Wildfire Management and Forecasting Fire Potential: The Roles of Climate Information and Social Networks in the Southwest United States

Gigi Owen Climate Assessment for the Southwest, The University of Arizona, Tucson, Arizona

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Jonathan D. McLeod Climate Assessment for the Southwest, The University of Arizona, Tucson, Arizona

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Crystal A. Kolden Department of Geography, University of Idaho, Moscow, Idaho

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Daniel B. Ferguson Climate Assessment for the Southwest, The University of Arizona, Tucson, Arizona

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Timothy J. Brown Desert Research Institute, Reno, Nevada

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Abstract

Continuing progress in the fields of meteorology, climatology, and fire ecology has enabled more proactive and risk-tolerant wildland fire management practices in the United States. Recent institutional changes have also facilitated the incorporation of more advanced climate and weather research into wildland fire management. One of the most significant changes was the creation of Predictive Services in 1998, a federal interagency group composed, in part, of meteorologists who create climate- and weather-based fire outlooks tailored to fire manager needs. Despite the numerous forecast products now available to fire managers, few studies have examined how these products have affected their practices. In this paper the authors assess how fire managers in the Southwest region of the United States perceive and incorporate different types of information into their management practices. A social network analysis demonstrates that meteorologists have become central figures in disseminating information in the regional interagency fire management network. Interviews and survey data indicate that person-to-person communication during planning phases prior to the primary fire season is key to Predictive Services’ success in supporting fire managers’ decision making. Over several months leading up to the fire season, predictive forecasts based on complex climate, fuels, and fire-risk models are explained to fire managers and updated through frequent communication. The study’s findings suggest that a significant benefit of the information sharing process is the dialogue it fosters among fire managers, locally, regionally, and nationally, which better prepares them to cooperate and strategically plan for the fire season.

Corresponding author address: Gigi Owen, CLIMAS, The University of Arizona, P.O. Box 210156, Tucson, AZ 85721-0156. E-mail: gigi@email.arizona.edu

Abstract

Continuing progress in the fields of meteorology, climatology, and fire ecology has enabled more proactive and risk-tolerant wildland fire management practices in the United States. Recent institutional changes have also facilitated the incorporation of more advanced climate and weather research into wildland fire management. One of the most significant changes was the creation of Predictive Services in 1998, a federal interagency group composed, in part, of meteorologists who create climate- and weather-based fire outlooks tailored to fire manager needs. Despite the numerous forecast products now available to fire managers, few studies have examined how these products have affected their practices. In this paper the authors assess how fire managers in the Southwest region of the United States perceive and incorporate different types of information into their management practices. A social network analysis demonstrates that meteorologists have become central figures in disseminating information in the regional interagency fire management network. Interviews and survey data indicate that person-to-person communication during planning phases prior to the primary fire season is key to Predictive Services’ success in supporting fire managers’ decision making. Over several months leading up to the fire season, predictive forecasts based on complex climate, fuels, and fire-risk models are explained to fire managers and updated through frequent communication. The study’s findings suggest that a significant benefit of the information sharing process is the dialogue it fosters among fire managers, locally, regionally, and nationally, which better prepares them to cooperate and strategically plan for the fire season.

Corresponding author address: Gigi Owen, CLIMAS, The University of Arizona, P.O. Box 210156, Tucson, AZ 85721-0156. E-mail: gigi@email.arizona.edu
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  • Abatzoglou, J. T., and Kolden C. A. , 2011: Climate change in western US deserts: Potential for increased wildfire and invasive annual grasses. Rangeland Ecol. Manage., 64, 471478.

    • Search Google Scholar
    • Export Citation
  • Arno, S., and Allison-Bunnell S. F. , 2002: Flames in Our Forest: Disaster or Renewal? Island Press, 245 pp.

  • Borgatti, S. P., 2005: Centrality and network flow. Soc. Networks, 27, 5571.

  • Borgatti, S. P., Everett M. G. , and Freeman L. C. , 2002: UCINET 6 for Windows. Analytic Technologies.

  • Borgatti, S. P., Mehra A. , Brass D. J. , and Labianca G. , 2009: Network analysis in the social sciences. Science, 323, 892895.

  • Breiger, R. L., 2009: The analysis of social networks. Handbook of Data Analysis, M. A. Hardy and A. Bryman, Eds., Sage Publications, Ltd., 505–526.

  • Brown, T. J., Hall B. L. , and Westerling A. L. , 2004: The impact of twenty-first century climate change on wildland fire danger in the western United States: An applications perspective. Climatic Change, 62, 365388.

    • Search Google Scholar
    • Export Citation
  • Carrington, P. J., Scott J. , and Wasserman S. , 2005: Models and Methods in Social Network Analysis. Cambridge University Press, 344 pp.

  • Colby, B. G., and Frisvold G. B. , Eds., 2011: Adaptation and Resilience: The Economics of Climate, Water, and Energy Challenges in the American Southwest. RFF Press Water Policy Series, Earthscan, 264 pp.

  • Corringham, T. W., Westerling A. L. , and Morehouse B. J. , 2008: Exploring use of climate information in wildland fire management: A decision calendar study. J. For., 106, 7177.

    • Search Google Scholar
    • Export Citation
  • Federal Wildland Fire Management Policy and Program Review, 1995: Final report—December 18, 1995. U.S. Department of the Interior, U.S. Department of Agriculture, 45 pp.

  • Flannigan, M. D., Krawchuk M. A. , de Groot W. J. , Wotton M. , and Gowman L. M. , 2009: Implications of changing climate for global wildland fire. Int. J. Wildland Fire, 18, 483507.

    • Search Google Scholar
    • Export Citation
  • Freeman, L. C., 1979: Centrality in social networks: Conceptual clarification. Soc. Networks, 1, 215239.

  • Garfin, G., and Morehouse B. J. , Eds., 2001: 2001 fire and climate workshops: Workshop proceedings. Climate Assessment for the Southwest, The University of Arizona, 81 pp. [Available online at http://www.climas.arizona.edu/files/climas/pubs/fire2001_0.pdf.]

  • Garfin, G., and Morehouse B. J. , Eds., 2005: Fire in the West: Workshop proceedings. Climate Assessment for the Southwest, The University of Arizona, 83 pp. [Available online at http://www.climas.arizona.edu/files/climas/pubs/2002fireproceedings.pdf.]

  • Gober, P., and Kirkwood C. W. , 2010: Vulnerability assessment of climate-induced water shortage in Phoenix. Proc. Natl. Acad. Sci. USA, 107, 21 29521 299.

    • Search Google Scholar
    • Export Citation
  • Interagency Federal Wildland Fire Policy Review Working Group, 2001: Review and update of the 1995 Federal Wildland Fire Management policy report. National Interagency Fire Center, 84 pp.

  • Jones, L., and Colby B. , 2010: Weather, climate, and environmental water transactions. Wea. Climate Soc., 2, 210223.

  • Kolden, C. A., and Brown T. J. , 2010: Beyond wildfire: Perspectives of climate, managed fire and policy in the USA. Int. J. Wildland Fire, 19, 364373.

    • Search Google Scholar
    • Export Citation
  • Liverman, D. M., and Merideth R. , 2002: Climate and society in the US Southwest: The context for a regional assessment. Climate Res., 21, 199218.

    • Search Google Scholar
    • Export Citation
  • Machlis, G. E., Kaplan A. B. , Tuler S. P. , Bagby K. A. , and McKendry J. E. , 2002: Burning questions: A social science research plan for Federal Wildland Fire Management. Contribution 943, Idaho Forest, Wildlife and Range Experiment Station, College of Natural Resources, University of Idaho, 253 pp.

  • McKenzie, D., Gedalof Z. , Peterson D. L. , and Mote P. , 2004: Climatic change, wildfire, and conservation. Conserv. Biol., 18, 890902.

    • Search Google Scholar
    • Export Citation
  • Morehouse, B. J., Ed., 2000: The implications of La Niña and El Niño for fire management: Workshop proceedings. Climate Assessment for the Southwest, Institute for the Study of Planet Earth, The University of Arizona, 45 pp. [Available online at http://www.climas.arizona.edu/files/climas/pubs/fireproc.pdf.]

  • National Park Service, 2001: Cerro Grande prescribed fire: Board of Inquiry final report. National Park Service, 47 pp.

  • Pagano, T. C., Hartmann H. C. , and Sorooshian S. , 2002: Factors affecting seasonal forecast use in Arizona water management: A case study of the 1997-98 El Niño. Climate Res., 21, 259269.

    • Search Google Scholar
    • Export Citation
  • Scott, J., 1991: Social Network Analysis: A Handbook. Sage Publications, 209 pp.

  • Sheppard, P. R., Comrie A. C. , Packin G. D. , Angersbach K. , and Hughes M. K. , 2002: The climate of the US Southwest. Climate Res., 21, 219238.

    • Search Google Scholar
    • Export Citation
  • Southwest Coordination Center, cited 2011a: Historical—Fires and acres. [Available online at http://gacc.nifc.gov/swcc/predictive/intelligence/ytd_historical/historical/wildland_fire/large_fires/stats_and_graphs/wf_100_by_state_month.pdf.]

  • Southwest Coordination Center, cited 2011b: 2011 year-to-date fires and acres. [Available online at http://gacc.nifc.gov/swcc/predictive/intelligence/ytd_historical/historical/wildland_fire/fires_and_acres/2011_eoy_state.pdf.]

  • Swetnam, T. W., and Betancourt J. L. , 1992: Temporal patterns of El Niño/Southern Oscillation—Wildfire teleconnections in the southwestern United States. El Niño: Historical and Paleoclimatic Aspects of the Southern Oscillation, H. F. Diaz and V. M. Markgraf, Eds., Cambridge University Press, 259–270.

  • Swetnam, T. W., and Betancourt J. L. , 1998: Mesoscale disturbance and ecological response to decadal climatic variability in the American Southwest. J. Climate, 11, 31283147.

    • Search Google Scholar
    • Export Citation
  • Wasserman, S., and Faust K. , 1994: Social Network Analysis: Methods and Applications. Cambridge University Press, 857 pp.

  • Westerling, A. L., Gershunov A. , Brown T. J. , Cayan D. R. , and Dettinger M. D. , 2003: Climate and wildfire in the western United States. Bull. Amer. Meteor. Soc., 84, 595604.

    • Search Google Scholar
    • Export Citation
  • Westerling, A. L., Hidalgo H. G. , Cayan D. R. , and Swetnam T. W. , 2006: Warming and earlier spring increase western U.S. forest wildfire activity. Science, 313, 940943.

    • Search Google Scholar
    • Export Citation
  • Williams, A. P., Allen C. D. , Miller C. I. , Swetnam T. W. , Michaelsen J. , Still C. J. , and Leavitt S. W. , 2010: Forest responses to increasing aridity and warmth in the southwestern United States. Proc. Natl. Acad. Sci. USA, 107, 21 28921 294.

    • Search Google Scholar
    • Export Citation
  • Winter, P. L., and Wordell T. A. , 2010: An evaluation of the Predictive Services program. Fire Manage. Today, 69, 2833.

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