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RESEARCH ARTICLE
Contents Vol 18(6)

Influence of a native legume on soil N and plant response following prescribed fire in sagebrush steppe

Erin M. Goergen A C and Jeanne C. Chambers B
+ Author Affiliations
- Author Affiliations

A Department of Natural Resources and Environmental Science, University of Nevada, Reno, 1000 Valley Road, Reno, NV 89512, USA.

B US Forest Service, Rocky Mountain Research Station, 920 Valley Road, Reno, NV 89512, USA.

C Corresponding author. Email: goergene@unr.nevada.edu

International Journal of Wildland Fire 18(6) 665-675 https://doi.org/10.1071/WF08067
Submitted: 2 May 2008  Accepted: 11 November 2008   Published: 22 September 2009

Abstract

Woodland expansion affects grasslands and shrublands on a global scale. Prescribed fire is a potential restoration tool, but recovery depends on nutrient availability and species responses after burning. Fire often leads to long-term losses in total nitrogen, but presence of native legumes can influence recovery through addition of fixed nitrogen. We examined the effects of prescribed fire in the central Great Basin, Nevada, USA, on density, biomass and nutrient content of a native legume, Lupinus argenteus (Pursh), and the effects of Lupinus presence and prescribed fire on soil inorganic nitrogen and on neighboring plant functional groups. We examined three treatments – 1 year post-burn, 3 years post-burn and unburned control in three replicate blocks. Extractable soil inorganic nitrogen was variable and, despite a tendency towards increased inorganic nitrogen 1 year post-burn, differences among treatments were not significant. Extractable soil inorganic nitrogen was higher in Lupinus presence regardless of time since fire. Lupinus density increased after fire mainly owing to increased seedling numbers 3 years post-burn. Fire did not affect Lupinus tissue N and P concentrations, but cover of perennial grasses and forbs was higher in Lupinus presence. The invasive annual grass Bromus tectorum had low abundance and was unaffected by treatments. Results indicate that Lupinus has the potential to influence succession through modification of the post-fire environment.

Additional keywords: community recovery, disturbance, Lupinus argenteus, nitrogen.


Acknowledgements

We thank D. Board, E. Hoskins, K. Vicencio, R. Blank and T. Morgan for valuable assistance in the field and lab, D. Board and D. Turner for statistical guidance, and D. Johnson, R. Qualls, P. Weisberg, P. Verburg and anonymous reviewers for valuable comments that greatly improved this manuscript. Financial support was provided by the USDA Forest Service, Rocky Mountain Research station and from a Center for Invasive Plant Management seed money grant to J. C. Chambers and E. M. Goergen. Treatments and logistic support were provided by Humboldt–Toiyabe National Forest.


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