Implementation of mid-scale fire regime condition class mapping
Louis Provencher A C , Jeff Campbell B and Jan Nachlinger A
+ Author Affiliations
- Author Affiliations
A The Nature Conservancy, 1 East First Street, Suite 1007, Reno, NV 89509, USA.
B Spatial Solutions, Inc., 60575 Billadeau Road, Bend, OR 97702, USA.
C Corresponding author. Email: lprovencher@tnc.org
International Journal of Wildland Fire 17(3) 390-406 https://doi.org/10.1071/WF07066
Submitted: 31 May 2007 Accepted: 18 December 2007 Published: 23 June 2008
Abstract
We used mid-scale Fire Regime Condition Class (FRCC) mapping to provide Hawthorne Army Depot in the Mount Grant area of Nevada, USA, with data layers to plan fuels restoration projects to meet resource management goals. FRCC mapping computes an index of the departure of existing conditions from the natural range of variability, and consists of five primary steps: (1) mapping the Potential Natural Vegetation Types (PNVT) based on interpretation of a soil survey; (2) refining PNVTs based on additional information; (3) modelling the natural range of variability (NRV) per PNVT; (4) using field verification, calculation and mapping of departure of current distribution of structural vegetation classes interpreted by remote sensing (IKONOS 4-m resolution satellite imagery) from the NRV; and (5) mapping structural vegetation classes that differ from reference conditions. Pinyon–juniper and mountain mahogany woodlands were found within the NRV, whereas departure increased from moderate for low and big sagebrush PNVTs and mixed desert shrub to high for riparian mountain meadow. Several PNVTs showed departures that were close to FRCC class limits. The common recommendation to reach the NRV was to decrease the percentage of late-development closed and cheatgrass-dominant classes, thus increasing the percentage of early and mid-development classes.
Additional keywords: DOD, fire management, Great Basin, LANDFIRE, Nevada, pinyon–juniper, rangeland, sagebrush, soil survey, state-and-transition, woodland.
Acknowledgements
Research was funded by the USDA Forest Service, Department of the Interior, and The Nature Conservancy’s ‘Restoring Fire Adapted Ecosystems’ cooperative agreement (No. 02-CA-11132543–037) and the Department of Defence, Legacy Resource Management Program (No. DACA87–00-H-0002). Brian McMenamy and Mike Polly provided GIS assistance, and Ayn Shlisky supplied riparian VDDT models. We are especially grateful to Jim Purrell and John Peterson from Hawthorne Army Depot for support, logistic help, and participation, and to Ayn Shlisky, Doug Zollner, and Lynn Decker from TNC’s Global Fire Initiative. Ayn Shlisky, Doug Zollner, Kelly Pohl, Andrea Litt, and two anonymous reviewers generously reviewed earlier drafts of the manuscript. Mention of a proprietary product does not constitute a guarantee or warranty of the product by the Department of Defence or the authors and does not imply its approval to the exclusion of the other products that also may be suitable.
References
Barrett TM (2001) Models of vegetation change for landscape planning: a comparison of FETM, LANDSUM, SIMPPLLE, and VDDT. USDA Forest Service, Rocky Mountain Research Station, General Technical Report RMRS-GTR-76-WWW. (Ogden, UT)
Bestelmeyer BT, Brown JR, Trujillo DA , Havstad KM
(2004) Land management in the American South-west: a state-and-transition approach to ecosystem complexity. Environmental Management 34, 38–51.
| Crossref | GoogleScholarGoogle Scholar | PubMed |
Beukema SJ, Kurz WA, Pinkham CB, Milosheva K, Frid L (2003) ‘Vegetation Dynamics Development Tool, User’s Guide, Version 4.4c.’ (ESSA Technologies Ltd.: Vancouver, BC)
Burkhardt WJ , Tisdale EW
(1969) Nature and successional status of western juniper vegetation in Idaho. Journal of Range Management 22, 264–270.
| Crossref | GoogleScholarGoogle Scholar |
Hann WJ (2004) Mapping Fire Regime Condition Class: a method for watershed and project scale analysis. In ‘Proceedings 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: Tallahassee, FL)
Hann WJ , Bunnell DL
(2001) Fire and land management planning and implementation across multiple scales. International Journal of Wildland Fire 10, 389–403.
| Crossref | GoogleScholarGoogle Scholar |
Hann WJ, Strom DS (2003) Fire Regime Condition Class and associated data for fire and fuels planning: methods and applications. USDA Forest Service, Rocky Mountain Research Station, RMRS-P-29. (Fort Collins, CO)
Hann WJ, Havlina D, Shlisky A, Barrett S, Pohl K (2003a) Project scale Fire Regime and Condition Class guidebook. USDA Forest Service, US Department of the Interior, The Nature Conservancy, and Systems for Environmental Management. Available at http://frames.nbii.gov/frcc/documents/FRCC_Guidebook_08.01.17.pdf [Verified November 2005]
Hann WJ, Wisdom MJ, Rowland MM (2003b) Disturbance departure and fragmentation of natural systems in the Interior Columbia Basin. USDA Forest Service, Pacific Northwest Research Station, Research Paper PNW-RP-545. (Portland, OR)
Hardy CC, Schmidt KM, Menakis JP , Samson RN
(2001) Spatial data for national fire planning and fuel management. International Journal of Wildland Fire 10, 353–372.
| Crossref | GoogleScholarGoogle Scholar |
Kaufmann MR, Graham RT, Boyce DAJr, Moir WH, Perry L, Reynolds RT, Bassett RL, Mehlhop P, Edminster CB, Block WM, Corn PS (1994) An ecological basis for ecosystem management. USDA Forest Service, Rocky Mountain Forest and Range Experiment Station, General Technical Report RM-246. (Fort Collins, CO)
Keane RE, Rollins MG, McNicoll CH, Parsons RA (2002) Integrating ecosystem sampling, gradient modeling, remote sensing, and ecosystem simulation to create spatially explicit landscape inventories. USDA Forest Service, Rocky Mountain Research Station, General Technical Report RMRS-GTR-92. (Fort Collins, CO)
Lilles TM, Kiefer RW (2000) ‘Remote Sensing and Image Interpretation.’ 4th edn. (Wiley: New York)
McNicoll CH, Hann WJ (2004) Multi-scale planning and implementation to restore fire-adapted ecosystems, and reduce risk to the urban/wildland interface in the Box Creek watershed. In ‘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: Tallahassee, FL)
Menakis JP, Osborne D, Miller M (2003) Mapping the cheatgrass-caused departure from historical natural fire regimes in the Great Basin. In ‘Fire, fuel treatments, and ecological restoration: Conference proceedings’, 16–18 April 2002, Fort Collins, CO. (Tech. Eds PN Omi, LA Linda) USDA Forest Service, Rocky Mountain Research Station, RMRS-P-29. (Fort Collins, CO)
Miller RE , Fowler NL
(1994) Life history variation and local adaptation within two populations of Bouteloua rigidiseta (Texas grama). Journal of Ecology 82, 855–864.
| Crossref | GoogleScholarGoogle Scholar |
Quattrochi DA, Goodchild MF (Eds) (1997) ‘Scale in Remote Sensing and GIS.’ (Lewis Publishers/CRC Press: Boca Raton, FL)
Schmidt KM, Menakis JP, Hardy CC, Hann WJ, Bunnell DL (2002) Development of coarse-scale spatial data for wildland fire and fuel management. USDA Forest Service, Rocky Mountain Research Station, General Technical Report RMRS-GTR-87. (Fort Collins, CO) 41 pp. + CD.
Shlisky AJ, Hann WJ (2003) Rapid scientific assessment of mid-scale fire regime conditions in the western US. In ‘Proceedings of 3rd International Wildland Fire Conference’, 4–6 October. Sydney, Australia.
Shlisky AJ, Zollner D, Andre J, Simon S (2003) Application of the Fire Regime Condition Class process to collaborative multi-scale land management planning in the Boston Mountains, Arkansas. In ‘Proceedings of 2nd International Wildland Fire Ecology and Fire Management Congress’, 16–20 November, Orlando, FL. (American Meteorological Society: Boston, MA)
Swetnam TW, Allen CD , Betancourt J
(1999) Applied historical ecology: using the past to manage for the future. Ecological Applications 9, 1189–1206.
| Crossref | GoogleScholarGoogle Scholar |
Taylor M (2005) IKONOS radiometric calibration and performance after 5 years on orbit. In ‘Proceedings of CALCON 2005 Conference’, 22–25 August 2005, Logan, UT.
The Nature Conservancy, USDA Forest Service, Department of the Interior (2006) LANDFIRE Vegetation Dynamics Modeling Manual, Version 4.1. March 2006. (Boulder, CO)
USDA Natural Resources Conservation Service (2003) Ecological site descriptions for Nevada. Nevada State Office, Technical Guide, Section IIE. MLRAs 28B, 28A, 29, 25, 24, 23. (Reno, NV)
USDA Soil Conservation Service (1991) Soil survey of Hawthorne Army Ammunition Plant, Nevada, part of Mineral County. USDA SCS in cooperation with US Department of Army. Available at www.soildatamart.ncrs.usda.gov [Verified June 2008]
Weisberg PJ, Lingua E, Rekha B , Pillai RB
(2007) Spatial patterns of pinyon–juniper woodland expansion in central Nevada. Rangeland Ecology and Management 60, 115–124.
| Crossref | GoogleScholarGoogle Scholar |
West NE (1999) Juniper and pinyon savannas and woodlands of western Northern America. In ‘Savannas, Barrens and Rock Outcrops: Plants Communities of North America’. (Cambridge University Press: Cambridge, UK)
Westoby M, Walker BH , Noy-Meir I
(1989) Opportunistic management for rangelands not at equilibrium. Journal of Range Management 42, 266–274.
| Crossref | GoogleScholarGoogle Scholar |
Wildland Fire Leadership Council (2004) LANDFIRE Charter: Landscape fire and resource management planning tools project. Sponsored by Wildland Fire Leadership Council, USDA Forest Service, and Department of the Interior. (Washington, DC)
