00620nas a2200181 4500008004100000245010600041210006900147490000700216653001900223653003100242653000800273653002500281653001900306653001300325100002300338700002100361856005600382 2017 eng d00aApplying information network analysis to fire-prone landscapes: implications for community resilience0 aApplying information network analysis to fireprone landscapes im0 v2210aclimate change10acommunity-based adaptation10afpf10ainformation networks10aSocial capital10awildfire1 aJacobs, Derric, B.1 aCramer, Lori, A. uhttps://www.ecologyandsociety.org/vol22/iss1/art52/00586nas a2200133 4500008004100000245012800041210006900169260002800238490000700266653000800273100001500281700001800296856013800314 2017 eng d00aCapacity to adapt to environmental change: evidence from a network of organizations concerned with increasing wildfire risk0 aCapacity to adapt to environmental change evidence from a networ bThe Resilience Alliance0 v2210afpf1 aFischer, A1 aJasny, Lorien uhttps://fpf.forestry.oregonstate.edu/capacity-adapt-environmental-change-evidence-network-organizations-concerned-increasing-wildfire00669nas a2200217 4500008004100000022001400041245006900055210006900124300001400193490000700207653003900214653001300253653000800266653001400274653000800288100002600296700002100322700001900343700001800362856007100380 2017 eng d a0362-331900aDeterminants of residential Firewise behaviors in Central Oregon0 aDeterminants of residential Firewise behaviors in Central Oregon a168 - 1780 v5410aCommunity Wildfire Protection Plan10aFirewise10afpf10aWildfires10aWUI1 aWolters, Erika, Allen1 aSteel, Brent, S.1 aWeston, Daniel1 aBrunson, Mark uhttp://www.sciencedirect.com/science/article/pii/S036233191630089100583nas a2200157 4500008004100000245009000041210006900131490000700200653000800207100002000215700002100235700001600256700001600272700002100288856011600309 2017 eng d00aDiversity in forest management to reduce wildfire losses: implications for resilience0 aDiversity in forest management to reduce wildfire losses implica0 v2210afpf1 aCharnley, Susan1 aSpies, Thomas, A1 aBarros, Ana1 aWhite, Eric1 aOlsen, Keith, A. uhttps://fpf.forestry.oregonstate.edu/diversity-forest-management-reduce-wildfire-losses-implications-resilience00865nas a2200253 4500008004100000245011800041210006900159490000700228653001300235653004200248653002300290653000800313653002300321653002400344653003200368100001900400700002300419700002900442700002200471700002100493700002100514700002000535856005600555 2017 eng d00aEffects of accelerated wildfire on future fire regimes and implications for the United States federal fire policy0 aEffects of accelerated wildfire on future fire regimes and impli0 v2210aEnvision10aforest landscape disturbance modeling10aForest restoration10afpf10awildfire feedbacks10aWildfire simulation10awildfire suppression policy1 aAger, Alan, A.1 aBarros, Ana, M. G.1 aPreisler, Haiganoush, K.1 aDay, Michelle, A.1 aSpies, Thomas, A1 aBailey, John, D.1 aBolte, John, P. uhttps://www.ecologyandsociety.org/vol22/iss4/art12/00641nas a2200169 4500008004100000245015900041210007100200260002800271490000700299653000800306100002500314700002300339700001500362700002100377700001700398856005600415 2017 eng d00aExamining the influence of biophysical conditions on wildland–urban interface homeowners’ wildfire risk mitigation activities in fire-prone landscapes0 aExamining the influence of biophysical conditions on wildland–ur bThe Resilience Alliance0 v2210afpf1 aOlsen, Christine, S.1 aKline, Jeffrey, D.1 aAger, Alan1 aOlsen, Keith, A.1 aShort, Karen uhttps://www.ecologyandsociety.org/vol22/iss1/art21/00640nas a2200145 4500008004100000245012400041210006900165653000800234100001500242700002000257700002100277700002300298700002000321856015300341 2017 eng d00aForests, people, fire: Integrating the sciences to build capacity for an “All Lands” approach to forest restoration0 aForests people fire Integrating the sciences to build capacity f10afpf1 aOliver, M.1 aCharnley, Susan1 aSpies, Thomas, A1 aKline, Jeffery, D.1 aWhite, Eric, M. uhttps://fpf.forestry.oregonstate.edu/forests-people-fire-integrating-sciences-build-capacity-%E2%80%9Call-lands%E2%80%9D-approach-forest-restoration00824nas a2200205 4500008004100000245021500041210006900256490000700325653003700332653002600369653000800395653001700403653002900420653001900449653002400468100003000492700002000522700002000542856005600562 2017 eng d00aHistorical perspective on the influence of wildfire policy, law, and informal institutions on management and forest resilience in a multiownership, frequent-fire, coupled human and natural system in Oregon, USA0 aHistorical perspective on the influence of wildfire policy law a0 v2210acoupled human and natural system10aenvironmental history10afpf10ainstitutions10amultiownership landscape10atribal forests10awildfire management1 aSteen-Adams, Michelle, M.1 aCharnley, Susan1 aAdams, Mark, D. uhttps://www.ecologyandsociety.org/vol22/iss3/art23/00525nas a2200157 4500008004100000245007800041210006900119260002800188490000700216653000800223100002000231700002100251700001600272700002300288856005600311 2017 eng d00aIntegrating Ecological and Social Knowledge: Learning from CHANS Research0 aIntegrating Ecological and Social Knowledge Learning from CHANS bThe Resilience Alliance0 v2210afpf1 aShindler, Bruce1 aSpies, Thomas, A1 aBolte, John1 aKline, Jeffrey, D. uhttps://www.ecologyandsociety.org/vol22/iss1/art26/00840nas a2200253 4500008004100000245009000041210006900131490000700200653001000207653003800217653000800255653004400263653003100307653001300338100002300351700002000374700001900394700003000413700002000443700002500463700002100488700002100509856005600530 2017 eng d00aIntegrating social science into empirical models of coupled human and natural systems0 aIntegrating social science into empirical models of coupled huma0 v2210aCHANS10acoupled human and natural systems10afpf10aintegrated social and ecological models10ainterdisciplinary research10awildfire1 aKline, Jeffrey, D.1 aWhite, Eric, M.1 aFischer, Paige1 aSteen-Adams, Michelle, M.1 aCharnley, Susan1 aOlsen, Christine, S.1 aSpies, Thomas, A1 aBailey, John, D. uhttps://www.ecologyandsociety.org/vol22/iss3/art25/00736nas a2200229 4500008004100000245011700041210006900158490000700227653000800234100001600242700001900258700001800277700001700295700002100312700001600333700002200349700002100371700002100392700002100413700001600434856005600450 2017 eng d00aSpatiotemporal dynamics of simulated wildfire, forest management and forest succession in central Oregon, U.S.A.0 aSpatiotemporal dynamics of simulated wildfire forest management 0 v2210afpf1 aBarros, Ana1 aAger, Alan, A.1 aDay, Michelle1 aPreisler, H.1 aSpies, Thomas, A1 aWhite, Eric1 aPabst, Robert, J.1 aOlsen, Keith, A.1 aPlatt, Emily, K.1 aBailey, John, D.1 aBolte, John uhttps://www.ecologyandsociety.org/vol22/iss1/art24/00739nas a2200241 4500008004100000245011000041210006900151260002800220490000700248653000800255100001800263700001600281700001500297700002300312700001600335700001700351700001700368700001800385700001600403700001700419700000500436856005600441 2017 eng d00aUsing an agent-based model to examine forest management outcomes in a fire-prone landscape in Oregon, USA0 aUsing an agentbased model to examine forest management outcomes bThe Resilience Alliance0 v2210afpf1 aSpies, Thomas1 aWhite, Eric1 aAger, Alan1 aKline, Jeffrey, D.1 aBolte, John1 aPlatt, Emily1 aOlsen, Keith1 aPabst, Robert1 aBarros, Ana1 aBailey, John1 a uhttps://www.ecologyandsociety.org/vol22/iss1/art25/00692nas a2200181 4500008004100000245009400041210006900135260003700204300001400241653000800255100002000263700002000283700001900303700002100322700002100343700002100364856012500385 2015 eng d00aA burning problem: social dynamics of disaster risk reduction through wildfire mitigation0 aburning problem social dynamics of disaster risk reduction throu bSociety for Applied Anthropology a329–34010afpf1 aCharnley, Susan1 aPoe, Melissa, R1 aAger, Alan, A.1 aSpies, Thomas, A1 aPlatt, Emily, K.1 aOlsen, Keith, A. uhttps://fpf.forestry.oregonstate.edu/burning-problem-social-dynamics-disaster-risk-reduction-through-wildfire-mitigation00977nas a2200325 4500008004100000245008000041210006900121490000700190653002200197653001000219653003800229653001600267653002600283653000800309100002100317700002000338700002300358700001900381700001500400700001700415700001600432700001900448700001700467700002500484700001900509700002000528700003000548700001800578856005500596 2014 eng d00aExamining fire-prone forest landscapes as coupled human and natural systems0 aExamining fireprone forest landscapes as coupled human and natur0 v1910aagent-based model10aCHANS10acoupled human and natural systems10afire policy10afire-prone landscapes10afpf1 aSpies, Thomas, A1 aWhite, Eric, M.1 aKline, Jeffrey, D.1 aFischer, Paige1 aAger, Alan1 aBailey, John1 aBolte, John1 aKoch, Jennifer1 aPlatt, Emily1 aOlsen, Christine, S.1 aJacobs, Derric1 aShindler, Bruce1 aSteen-Adams, Michelle, M.1 aHammer, Roger uhttps://www.ecologyandsociety.org/vol19/iss3/art9/00523nas a2200097 4500008004100000245014000041210006900181260001300250100002600263856013600289 2014 eng d00aInfluence of ownership institutional and environmental history on fire-prone forest landscape change: applications of historic FIA data0 aInfluence of ownership institutional and environmental history o aPortland1 aSteen-Adams, Michelle uhttps://fpf.forestry.oregonstate.edu/influence-ownership-institutional-and-environmental-history-fire-prone-forest-landscape-change00459nas a2200133 4500008004100000245008500041210006900126260004800195300000800243490000800251653000800259100002100267856003700288 2014 eng d00aManaging for landscape resilience in the frequent-fire forests of central Oregon0 aManaging for landscape resilience in the frequentfire forests of aCorvallisbOregon State Universityc08/2014 a1290 vPhd10afpf1 aPlatt, Emily, K. uhttp://hdl.handle.net/1957/5176100583nas a2200121 4500008004100000245013400041210006900175260003900244490000800283653000800291100002300299856013900322 2014 eng d00aUtilizing relational and social network analysis to inform community-based climate change adaptation: a central Oregon case study0 aUtilizing relational and social network analysis to inform commu aCorvallisbOregon State University0 vPhd10afpf1 aJacobs, Derric, B. uhttps://fpf.forestry.oregonstate.edu/utilizing-relational-and-social-network-analysis-inform-community-based-climate-change-adaptation00575nas a2200133 4500008004100000245008300041210006900124260004500193100002300238700002500261700001600286700001900302856012000321 2013 eng d00aCharacterizing Firewise and fuel reduction activities among private landowners0 aCharacterizing Firewise and fuel reduction activities among priv bUSDA Forest Service PNW Research Station1 aKline, Jeffery, D.1 aOlsen, Christine, S.1 aWhite, Eric1 aAger, Alan, A. uhttps://fpf.forestry.oregonstate.edu/characterizing-firewise-and-fuel-reduction-activities-among-private-landowners00635nas a2200121 4500008004100000245014100041210006900182260004500251100002300296700001900319700001900338856015600357 2013 eng d00aCharacterizing private landowners’ fuel reduction activities for coupled systems modeling in Oregon’s (USA) ponderosa pine ecoregion0 aCharacterizing private landowners fuel reduction activities for bUSDA Forest Service PNW Research Station1 aKline, Jeffery, D.1 aFischer, Paige1 aAger, Alan, A. uhttps://fpf.forestry.oregonstate.edu/characterizing-private-landowners%E2%80%99-fuel-reduction-activities-coupled-systems-modeling-oregon%E2%80%99s-usa00623nas a2200169 4500008004100000245016300041210006900204260001200273300001200285490000700297100001900304700002300323700001900346700002000365700002100385856004700406 2013 eng d00aObjective and perceived wildfire risk and its influence on private forest landowners’ fuel reduction activities in Oregon’s (USA) ponderosa pine ecoregion0 aObjective and perceived wildfire risk and its influence on priva c09/2013 a143-1530 v231 aFischer, Paige1 aKline, Jeffery, D.1 aAger, Alan, A.1 aCharnley, Susan1 aOlsen, Keith, A. uhttp://www.publish.csiro.au/?paper=WF1216400708nas a2200205 4500008004100000022001400041245009500055210006900150300001400219490000800233653002500241653002900266653001800295653002400313100001900337700002500356700002100381700002900402856007100431 2012 eng d a0378-112700aAnalyzing wildfire exposure and source-sink relationships on a fire prone forest landscape0 aAnalyzing wildfire exposure and sourcesink relationships on a fi a271 - 2830 v26710aConservation biology10aNational forest planning10aWildfire risk10aWildfire simulation1 aAger, Alan, A.1 aVaillant, Nicole, M.1 aFinney, Mark, A.1 aPreisler, Haiganoush, K. uhttp://www.sciencedirect.com/science/article/pii/S037811271100706700502nas a2200109 4500008004100000245008800041210006900129260005100198100001500249700001600264856011200280 2012 eng d00aForests, People, Fire: A coupled human and natural system in a fire-prone landscape0 aForests People Fire A coupled human and natural system in a fire bFPF Presentation at LTER Science Hourc06/20121 aSpies, Tom1 aBolte, John uhttp://fpf.forestry.oregonstate.edu/sites/default/files/documents/fpf_presentation_at_lter_science_hour.pdf00644nas a2200169 4500008004100000245012400041210006900165260004800234300000700282490002800289653001900317653002000336653002000356653001300376100002300389856006200412 2012 eng d00aNo One Cares What Color The Fire Truck Is: A Case Study of Interagency Cooperation In Fire Management in Central Oregon0 aNo One Cares What Color The Fire Truck Is A Case Study of Intera aCorvallisbOregon State Universityc08/2012 a670 vMaster of Public Policy10aCentral Oregon10aFire Management10aPolicy Networks10awildfire1 aGregory, Sarah, E. uhttp://ir.library.oregonstate.edu/xmlui/handle/1957/3454100460nas a2200133 4500008004100000245008100041210006900122260001200191300001000203490000600213100002500219700002200244856006000266 2012 eng d00aPredicting the Occurrence of Downy Brome (Bromus tectorum) in Central Oregon0 aPredicting the Occurrence of Downy Brome Bromus tectorum in Cent c01/2012 a83-910 v51 aLovtang, Sara, C. P.1 aRiegel, Gregg, M. uhttp://www.bioone.org/doi/abs/10.1614/IPSM-D-11-00029.100500nas a2200121 4500008004100000245004900041210004800090260008500138653001000223100001600233700002100249856010800270 2011 eng d00aAgent-based Modeling of Future Wildfire Risk0 aAgentbased Modeling of Future Wildfire Risk aMadison, WIbInternational Symposium on Society and Resource Managementc06/201110aISSRM1 aPrato, Tony1 aPaveglio, Travis uhttp://fpf.forestry.oregonstate.edu/sites/default/files/documents/Prato%20ABM%20presentation_6_2_11.pdf00936nas a2200133 4500008004100000022001300041245007200054210006900126300001100195490000700206520043300213100001900646856013700665 2011 eng d a0190292X00aBackground on the Institutional Analysis and Development Framework.0 aBackground on the Institutional Analysis and Development Framewo a7 - 270 v393 aThis article provides an overview of the structure and evolution of the Institutional Analysis and Development (IAD) framework and a short introduction to its use by scholars to analyze a diversity of puzzles. It then addresses the relationship of IAD to a more complex framework for the analysis of social-ecological systems and concludes with a short discussion of future challenges facing IAD scholars. [ABSTRACT FROM AUTHOR]1 aOstrom, Elinor uhttp://proxy.library.oregonstate.edu/login?url=http://search.ebscohost.com/login.aspx?direct=true&db=aph&AN=58120282&site=ehost-live00638nas a2200145 4500008004100000245010700041210006900148260008500217653001000302100002000312700001900332700002200351700001900373856010000392 2011 eng d00aConsidering the Suitability of Engaging Stakeholders in Forest-Based Socio-Ecological Systems Modeling0 aConsidering the Suitability of Engaging Stakeholders in ForestBa aMadison, WIbInternational Symposium on Society and Resource Managementc06/201110aISSRM1 aGorczyca, Erika1 aLeahy, Jessica1 aBell, Kathleen, P1 aWilson, Jeremy uhttp://fpf.forestry.oregonstate.edu/sites/default/files/documents/ISSRM_2011_Gorczyca_Final.pdf01035nas a2200313 4500008004100000245010900041210006900150260000900219300000900228490000700237653001700244653001900261653002600280653002900306653002700335653001700362653001500379653003400394653002900428653002400457653003600481653005100517653002000568100001900588700001900607700001900626700001900645856005700664 2011 eng d00aDo mountain pine beetle outbreaks change the probability of active crown fire in lodgepole pine forests?0 aDo mountain pine beetle outbreaks change the probability of acti c2011 a3-240 v8110abark beetles10achronosequence10acompound disturbances10adisturbance interactions10afire behavior modeling10afire ecology10afuel loads10aGreater Yellowstone Ecosystem10ainsect-fire interactions10alinked disturbances10alodgepole pine (Pinus contorta)10amountain pine beetle (Dendroctonus ponderosae)10aRocky Mountains1 aSimard, Martin1 aRomme, William1 aGriffin, Jacob1 aTurner, Monica uhttp://www.esajournals.org/doi/abs/10.1890/10-1176.100335nas a2200085 4500008004100000245005300041210005100094100001600145856008800161 2011 eng d00aEnvisioning Future Landscape Trajectories (Bend)0 aEnvisioning Future Landscape Trajectories Bend1 aBolte, John uhttps://fpf.forestry.oregonstate.edu/envisioning-future-landscape-trajectories-bend00530nas a2200109 4500008004100000245009900041210006900140260008500209653001000294100001900304856009700323 2011 eng d00aFree agents and social networks: modeling socio-ecological adaptation in fire-prone landscapes0 aFree agents and social networks modeling socioecological adaptat aMadison, WIbInternational Symposium on Society and Resource Managementc06/201110aISSRM1 aFischer, Paige uhttp://fpf.forestry.oregonstate.edu/sites/default/files/documents/fischerap_issrm_060511.pdf00485nas a2200121 4500008004100000245006600041210006400107260004600171100001900217700001500236700001600251856009600267 2011 eng d00aModeling socio-ecological adaptation in fire-prone landscapes0 aModeling socioecological adaptation in fireprone landscapes bSociety for Applied Anthropologyc03/20111 aFischer, Paige1 aSpies, Tom1 aBolte, John uhttp://fpf.forestry.oregonstate.edu/sites/default/files/documents/SFAA_APFischer_033111.pdf00579nas a2200121 4500008004100000245008500041210006900126260008500195653001000280100002400290700001400314856012900328 2011 eng d00aRepresenting Landowners in a Dynamic Agent-Based Model: A Tool for a Fuzzy World0 aRepresenting Landowners in a Dynamic AgentBased Model A Tool for aMadison, WIbInternational Symposium on Society and Resource Managementc06/201110aISSRM1 aNielsen-Pincus, Max1 aRibe, Rob uhttp://fpf.forestry.oregonstate.edu/sites/default/files/documents/Nielsen-Pincus%20-%20Fuzzy%20Agents%20-%20ISSRM%202011.pdf00750nas a2200193 4500008004100000022001400041245014400055210006900199300001600268490000800284653002100292653001800313653003100331653002900362100001900391700002500410700002100435856010000456 2010 eng d a0378-112700aA comparison of landscape fuel treatment strategies to mitigate wildland fire risk in the urban interface and preserve old forest structure0 acomparison of landscape fuel treatment strategies to mitigate wi a1556 - 15700 v25910aBrun probability10aWildfire risk10aWildfire simulation models10aWildland urban interface1 aAger, Alan, A.1 aVaillant, Nicole, M.1 aFinney, Mark, A. uhttp://www.sciencedirect.com/science/article/B6T6X-4YFDW2V-2/2/e43ae21a2ccbfd729758526b222b672900318nas a2200085 4500008004100000245004600041210004600087100001600133856008300149 2010 eng d00aEnvisioning Future Landscape Trajectories0 aEnvisioning Future Landscape Trajectories1 aBolte, John uhttps://fpf.forestry.oregonstate.edu/envisioning-future-landscape-trajectories01326nas a2200409 4500008004100000245012100041210006900162490000700231653001600238653002300254653001200277653001300289653001900302100002200321700001700343700002000360700001700380700002000397700002200417700001800439700002000457700002300477700001900500700002400519700002400543700001800567700001800585700002100603700001700624700002100641700002200662700002300684700002000707700002100727700001900748856014900767 2010 eng d00aEvaluating Today’s Landscape Multifunctionality and Providing an Alternative Future: A Normative Scenario Approach0 aEvaluating Today s Landscape Multifunctionality and Providing an0 v1510aagriculture10aecosystem services10aGermany10amodeling10asustainability1 aWaldhardt, Rainer1 aBach, Martin1 aBorresch, René1 aBreuer, Lutz1 aDiekötter, Tim1 aFrede, Hans-Georg1 aGäth, Stefan1 aGinzler, Oliver1 aGottschalk, Thomas1 aJulich, Stefan1 aKrumpholz, Matthias1 aKuhlmann, Friedrich1 aOtte, Annette1 aReger, Birgit1 aReiher, Wolfgang1 aSchmitz, Kim1 aSchmitz, Michael1 aSheridan, Patrick1 aSimmering, Dietmar1 aWeist, Cornelia1 aWolters, Volkmar1 aZörner, Dorit uhttps://fpf.forestry.oregonstate.edu/evaluating-today%E2%80%99s-landscape-multifunctionality-and-providing-alternative-future-normative-scenario00507nas a2200109 4500008004100000245009400041210006900135100002400204700002100228700002200249856012600271 2010 eng d00aIntegrating socioeconomic and biophysical processes in a coupled landscape planning model0 aIntegrating socioeconomic and biophysical processes in a coupled1 aNielsen-Pincus, Max1 aRibe, Robert, G.1 aJohnson, Bart, R. uhttps://fpf.forestry.oregonstate.edu/integrating-socioeconomic-and-biophysical-processes-coupled-landscape-planning-model01585nas a2200193 4500008004100000022001300041245011500054210006900169300001200238490000700250520087800257653003001135653001301165653001801178653002001196653001701216100002101233856013701254 2010 eng d a0022414600aNew Directions for Urban Economic Models of Land Use Change: Incorporating Spatial Dynamics and Heterogeneity.0 aNew Directions for Urban Economic Models of Land Use Change Inco a65 - 910 v503 aWe review the usefulness of urban spatial economic models of land use change for the study and policy analysis of spatial land use–environment interactions. We find that meaningful progress has been made in econometric and monocentric models extended to account for multiple sources of spatial heterogeneity and in the development of general equilibrium models with spatial dynamics. Despite these advances, more work is needed in developing models with greater realism. Most agent-based computational models of urban land use change currently lack economic fundamentals, but provide a flexible means of linking microlevel behavior and interactions with macrolevel land use dynamics. In combination with empirical methods to identify parameters, this framework provides a promising approach to modeling spatial land use dynamics and policy effects. [ABSTRACT FROM AUTHOR]10aCITIES & towns – Growth10aLAND use10aREAL property10aURBAN economics10aURBAN policy1 aIrwin, Elena, G. uhttp://proxy.library.oregonstate.edu/login?url=http://search.ebscohost.com/login.aspx?direct=true&db=aph&AN=47856133&site=ehost-live00501nas a2200097 4500008004100000245008300041210006900124260007400193100002800267856010800295 2010 eng d00aPressing issues in social simulation: From building models to building science0 aPressing issues in social simulation From building models to bui aWaterloo, Ontario, CanadabSchool of Planning, University of Waterloo1 aParker, Dawn, Cassandra uhttps://fpf.forestry.oregonstate.edu/pressing-issues-social-simulation-building-models-building-science00550nas a2200097 4500008004100000245012600041210006900167260004700236100002800283856014100311 2010 eng d00aSome key challenges in modeling coupled human-natural systems, illustrated through agent-based land-use modeling research0 aSome key challenges in modeling coupled humannatural systems ill bSchool of Planning, University of Waterloo1 aParker, Dawn, Cassandra uhttps://fpf.forestry.oregonstate.edu/some-key-challenges-modeling-coupled-human-natural-systems-illustrated-through-agent-based-land-use00557nas a2200121 4500008004100000245010900041210007100150300001200221490000700233100002500240700002400265856014600289 2010 eng d00aTrust, acceptance, and citizen–agency interactions after large fires: influences on planning processes0 aTrust acceptance and citizen–agency interactions after large fir a137-1470 v191 aOlsen, Christine, S.1 aShindler, Bruce, A. uhttps://fpf.forestry.oregonstate.edu/trust-acceptance-and-citizen%E2%80%93agency-interactions-after-large-fires-influences-planning-processes00869nas a2200241 4500008004100000022001400041245013100055210006900186300001600255490000800271653001400279653001900293653003000312653003200342653001700374653001800391653003500409653003100444100001900475700001600494700001700510856010000527 2009 eng d a0304-380000aModelling carbon storage in highly fragmented and human-dominated landscapes: Linking land-cover patterns and ecosystem models0 aModelling carbon storage in highly fragmented and humandominated a1325 - 13380 v22010aBIOME-BGC10aCarbon cycling10aEastern deciduous forests10aEcosystem process modelling10aEdge effects10aFragmentation10aLand-use and land-cover change10aWithin-patch heterogeneity1 aRobinson, D.T.1 aBrown, D.G.1 aCurrie, W.S. uhttp://www.sciencedirect.com/science/article/B6VBS-4VXCCM9-1/2/e5191bc8cdda6be8d0f090bca2138b6700486nas a2200133 4500008004100000245011600041210006900157300001000226490000600236100001700242700001600259700001900275856005800294 2009 eng d00aThe Potential of Agent-Based Modelling for Performing Economic Analysis of Adaptive Natural Resource Management0 aPotential of AgentBased Modelling for Performing Economic Analys a35-480 v11 aLoomis, John1 aBond, Craig1 aHarpman, David uhttp://www.informaworld.com/10.1080/1939045080250977300765nas a2200217 4500008004100000022001400041245011800055210006900173300001400242490000700256653002500263653001500288653002000303653002000323653002200343653001800365100002800383700001500411700002100426856010000447 2008 eng d a0016-718500aComplexity, land-use modeling, and the human dimension: Fundamental challenges for mapping unknown outcome spaces0 aComplexity landuse modeling and the human dimension Fundamental a789 - 8040 v3910aCarbon sequestration10aComplexity10aDecision making10aLand-use change10aLand-use modeling10aWest Virginia1 aParker, Dawn, Cassandra1 aHessl, Amy1 aDavis, Sarah, C. uhttp://www.sciencedirect.com/science/article/B6V68-4PK8B77-1/2/376b8d6a94739b623ad0ca4950475b8800698nas a2200193 4500008004100000022001400041245009900055210006900154300001400223490000700237653002500244653001700269653002200286653002000308653002600328100002800354700002200382856010000404 2008 eng d a0198-971500aA conceptual design for a bilateral agent-based land market with heterogeneous economic agents0 aconceptual design for a bilateral agentbased land market with he a454 - 4630 v3210aAgent-based modeling10aLand markets10aLand-use modeling10aPrice formation10aSpatial externalities1 aParker, Dawn, Cassandra1 aFilatova, Tatiana uhttp://www.sciencedirect.com/science/article/B6V9K-4TY4MR3-1/2/f5d06e358358596822ff2b59fcd61d7100924nas a2200289 4500008004100000022001400041245010000055210006900155300001400224490000700238653002300245653002200268653002000290653002100310653001700331100002200348700002400370700001100394700002300405700001900428700001800447700001600465700002000481700001500501700001800516856010000534 2008 eng d a0016-718500aExurbia from the bottom-up: Confronting empirical challenges to characterizing a complex system0 aExurbia from the bottomup Confronting empirical challenges to ch a805 - 8180 v3910aEcological effects10aLand-cover change10aLand-use change10aSpatial modeling10aUrban sprawl1 aBrown, Daniel, G.1 aRobinson, Derek, T.1 aAn, Li1 aNassauer, Joan, I.1 aZellner, Moira1 aRand, William1 aRiolo, Rick1 aPage, Scott, E.1 aLow, Bobbi1 aWang, Zhifang uhttp://www.sciencedirect.com/science/article/B6V68-4NTHN5J-2/2/95cec4d7f094795fc6ba7ca8cba9314200753nas a2200205 4500008004100000022001400041245008900055210006900144300001200213490000800225653004200233653001900275653002600294653003800320653002400358100002000382700002300402700002200425856010000447 2008 eng d a0167-880900aA method to define a typology for agent-based analysis in regional land-use research0 amethod to define a typology for agentbased analysis in regional a27 - 360 v12810aAgent definition and parameterization10aAgent typology10aLand use/cover change10aLand-use decisions and strategies10aMulti-agent systems1 aValbuena, Diego1 aVerburg, Peter, H.1 aBregt, Arnold, K. uhttp://www.sciencedirect.com/science/article/B6T3Y-4SRM81V-1/2/d805d23ca72a45ffa2214893d72541cf00762nas a2200205 4500008004100000022001400041245012300055210006900178300001600247490000800263653002300271653002000294653002000314653002900334100002900363700002200392700002200414700002000436856010000456 2008 eng d a0378-112700aObjectives and considerations for wildland fuel treatment in forested ecosystems of the interior western United States0 aObjectives and considerations for wildland fuel treatment in for a1997 - 20060 v25610aForest restoration10aFuel management10aPrescribed fire10aWildland urban interface1 aReinhardt, Elizabeth, D.1 aKeane, Robert, E.1 aCalkin, David, E.1 aCohen, Jack, D. uhttp://www.sciencedirect.com/science/article/B6T6X-4TS572X-1/2/5a1bcf7bff4f4d9fed275661b6859f9d00545nas a2200145 4500008004100000245007500041210006900116300001000185490002600195100002000221700002000241700001600261700002100277856010100298 2008 eng d00aPostfire Communications: The Influence of Site Visits on Local Support0 aPostfire Communications The Influence of Site Visits on Local Su a25-300 vJanuary/February 20081 aToman, Eric, L.1 aShindler, Bruce1 aAbsher, Jim1 aMcCaffrey, Sarah uhttps://fpf.forestry.oregonstate.edu/postfire-communications-influence-site-visits-local-support01959nas a2200217 4500008004100000245004100041210004100082300001200123490000800135520130300143653002901446653001901475653001801494653002501512653002901537100002301566700002501589700002201614700002301636856008201659 2007 eng d00aDefining the WildlandUrban Interface0 aDefining the WildlandUrban Interface a201-2070 v1053 aFederal wildland fire policy in the United States has been substantially revised over the past 10 years and new emphasis has been given to the wildland-urban interface (WUI), which creates a need for information about the WUI’s location and extent. We operationalized a policy definition published in the Federal Register (US Department of the Interior [USDI] and US Department of Agriculture [USDA]), 2001, Urban wildland interface communities within vicinity of federal lands that are at high risk from wildfire. Fed. Regist. 66(3):751-777) to create national maps and statistics of the WUI to guide strategic planning. Using geographic information system analysis, we evaluate the national WUI by altering the definition’s parameters to assess the influence of individual parameters (i.e., housing density, vegetation type and density, and interface buffer distance) and stability of outcomes. The most sensitive parameter was the housing density threshold. Changes in outputs (WUI homes and area) were much smaller than parameter variations suggesting the WUI definition generates stable results on most landscapes. Overall, modifying the WUI definition resulted in a similar amount of WUI area and number of homes and affected the precise location of the WUI.10aGIS sensitivity analysis10aHousing growth10awildland fire10awildland fire policy10awildland-urban interface1 aStewart, Susan, I.1 aRadeloff, Volker, C.1 aHammer, Roger, B.1 aHawbaker, Todd, J. uhttp://www.ingentaconnect.com/content/saf/jof/2007/00000105/00000004/art0001200522nas a2200169 4500008004100000245003500041210003500076260004600111300001200157100001800169700001900187700002000206700002100226700001700247700001600264856007200280 2007 eng d00aImproving Management Decisions0 aImproving Management Decisions aWashington , DCbResources for the Future a173-1931 aArvai, Joseph1 aGregory, Robin1 aZaksek, Melissa1 aMartin, Wade, E.1 aRaish, Carol1 aKent, Brian uhttps://fpf.forestry.oregonstate.edu/improving-management-decisions00831nas a2200241 4500008004100000022001400041245011100055210006900166300001200235490000800247653002600255653001800281653001200299653003200311653002500343653001800368653002400386100001900410700002100429700002100450700001800471856010000489 2007 eng d a0378-112700aModeling wildfire risk to northern spotted owl (Strix occidentalis caurina) habitat in Central Oregon, USA0 aModeling wildfire risk to northern spotted owl Strix occidentali a45 - 560 v24610aConservation planning10aExpected loss10aFlamMap10aForest vegetation simulator10aNorthern spotted owl10aWildfire risk10aWildfire simulation1 aAger, Alan, A.1 aFinney, Mark, A.1 aKerns, Becky, K.1 aMaffei, Helen uhttp://www.sciencedirect.com/science/article/B6T6X-4NW1H8T-1/2/c89c34434dc5babca03e71abc25be3bc00509nas a2200145 4500008004100000022001400041245010700055210006900162260002500231300001100256490000700267100002000274700002100294856004800315 2007 eng d a0920-474100aPossibilities and problems with the use of models as a communication tool in water resource management0 aPossibilities and problems with the use of models as a communica bSpringer Netherlands a97-1100 v211 aOlsson, Johanna1 aAndersson, Lotta uhttp://dx.doi.org/10.1007/s11269-006-9043-101769nas a2200169 4500008004100000022001300041245006200054210005800116260003300174300002000207490000800227520127200235100001801507700001601525700001701541856004101558 2007 eng d a0027842400aThe Precursors of Governance in the Maine Lobster Fishery0 aPrecursors of Governance in the Maine Lobster Fishery bNational Academy of Sciences app. 15212-152170 v1043 aCollective action is more likely to occur and to be effective when it is consistent with the self-interest of the affected individuals. The Maine lobster fishery is an instructive example of biological and technological circumstances combining with individual self-interest to create conditions favorable to collective action. The model describes the way social structure emerges from the adaptive behavior of competing fishers. Fishers compete in two ways: in a scramble to find the lobsters first and by directly interfering in other fishers’ ability to compete, i.e., by cutting their traps. Both forms of competition lead fishers to interact frequently and to self-organize into relatively small groups. They learn to restrain their competitive behavior toward their neighbors but do not extend that same restraint to nonneighbors. Groups work within well defined boundaries, contact one another frequently, actively exchange information about the resource, and, most importantly, depend on continuing mutual restraint for their economic well-being. These self-organizing, competitive processes lay the foundation for successful collective action, i.e., mutual agreements that create the additional restraint required for conservation. (truncated from original)1 aWilson, James1 aYan, Liying1 aWilson, Carl uhttp://www.jstor.org/stable/2544911500565nas a2200157 4500008004100000245007200041210006900113300001000182490000700192100002200199700002500221700001900246700002400265700001700289856010100306 2006 eng d00aChanging Beliefs and Building Trust at the Wildland/Urban Interface0 aChanging Beliefs and Building Trust at the WildlandUrban Interfa a51-540 v661 aFried, Jeremy, S.1 aGatziolis, Demetrios1 aGilless, Keith1 aVogt, Christine, A.1 aWinter, Greg uhttps://fpf.forestry.oregonstate.edu/changing-beliefs-and-building-trust-wildlandurban-interface00469nas a2200157 4500008004100000245004200041210004000083300000700123490000700130653002300137653002700160653002700187100002300214700001900237856005500256 2006 eng d00aEmpirically Based, Agent-based models0 aEmpirically Based Agentbased models a370 v1110aAgent-based models10aempirical applications10asocial science methods1 aJanssen, Marco, A.1 aOstrom, Elinor uhttp://www.ecologyandsociety.org/vol11/iss2/art37/01378nas a2200169 4500008004100000245010300041210006900144300001500213490000800228520079900236100001801035700001901053700001601072700002101088700001701109856008201126 2006 eng d00aLetdowns, Wake-Up Calls, and Constructed Preferences: Peoples Responses to Fuel and Wildfire Risks0 aLetdowns WakeUp Calls and Constructed Preferences Peoples Respon a173-181(9)0 v1043 aThis article presents results from three studies, which seek to develop a better understanding of some of the difficulties faced by forest managers in making wildfire risk management decisions. Study 1 showed that both the experts and the public tend to emphasize uncontrollable factors when asked to consider the causes of wildfires. Study 2 revealed the large role played by emotional responses in judgments about wildfire risks. Study 3 showed that preferences for risk management options tend to be remarkably malleable in response to even slight shifts in framing. In contrast to previous studies that call for improved public education about wildfire, our results emphasize the need to introduce improved processes to inform both expert and public decisionmaking for fire risk management.1 aArvai, Joseph1 aGregory, Robin1 aOhlson, Dan1 aBlackwell, Bruce1 aGray, Robert uhttp://www.ingentaconnect.com/content/saf/jof/2006/00000104/00000004/art0000400603nas a2200193 4500008004100000022001400041245005200055210004800107300001300155490000700168653001700175653001500192653001900207653001700226100002100243700002300264700002200287856010000309 2006 eng d a1053-535700aThe production of social capital in US counties0 aproduction of social capital in US counties a83 - 1010 v3510aAssociations10aProduction10aSocial capital10aUSA counties1 aRupasingha, Anil1 aGoetz, Stephan, J.1 aFreshwater, David uhttp://www.sciencedirect.com/science/article/B6W5H-4J2M4FX-2/2/255ed7480feedafb4e460a1cf93b2f9000453nas a2200133 4500008004100000245005700041210005700098260001200155300001000167490000700177100002000184700002400204856009100228 2006 eng d00aTrust in Wildland Fire and Fuel Management Decisions0 aTrust in Wildland Fire and Fuel Management Decisions c04/2006 a39-430 v121 aLiljeblad, Adam1 aBorrie, William, T. uhttps://fpf.forestry.oregonstate.edu/trust-wildland-fire-and-fuel-management-decisions01730nas a2200301 4500008004100000020001400041245008400055210006900139260001600208300001100224490000800235520077400243653001301017653003301030653003201063653001201095100001801107700001801125700001601143700002101159700002001180700002601200700002501226700001801251700002201269700002601291856011101317 2005 eng d a0036-807500aPattern-oriented modeling of agent-based complex systems: lessons from ecology.0 aPatternoriented modeling of agentbased complex systems lessons f c2005/11/11/ a987(5)0 v3103 a
Agent-based complex systems are dynamic networks of many interacting agents; examples include ecosystems, financial markets, and cities. The search for general principles underlying the internal organization of such systems often uses bottom-up simulation models such as cellular automata and agent-based models. No general framework for designing, testing, and analyzing bottom-up models has yet been established, but recent advances in ecological modeling have come together in a general strategy we call pattern-oriented modeling. This strategy provides a unifying framework for decoding the internal organization of agent-based complex systems and may lead toward unifying algorithmic theories of the relation between adaptive behavior and system complexity.
10aAnalysis10aEcological research_Analysis10aEcological research_Methods10aMethods1 aGrimm, Volker1 aRevilla, Eloy1 aBerger, Uta1 aJeltsch, Florian1 aMooij, Wolf, M.1 aRailsback, Steven, F.1 aThulke, Hans-Hermann1 aWeiner, Jacob1 aWiegand, Thorsten1 aDeAngelis, Donald, L. uhttps://fpf.forestry.oregonstate.edu/pattern-oriented-modeling-agent-based-complex-systems-lessons-ecology00844nas a2200241 4500008004100000022001400041245013100055210006900186300001400255490000700269653001900276653002100295653002000316653001900336653002100355653001100376100002200387700002300409700002600432700002500458700001900483856010000502 2004 eng d a0169-204600aCharacterizing dynamic spatial and temporal residential density patterns from 1940-1990 across the North Central United States0 aCharacterizing dynamic spatial and temporal residential density a183 - 1990 v6910aAmenity growth10aCluster analysis10aHousing density10aHousing growth10aLandscape change10aSprawl1 aHammer, Roger, B.1 aStewart, Susan, I.1 aWinkler, Richelle, L.1 aRadeloff, Volker, C.1 aVoss, Paul, R. uhttp://www.sciencedirect.com/science/article/B6V91-4BBHBTN-2/2/ab6ac67484362a8153ba5817d8f7cec600466nas a2200133 4500008004100000245005800041210005800099260001200157300000900169100001700178700002400195700002100219856009200240 2004 eng d00aExamining Social Trust in Fuels Management Strategies0 aExamining Social Trust in Fuels Management Strategies c09/2004 a8-151 aWinter, Greg1 aVogt, Christine, A.1 aMcCaffrey, Sarah uhttps://fpf.forestry.oregonstate.edu/examining-social-trust-fuels-management-strategies00652nas a2200181 4500008004100000022001400041245014000055210006900195260003100264300001600295490000700311653001800318653002300336653001800359100002000377700001800397856005500415 2004 eng d a1539-692400aToward Improved Communication about Wildland Fire: Mental Models Research to Identify Information Needs for Natural Resource Management0 aToward Improved Communication about Wildland Fire Mental Models bBlackwell Publishing, Inc. a1503–15140 v2410aMental models10arisk communication10awildland fire1 aZaksek, Melissa1 aArvai, Joseph uhttp://dx.doi.org/10.1111/j.0272-4332.2004.00545.x00719nas a2200217 4500008004100000022001400041245011400055210006900169260002600238300001400264490000700278653002200285653001100307653001700318653002400335653001300359100002500372700002300397700002600420856005500446 2004 eng d a1523-173900aWildfire Policy and Public Lands: Integrating Scientific Understanding with Social Concerns across Landscapes0 aWildfire Policy and Public Lands Integrating Scientific Understa bBlackwell Science Inc a883–8890 v1810aforest management10apolicy10apublic lands10aU.S. Forest Service10awildfire1 aDombeck, Michael, P.1 aWilliams, Jack, E.1 aWood, Christopher, A. uhttp://dx.doi.org/10.1111/j.1523-1739.2004.00491.x