa.gov/oa/climate/climatedata.html [Verified 18 March 2009]

Novak SJ , Mack RN (2001) Tracing plant introduction and spread: genetic evidence from Bromus tectorum (cheatgrass). Bioscience  51, 114–122.
Crossref | GoogleScholarGoogle Scholar | Ott JE, MacArthur ED, Sanderson SC (2001) Plant community dynamics of burned and unburned sagebrush and pinyon–juniper vegetation in west-central Utah. In ‘Proceedings: Shrubland Ecosystem Genetics and Biodiversity’, 13–15 June 2000, Provo, UT. (Eds ED MacArthur, DJ Fairbanks) USDA Forest Service, Rocky Mountain Research Station, Proceedings RMRS-P-21, pp. 177–191. (Ogden, UT)

Pellant M, Hall C (1994) Distribution of two exotic grasses on Intermountain rangelands: status in 1992. In ‘Proceedings: Ecology and Management of Annual Rangelands’, 18–22 May 1992, Boise, ID. (Eds SB Monsen, SG Kitchen) USDA Forest Service, Intermountain Research Station, General Technical Report INT-GTR-313, pp. 109–112. (Ogden, UT)

Piechota T, Timilsena J, Tootle G , Hidalgo H (2004) The western US drought: how bad is it? EOS  85, 301–308.
Crossref | GoogleScholarGoogle Scholar | Pyke DA, McArthur TO, Harrison KS, Pellant M (2003) Coordinated Intermountain restoration project – fire, decomposition and restoration. In ‘Proceedings of the VIIth International Rangelands Congress’, 26 July–1 August 2003, Durban, South Africa. (Eds N Allsopp, AR Palmer, SJ Milton, KP Kirkman, GIH Kerley, CR Hurt, CJ Brown) pp. 1116–1124. (Document Transformation Technologies: Irene, South Africa)

Rafferty DL , Young JA (2002) Cheatgrass competition and establishment of desert needlegrass seedlings. Journal of Range Management  55, 70–72.
Crossref | GoogleScholarGoogle Scholar | Scott RB, Harding AE, Hood WC, Cole RD, Livaccari RF, Johnson JB, Shroba RR, Dickerson RP (2001) Geologic Map of Colorado National Monument and adjacent areas, Mesa County, Colorado. US Geological Survey, Geologic Miscellaneous Investigations Series I-2740. (Denver, CO)

Shinneman DJ, Baker WL , Lyon P (2008) Ecological restoration needs derived from reference conditions for a semi-arid landscape in western Colorado, USA. Journal of Arid Environments  72, 207–227.
Crossref | GoogleScholarGoogle Scholar | Sokal RR, Rohlf FJ (1995) ‘Biometry.’ 3rd edn. (W.H. Freeman and Co.: New York)

Stohlgren TJ, Falkner MB , Schell LD (1995) A modified-Whittaker nested vegetation sampling method. Vegetatio  117, 113–121.
Crossref | GoogleScholarGoogle Scholar | USDA Natural Resource Conservation Service (2005) ‘The PLANTS Database.’ Version 3.5. (Ed. MW Skinner) (National Plant Data Center: Baton Rouge, LA) Available at http://plants.usda.gov [Verified 18 March 2009]

Welsch RE, Kuh E (1977) Linear regression diagnostics. Technical Report 923–77. (Sloan School of Management: Cambridge, MA)

West NE , Yorks TP (2002) Vegetation responses following wildfire on grazed and ungrazed sagebrush semidesert. Journal of Range Management  55, 171–181.
Crossref | GoogleScholarGoogle Scholar | Whisenant SG (1990) Changing fire frequencies on Idaho’s Snake River Plains: ecological and management implications. In ‘Proceedings – Symposium on Cheatgrass Invasion, Shrub Die-Off, and Other Aspects of Shrub Biology and Management’. (Eds ED McArthur, EM Romney, SD Smith, PD Tueller) USDA Forest Service, Intermountain Research Station, General Technical Report INT-GTR-313, pp. 4–10. (Ogden, UT)

Williams CN, Vose RS, Easterling DR, Menne MJ (2004) United States historical climatology network daily temperature, precipitation, and snow data. Oak Ridge National Laboratory, Carbon Dioxide Information Analysis Center, ORNL/CDIAC-118, NDP-070. (Oak Ridge, TN)

Young JA, Evans RA , Major J (1972) Alien plants in the Great Basin. Journal of Range Management  25, 194–201.
Crossref | GoogleScholarGoogle Scholar |

Young JA, Clements CD , Jones T (2003) Germination of seeds of big and bottlebrush squirreltail. Journal of Range Management  56, 277–281.
Crossref | GoogleScholarGoogle Scholar |