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“Agent-based Modeling of Future Wildfire Risk”. International Symposium on Society and Resource Management, Madison, WI, 2011. Prato ABM presentation_6_2_11.pdf (1.17 MB)
, “Characterizing Firewise and fuel reduction activities among private landowners”. USDA Forest Service PNW Research Station, 2013. kline_saf_saturday_4pm_2013.pdf (2.12 MB)
, “Characterizing private landowners’ fuel reduction activities for coupled systems modeling in Oregon’s (USA) ponderosa pine ecoregion”. USDA Forest Service PNW Research Station, 2013. kline_landscape_ecology_2013.pdf (2.2 MB)
, “Considering the Suitability of Engaging Stakeholders in Forest-Based Socio-Ecological Systems Modeling”. International Symposium on Society and Resource Management, Madison, WI, 2011. ISSRM_2011_Gorczyca_Final.pdf (878.82 KB)
, “Envisioning Future Landscape Trajectories”. 2010. ENVISION_CNH_July2010.ppt (3.14 MB)
, “Forests, People, Fire: A coupled human and natural system in a fire-prone landscape”, FPF Presentation at LTER Science Hour. FPF Presentation at LTER Science Hour, 2012. fpf_presentation_at_lter_science_hour.pdf (4.11 MB)
, “Free agents and social networks: modeling socio-ecological adaptation in fire-prone landscapes”. International Symposium on Society and Resource Management, Madison, WI, 2011. fischerap_issrm_060511.pdf (2.53 MB)
, “Influence of ownership institutional and environmental history on fire-prone forest landscape change: applications of historic FIA data”, BROWN-BAG TALK FOR PNW RESEARCH STATION, PORTLAND LAB. Portland, 2014. influence_of_ownership_institutional_and_env_history_on_fire-prone_forest_ls_change_072214_final.pdf (4.71 MB)
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“Modeling socio-ecological adaptation in fire-prone landscapes”. Society for Applied Anthropology, 2011. SFAA_APFischer_033111.pdf (3.07 MB)
, “Pressing issues in social simulation: From building models to building science”. School of Planning, University of Waterloo, Waterloo, Ontario, Canada, 2010. parker_MABS_10May2010.ppt (2.23 MB)
, “Representing Landowners in a Dynamic Agent-Based Model: A Tool for a Fuzzy World”. International Symposium on Society and Resource Management, Madison, WI, 2011. Nielsen-Pincus - Fuzzy Agents - ISSRM 2011.pdf (4.85 MB)
, “Some key challenges in modeling coupled human-natural systems, illustrated through agent-based land-use modeling research”. School of Planning, University of Waterloo, 2010. Parker_LJclass_25Oct2010_nopics.ppt (3.9 MB)
, “Improving Management Decisions”, in Wildfire Risk: Human Perceptions and Management Implications, Washington , DC: Resources for the Future, 2007, pp. 173-193.
, “Analyzing wildfire exposure and source-sink relationships on a fire prone forest landscape”, Forest Ecology and Management, vol. 267, pp. 271 - 283, 2012.
, “Applying information network analysis to fire-prone landscapes: implications for community resilience”, Ecology and Society, vol. 22, 2017.
, “Background on the Institutional Analysis and Development Framework.”, Policy Studies Journal, vol. 39, pp. 7 - 27, 2011.
, “A burning problem: social dynamics of disaster risk reduction through wildfire mitigation”, Human Organization, pp. 329–340, 2015.
, “Capacity to adapt to environmental change: evidence from a network of organizations concerned with increasing wildfire risk”, Ecology and Society, vol. 22, 2017.
, “Changing Beliefs and Building Trust at the Wildland/Urban Interface”, Fire Management Today, vol. 66, pp. 51-54, 2006.
, “Characterizing dynamic spatial and temporal residential density patterns from 1940-1990 across the North Central United States”, Landscape and Urban Planning, vol. 69, pp. 183 - 199, 2004.
, “A comparison of landscape fuel treatment strategies to mitigate wildland fire risk in the urban interface and preserve old forest structure”, Forest Ecology and Management, vol. 259, pp. 1556 - 1570, 2010.
, “Complexity, land-use modeling, and the human dimension: Fundamental challenges for mapping unknown outcome spaces”, Geoforum, vol. 39, pp. 789 - 804, 2008.
, “A conceptual design for a bilateral agent-based land market with heterogeneous economic agents”, Computers, Environment and Urban Systems, vol. 32, pp. 454 - 463, 2008.
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