Register      Login
International Journal of Wildland Fire International Journal of Wildland Fire Society
Journal of the International Association of Wildland Fire
RESEARCH ARTICLE

Predicting and mitigating weed invasions to restore natural post-fire succession in Mesa Verde National Park, Colorado, USA

M. Lisa Floyd A C , David Hanna A , William H. Romme B and Timothy E. Crews A
+ Author Affiliations
- Author Affiliations

A Environmental Studies Program, Prescott College, 220 Grove Ave, Prescott, AZ 81301, USA.

B Department of Forest, Rangeland and Watershed Stewardship, Colorado State University, Fort Collins, CO 80523, USA.

C Corresponding author. Email: lfloyd-hanna@prescott.edu

International Journal of Wildland Fire 15(2) 247-259 https://doi.org/10.1071/WF05066
Submitted: 15 June 2005  Accepted: 1 December 2005   Published: 31 May 2006

Abstract

Six large wildfires have burned in Mesa Verde National Park during the last 15 years, and extensive portions of burns were invaded by non-native plant species. The most threatening weed species include Carduus nutans, Cirsium arvense, and Bromus tectorum, and if untreated, they persist at least 13 years. We investigated patterns of weed distribution to identify plant communities most vulnerable to post-fire weed invasion and created a spatially explicit model to predict the most vulnerable sites. At the scale of the entire park, mature piñon–juniper woodlands growing on two soil series were most vulnerable to post-fire weed invasion; mountain shrublands were the least vulnerable. At a finer scale, greater richness of native species was correlated with greater numbers of non-native species, indicating that habitats with high native biodiversity are at the greatest risk of weed invasion. In unburned areas, weed density increased with greater soil nitrogen and phosphorus, and lower salinity. In burned areas weed density correlated with soil nitrogen status and textural class. We also evaluated the effectiveness of a variety of weed mitigation methods; aerial seeding of targeted high-risk areas with native grasses was the most effective treatment tested. We recommend a conservative mitigation plan using natives grass seed on only the most invasible sites.

Additional keywords: functional groups; invasive plants; native grasses; nutrient availability; piñon-juniper woodlands; soils.


References


Allen CD (2002) Lots of lightning and plenty of people: an ecological history of fire in the upland Southwest. In ‘Fire, native peoples, and the natural landscape’. (Ed. T Vale) pp.143–193. (Island Press: Washington)

Allen CD, Savage MS, Falk DA, Sucking KF, Swetnam TW, Schulke T, Stacey PB, Morgan P, Hoffman M , Klingel JT (2002) Ecological restoration of southwestern ponderosa pine ecosystems: a broad perspective. Ecological Applications  12, 1418–1433.
Austin DD (1999) Changes in plant composition within a pinyon–juniper woodland. In ‘Proceedings: ecology and management of pinyon–juniper communities within the Interior West’. 15–18 September 1997, Provo, Utah. (Eds SB Monsen, S Stevens) pp. 138–140. USDA Forest Service Rocky Mountain Research Station Paper RMRS-P-9. (Ogden, UT)

Austin MP, Groves RH, Fresco LMF , Kaye PE (1985) Relative growth of six thistle species along a nutrient gradient with multispecies competition. Journal of Ecology  73, 667–684.
Balba AM (1995) ‘Management of problem soils in arid ecosystems.’ (CRC Press: Boca Raton, FL)

Bashkin M, Stohlgren TJ, Otsuki Y, Lee M, Evangelista P , Belnap J (2003) Soil characteristics and plant exotic species invasions in the Grand Staircase-Escalante National Monument, Utah, USA. Applied Soil Ecology  22, 67–77.
Crossref | GoogleScholarGoogle Scholar | Binkley D, Vitousek PM (1991) Soil nutrient availability. In ‘Plant physiological ecology’. (Eds RW Pearcy, J Ehleringer, HA Mooney, PW Rundel) pp. 75–96. (Chapman and Hall: London)

Byers JE, Reichard S, Randall JM, Parker IM , Smith CS (2002) Directing research to reduce the impacts of non-indigenous species. Conservation Biology  16, 630–640.
Crossref | GoogleScholarGoogle Scholar | Eisenhart KS (2004) Historic range of variability and stand development in piñon–juniper woodlands of western Colorado. PhD Dissertation, University of Colorado, Boulder, CO.

Elton CS (1958) ‘The ecology of invasions by animals and plants.’ (Methuen: London)

Floyd ML, Colyer M (2003) Beneath the trees: shrubs, herbs, and some surprising rarities. In ‘Ancient piñon–juniper woodlands: a natural history of Mesa Verde Country’. (Ed. ML Floyd) pp. 31–60. (University Press of Colorado: Boulder, CO)

Floyd ML, Romme WH , Hanna DD (2000) Fire history and vegetation pattern in Mesa Verde National Park, Colorado, USA. Ecological Applications  10, 1666–1680.

Crossref | Floyd ML, Hanna D, Salamacha G (2001) Post-fire treatment of noxious weeds in Mesa Verde National Park, Colorado. In ‘Proceedings of the Fifth Biennial Conference of Research on the Colorado Plateau’. US Geological Survey/FRESC Report Series USGSFRESC/COPL/2001/24. (Eds C van Riper III, KA Thomas, MS Stuart) pp. 147–156. (Northern Arizona University: Flagstaff, AZ)

Floyd ML, Romme WH , Hanna DD (2004) Historical and recent fire regimes in piñon–juniper woodlands on Mesa Verde, Colorado, USA. Forest Ecology and Management  198, 269–289.
Crossref | GoogleScholarGoogle Scholar | Janzen HH (1993) Soluble salts. In ‘Soil sampling and methods of analysis’. (Ed. MR Carter) pp. 161–166. (CRC Press: Boca Raton, FL)

Keeley JE (2004) Ecological impacts of wheat seeding after a Sierra Nevada wildfire. International Journal of Wildland Fire  13, 73–78.
Crossref | GoogleScholarGoogle Scholar | Lajtha K, Driscoll CT, Jarrell WM, Elliott ET (1999) Soil phosphorus: characterization and total element analysis. In ‘Standard soil methods for long term ecological research’. (Eds GP Robertson, DC Coleman, CS Bledsoe, P Sollins) pp. 115–142. (Oxford University Press: New York)

Lehman CL , Tilman D (2000) Biodiversity, stability, and productivity in competitive communities. American Naturalist  156, 534–552.
Crossref | GoogleScholarGoogle Scholar | Mohler CL (2001) Weed life history: identifying vulnerabilities. In ‘Ecological management of agricultural weeds’. (Eds M Liebman, CL Mohler, CP Slaver) pp. 40–98. (Cambridge University Press: Cambridge)

Mueller-Dombois D, Ellenberg H (2002) ‘Aims and methods of vegetation ecology.’ (Blackburn Press: New Jersey)

Naillon D, Memmott K, Monsen SB (1999) A comparison of understory species at three densities in a pinyon–juniper woodland. In ‘Proceedings: ecology and management of pinyon–juniper communities within the Interior West’. 15–18 September 1997, Provo, Utah. (Eds SB Monsen, S Stevens) pp. 72–75. USDA Forest Service Rocky Mountain Research Station Paper RMRS-P-9. (Ogden, UT)

Prieur-Richard A , Lavorel S (2000) Invasions: the perspective of diverse plant communities. Austral Ecology  25, 1–7.
Crossref | GoogleScholarGoogle Scholar | Robichaud PR, Beyers JL, Nearly DG (2000) ‘Evaluating the effectiveness of post-fire rehabilitation treatments.’ USDA Forest Service, Rocky Mountain Research Station General Technical Report RMRS-GTR-63. (Fort Collins, CO)

Romme WH, Floyd ML, Hanna DD (2003) Ancient piñon–juniper forests of Mesa Verde: A cautionary note about thinning and burning for restoration. In ‘Fire, Fuel Treatments, and Ecological Restoration: Conference Proceedings’. 16–18 April 2002, Fort Collins, Colorado. (Eds PN Omi, L Joyce) pp. 335–352. USDA Forest Service Publication RNRS-P-29. (Fort Collins, CO)

Sheldrick BH, Wang C (1993) Particle size distribution. In ‘Soil sampling and methods of analysis’. (Ed. MR Carter) pp. 499–511. (CRC Press: Boca Raton, FL)

Sokal RR, Rohlf FJ (1981) ‘Biometry.’ (WH Freeman and Co: New York)

Stohlgren TJ, Chong GW, Kalkhan MA , Schell LD (1997) Rapid assessment of plant diversity patterns: a methodology for landscapes. Environmental Monitoring and Assessment  48, 25–43.
Crossref | GoogleScholarGoogle Scholar | Weber WA, Wittmann RC (1999) ‘Colorado flora: western slope.’ (University Press of Colorado: Boulder, CO)

With KA (2002) The landscape ecology of invasive spread. Conservation Biology  16, 1192–1203.
Crossref | GoogleScholarGoogle Scholar |

Wycoff DG (1977) Secondary forest succession following abandonment of Mesa Verde. The Kiva  42, 215–231.