{"id":254,"date":"2015-11-03T16:31:53","date_gmt":"2015-11-03T22:31:53","guid":{"rendered":"http:\/\/brianjharvey.net\/?page_id=254"},"modified":"2026-02-16T17:22:45","modified_gmt":"2026-02-16T17:22:45","slug":"publications","status":"publish","type":"page","link":"https:\/\/depts.washington.edu\/bjhlab\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"
By downloading a paper(s), I assume that you are requesting a reprint for research or educational purposes.<\/em><\/h6>\n

2026 and\u00a0in press<\/em><\/strong><\/span><\/p>\n

Potterf, M., +29 other authors including Braziunas, K.H., 2026. Tree regeneration after unprecedented forest disturbances in Central Europe is robust but maladapted to future climate change. <\/span>Global Change Biology<\/i><\/b> 32(2): e70734. (<\/span>pdf<\/span><\/a>)<\/span><\/p>\n

2025<\/strong><\/span><\/p>\n

Morris, J.E., Laughlin, M.M.,\u00a0 Rangel-Parra, L.K., Donato, D.C., Halofsky, J.S., Butman, D.E., Harvey, B.J., 2025. Pre-fire structure drives variability in post-fire aboveground carbon and fuel profiles in wet temperate forests. Ecosphere <\/i><\/b>16(12): e70479. (pdf<\/a>) (data available at GitHub<\/a> | Zenodo<\/a>)<\/p>\n

Keller, T.T., Abendroth, D.C., Braziunas, K.H., Dollinger, C., Hood, P.R., Knowlton, G.J., Seidl, R., Turner, M.G., 2025. Can fire exclusion zones enhance postfire tree regeneration? A simulation study in subalpine conifer forests. Ecological Applications<\/strong><\/em> 35: e70121. (pdf<\/a>)<\/p>\n

Dudney, J., Edwards, J., Harvey, B.J., Seidl, R., 2025. Climate Change Effects on Interacting Disturbances in Forest Ecosystems. Annual Review of Ecology, Evolution, and Systematics<\/strong> <\/em>56: 393-420. (pdf<\/a>)<\/p>\n

Radcliffe, D.C., Bakker, J. D., Churchill, D.J., Van Pelt, R., Harvey, B.J., 2025. Perspectives: Six opportunities to improve understanding of fuel treatment longevity in historically frequent-fire forests. Forest Ecology and Management<\/strong><\/em> 592: 122761. (pdf<\/a>)<\/p>\n

Collins, L., Morrison, K., Buonanduci, M.S., Guindon, L., Harvey, B.J., Parisien, M.A., Taylor, S., \u00a0Whitman, E., 2025. Extremely large fires shape fire severity patterns across the diverse forests of British Columbia, Canada. Ecosphere<\/strong><\/em> 16(8): e70364. (pdf<\/a>)<\/span><\/p>\n

Plumanns-Pouton, E.<\/span>, McColl-Gausden, S.C.<\/span>, Collins, L.<\/span>, Harvey, B.J.<\/span>, Krawchuk, M.A., 2025. Fire in focus: Clarifying metrics and terminology for better ecological insight<\/span>. Journal of Applied<\/i> Ecology<\/i><\/strong>: 1-9. (pdf<\/a>)<\/span><\/p>\n

Buonanduci, M.S., Hart, S.J., Tobin, P.C., Harvey, B.J., 2025. Patterns and drivers of biotic disturbance hotspots in western United States coniferous forests. Ecography<\/strong><\/em>: e07680. (pdf<\/a>) (data available at<\/span> GitHub<\/span><\/a> |<\/span>\u00a0Zenodo<\/span><\/a>)<\/span><\/p>\n

2024<\/strong><\/span><\/p>\n

Thom, D, +22 other authors including Morris, J.E., Kruszka, S.S., Harvey, B.J., 2024. Parameters of 150 temperate and boreal tree species for an individual-based forest landscape and disturbance model. Data in Brief <\/em><\/strong>55: 110662. (pdf<\/a>)<\/p>\n

Dobrowski, S.Z.,\u00a0 +22 other authors including Buonanduci, M.S., Harvey, B.J., 2024. \u2018Mind the Gap\u2019 \u2013 Reforestation needs vs reforestation capacity in the western United States. Frontiers in Forests and Global Change <\/em><\/strong>7: 1402124. (pdf<\/a>)<\/p>\n

Buonanduci, M.S., Donato, D.C., Halofsky, J.S., Kennedy, M.C., Harvey, B.J., 2024. Few large or many small fires: Using spatial scaling of severe fire to quantify effects of fire-size distribution shifts. Ecosphere <\/em><\/strong>15(6): e4875. (pdf<\/a>) (data available at GitHub<\/a> | Zenodo<\/a>)<\/p>\n

Hall, J., Sandor, M.E., Harvey B.J., Parks, S.A., Trugman, A.T., Williams, A.P., Hansen, W.D., 2024. Forest carbon storage in the Western United States: distribution, drivers, and trends. Earth\u2019s Future <\/em><\/strong>12(7): e2023EF004399. (pdf<\/a>)<\/p>\n

Radcliffe, D.C., Bakker, J.D., Churchill, D.J., Alvarado, E.C, Peterson, D.W., Laughlin, M.M., Harvey, B.J., 2024. How are long-term stand structure, fuel profiles, and potential fire behavior affected by fuel treatment type and intensity in Interior Pacific Northwest forests? Forest Ecology and Management <\/em><\/strong>553(2024): 121594. (pdf<\/a>) (GitHub<\/a> | Zenodo<\/a>)<\/p>\n

2023
\n<\/strong><\/span><\/p>\n

Laughlin, M.M., Rangel-Parra, L.K., Morris, J.E., Donato, D.C., Halofsky, J.S., Harvey, B.J., 2023. Patterns and drivers of early conifer regeneration following stand-replacing wildfire in Pacific Northwest (USA) temperate maritime forests. Forest Ecology and Management <\/em><\/strong>549(2023): 121491. (pdf<\/a>) (data available at GitHub<\/a> | Zenodo<\/a>).<\/p>\n

Donato, D.C., Halofsky, J.S., Churchill, D.J., Haugo, R.D., Cansler, C.A., Smith, A., Harvey, B.J., 2023. Does large area burned mean a bad fire year? Comparing contemporary wildfire years to historical fire regimes informs the restoration task in fire-dependent forests. Forest Ecology and Management<\/em><\/strong> 546(2023): 121372. (pdf<\/a>)<\/p>\n

Buonanduci, M,S., Donato, D.C., Halofsky, J.S., Kennedy, M.C., Harvey, B.J., 2023. Consistent spatial scaling of high-severity wildfire can inform expected future patterns of burn severity. Ecology Letters<\/em><\/strong>\u00a0<\/em>26: 1687-1699. (pdf<\/a>) (data available at GitHub<\/a> | Zenodo<\/a>)<\/p>\n

Agne, M.C., Fontaine, J.B., Enright N.J., Bisbing, S.M., Harvey, B.J., 2023. Rapid fuel recovery after stand-replacing fire in closed-cone pine forests and implications for short-interval severe reburns. Forest Ecology and Management <\/em><\/strong>545(2023): 121263. (pdf<\/a>)<\/p>\n

Morris, J.E., Buonanduci, M.S., Agne, M.C., Battaglia, M.A., Donato, D.C., Harvey, B.J., 2023. Fuel profiles and biomass carbon following bark beetle outbreaks: Insights for disturbance interactions from a historical silvicultural experiment. Ecosystems<\/em><\/strong>\u00a0<\/em>26: 1290-1308. (pdf<\/a>) (data available at GitHub<\/a> | Zenodo<\/a>)<\/p>\n

Saberi, S.J. and Harvey, B.J., 2023. What is the color when black is burned? Quantifying forest (re)burn severity in short-interval fires using field and satellite indices. Fire Ecology <\/em><\/strong>19(24): 1-17. (pdf<\/a>) (data available at GitHub<\/a> | Zenodo<\/a>)<\/p>\n

Davis, K.T., +59 other authors including Harvey, B.J., 2023. Reduced fire severity offers near-term buffer to climate-driven declines in conifer resilience across the western United States. Proceedings of the National Academy of Sciences <\/em><\/strong>120(11): e2208120120. (pdf<\/a>)<\/p>\n

Harvey, B.J., Buonanduci, M.S, Turner, M.G., 2023. Spatial interactions among short-interval fires reshape forest landscapes. Global Ecology and Biogeography\u00a0<\/em><\/strong>32: 586-602. (pdf<\/a>) (data available at GitHub<\/a> | Zenodo<\/a>).<\/p>\n

Buonanduci, M.S., Morris, J.E., Agne, M.C., Battaglia, M.A., Harvey, B.J., 2023. Fine-scale spatial heterogeneity shapes compensatory responses of a subalpine forest to severe bark beetle outbreak. Landscape Ecology<\/em><\/strong>\u00a038: 253-270. (pdf<\/a>) (data available at GitHub<\/a> | Zenodo<\/a>)<\/p>\n

Harvey, B.J., Hart, S.J., Tobin, P.C., Veblen, T.T., Donato, D.C., Buonanduci, M.S., Pane, A.M., Stanke, H.D., Rodman, K.C., 2023. Emergent hotspots of biotic disturbances and their consequences for forest resilience. Frontiers in Ecology and the Environment <\/em><\/strong>21(8): 388\u2013396.<\/span>\u00a0<\/em>(pdf<\/a>)<\/p>\n

Miller, C.W., Harvey, B.J., Kane, V., Moskal, L.M., Alvarado, E.C., 2023. Different approaches make comparing studies of burn severity challenging: A review of methods used to link remotely sensed data with the Composite Burn Index. International Journal of Wildland Fire<\/em><\/strong> 32(4): 449\u2013475. (pdf<\/a>)<\/p>\n

Laughlin, M.M., Bakker, J.D., Churchill, D.J., Gregory M.J., DeMeo, T.E., Harvey, B.J., 2023 Trends in forest structure restoration need over three decades with increasing wildfire activity. Forest Ecology and Management<\/em><\/strong> 527(2023): 120607. (pdf<\/a>)<\/p>\n

2022<\/strong><\/span><\/p>\n

Howe, A.A., Parks, S.A., Harvey B.J., Saberi. S.J., Lutz. J.A., Yocum, L.L., 2022. Comparing Sentinel-2 and Landsat 8 for burn severity mapping in western North America. Remote Sensing <\/em><\/strong>14: 5249. (pdf<\/a>)<\/p>\n

Rodman, K., +21 other authors including Morris J.E., Harvey, B.J., 2022. Rocky Mountain forests are poised to recover following bark beetle outbreaks, but with altered composition. Journal of Ecology<\/em><\/strong> 110: 2929\u20132949<\/span>. (pdf<\/a>)<\/p>\n

Agne, M.C., Fontaine, J.B., Enright N.J., Harvey, B.J., 2022. Short-interval fires and post-fire climate conditions erode serotinous forest resilience. Fire Ecology<\/em> <\/strong>18(22). (pdf<\/a>)<\/p>\n

Shuman J.K., +86 other authors including Harvey, B.J., 2022. Reimagine Fire Science for the Anthropocene. Proceedings of the National Academy of Sciences \u2013 Nexus<\/em><\/strong>\u00a0<\/em>1(3): pgac115. (pdf<\/a>)<\/p>\n

Agne, M.C., Fontaine, J.B., Enright, N.J., Bisbing, S.M., Harvey, B.J. 2022. Demographic processes underpinning post\u2011fire resilience in California closed\u2011cone pine forests: the importance of fire interval, stand structure, and climate. <\/span>Plant Ecology<\/i><\/b> 223: 751-767.(pdf)<\/span><\/a><\/p>\n

Harvey, B.J., Enright N.J. 2022. Climate change and altered fire regimes: Impacts on plant populations, species, and ecosystems in both hemispheres. Plant Ecology<\/em><\/strong> 223: 699-709. (pdf<\/a>)<\/p>\n

Reilly, M.J., Zuspan, A., Halofsky, J.S., Raymond, C.L., McEvoy, A., Dye, A.W., Donato, D.C., Kim, J.B., Potter, B.E., Walker, N., Davis, R., Dunn, C.J., Bell, D.M., Gregory, M.J., Johnston, J.D., Harvey, B.J., Halofsky, J.E., Kerns, B.K. 2022 (in press). Cascadia Burning: The historic, but not historically unprecedented, 2020 wildfires in the Pacific Northwest, USA. Ecosphere<\/em><\/strong>\u00a013(6): e4070. (pdf<\/a>)<\/p>\n

Saberi, S.J., Agne, M.C., Harvey, B.J. 2022. Do You CBI What I See? The relationship between the Composite Burn Index and quantitative field measures of burn severity varies across gradients of forest structure. International Journal of Wildland Fire<\/em><\/strong>\u00a0<\/em>31(2): 112-123. (pdf)<\/a>\u00a0(data available at GitHub<\/a> | Zenodo<\/a>)<\/p>\n

Muthukrishnan, R., Hayes, K., Bartowitz, K., Cattau, M.E., Harvey, B.J., Lin, Y., Lunch, C. in press. Harnessing NEON to evaluate ecological tipping points: opportunities, challenges, and approaches. Ecosphere\u00a0<\/em><\/strong>13(3): e03989. (pdf<\/a>)<\/p>\n

Morris, J.E., Buonanduci, M.S., Agne, M.C., Battaglia, M.A., Harvey, B.J. 2022. Does the legacy of historical thinning treatments foster resilience to bark beetle outbreaks in subalpine forests? Ecological Applications<\/em><\/strong>\u00a032(1): e02474. (pdf)<\/a>\u00a0(data available at GitHub<\/a> | Zenodo<\/a>)<\/p>\n

2021<\/strong><\/span><\/p>\n

Nagy, R.C., +99 other authors including Harvey, B.J. 2021. Harnessing the NEON Data Revolution to Advance Open Environmental Science with a Diverse and Data-Capable Community. Ecosphere\u00a0<\/em><\/strong>12(12): e03833. (pdf)<\/a><\/p>\n

Abatzoglou, J.T., Battisti, D.S., Williams, A.P., Hansen, W.D., Harvey, B.J., Kolden, C.A. 2021. Continued increases in western US forest fire despite growing fuel constraints. Nature Communications Earth & Environment <\/em><\/strong>2(1): 1-8. <\/em>(pdf)<\/a><\/p>\n

Harvey, B.J., Hart, S.J., Cansler, C.A. 2021. Disturbance regime concept. In: Francis, R.A., Millington, J.D.A., Perry, G.L.W., Minor, E.S., (editors). Routledge Handbook of Landscape Ecology<\/em><\/strong>. Routledge Publishing, New York, NY: 159-174. (pdf<\/a>)<\/p>\n

Hood, S.M., Harvey, B.J., Fornwalt, P.J., Naficy, C.E., Hansen, W.D., Davis, K.T., Battaglia, M.A., Stevens-Rumann, C., Saab, V. 2021. Fire Ecology of Rocky Mountain Forests. In: Greenberg, K., Collins, B., (editors). Fire Ecology and Management: Past, Present, and Future of US Forested Ecosystems<\/em><\/strong>. (pdf)<\/a><\/p>\n

Andrus, R.A., Chai, R., Harvey, B.J., Rodman, K., Veblen, T.T., 2021. Increasing rates of subalpine tree mortality linked to warmer and drier summers. Journal of Ecology<\/em><\/strong>. <\/em>109(5): 2203-2218. (pdf)<\/a><\/p>\n

Rodman, K. Andrus, R.A., Butkiewicz, Chapman, T., Gill, N., Harvey B.J., Kulakowski, D., Tutland, N, Veblen, T.T., Hart, S.J. 2021. Effects of bark beetle outbreaks on forest landscape pattern in the Southern Rocky Mountains, U.S.A. Remote Sensing<\/em><\/strong> 13: 1089. <\/em>(pdf)<\/a><\/p>\n

Harvey, B.J., Andrus, R.A., Battaglia, M.A., Negr\u00f3n, J.F.,\u00a0Orrego, A., Veblen, T.T., 2021. Droughty times in mesic places: Factors associated with forest mortality vary by scale in a temperate subalpine region. Ecosphere<\/em><\/strong> 12(1): e03318. <\/em>(selected by the USFS Rocky Mountain Research Station for the 2021 Director\u2019s Choice Award). (pdf)<\/a><\/p>\n

2020<\/strong><\/span><\/p>\n

Cansler, C.A., +74 other authors including Harvey, B.J., 2020. The Fire and Tree Mortality Database (FTM): a database for empirical modeling of tree mortality after fire. Scientific Data<\/em><\/strong>. 7: 194. (pdf)<\/a><\/p>\n

Buonanduci, M.S., Morris, J.E., Agne, M.C., Harvey, B.J., 2020. Neighborhood context mediates probability of host tree mortality in a severe bark beetle outbreak. Ecosphere <\/em><\/strong>11(8): e03236. <\/em>(pdf)<\/a><\/p>\n

McLauchlan, K., +43 other authors including Harvey, B.J., 2020. Fire as a fundamental ecological process: research advances and frontiers. Journal of Ecology<\/em><\/strong> 108: 2047-2069. <\/em>(pdf)<\/a><\/p>\n

Coop, J.D., +22 other authors including Harvey, B.J., 2020. Wildfire-driven forest conversion in western North American landscapes. BioScience<\/em><\/strong> 70(8): 659-673. <\/em>(pdf)<\/a><\/p>\n

Andrus, R.A., Harvey, B.J.,\u00a0Hoffman, A., Veblen, T.T. 2020. Reproductive maturity and cone abundance varies with tree size and stand basal area for two widely distributed conifers. Ecosphere <\/em><\/strong>11(5): e03092. (pdf)<\/a><\/p>\n

Halofsky, J.E., Peterson, D.L., Harvey, B.J., 2020. Changing wildfire, changing forests: The effects of climate change on fire regimes and vegetation in the Pacific Northwest. Fire Ecology<\/em><\/strong> 16(4). <\/em>(pdf)<\/a><\/p>\n

2019<\/strong><\/span>
\n<\/em><\/p>\n

McWethy, D., Schoennagel, T., Higuera, P., Krawchuck, M., Harvey B.J., Metcalf, L., Schultz, C., Metcalf, A., Buma, B., Ratajczak, Z. 2019. Rethinking resilience to wildfire. Nature Sustainability<\/em><\/strong> 2: 797-804. <\/em>(pdf)<\/a><\/p>\n

Turner, M.G., Braziunas, K.H., Hansen, W.D., Harvey B.J. 2019. Short-interval severe fire erodes the resilience of subalpine lodgepole pine forests. Proceedings of the National Academy of Sciences<\/em><\/strong> 116(23): 11319-11328. (pdf)<\/a><\/p>\n

Chai, R. Andrus, R.A., Harvey, B.J., Rodman, K., Veblen, T.T. 2019. Stand dynamics and topographic setting influence changes in live tree biomass over a 34-year permanent plot record in subalpine forest in the Colorado Front Range. Canadian Journal of Forest Research<\/em><\/strong> 49(10): 1256-1264. <\/em>(pdf)<\/a><\/p>\n

Higuera, P., Metcalf, A., Miller, C., Buma, B., McWethy, D., Metcalf, E., Ratajczak, Z., Nelson, C., Chaffin, B., Stedman, R., McCafrey, S., Schoennagel, T., Harvey, B.J., Hood, S., Schultz, C., Black, A., Campbell, D., Haggerty, J., Keane, R., Krawchuk, M., Kulig, J., Rafferty, R., Virapongse, A. 2019. Integrating subjective and objective dimensions of resilience in fire-prone landscapes. BioScience<\/em><\/strong> 69(5): 379-388. <\/em>(pdf)<\/a><\/p>\n

Harvey, B.J., Andrus, R.A., Anderson, S.A., 2019. Incorporating biophysical gradients and uncertainty into burn severity maps in a temperate fire-prone forested region. Ecosphere<\/em> <\/strong>10(2): e02600. (pdf)<\/a><\/p>\n

Buma, B., Harvey, B.J., Gavin, D., Kelly, R., Laboda, T., McNeil, B., Marlon, J., Meddens, A., Morris, J., Raffa, K., Shuman, B., Smithwick, E., McLauchlan, K. 2019. The value of linking paleoecological and neoecological perspectives to understand spatially explicit ecosystem resilience. Landscape Ecology<\/em><\/strong> 34(1): 17-33. (pdf)<\/a><\/p>\n

2018<\/span><\/strong><\/p>\n

Sommerfeld, A., Senf, C., Buma, B., D\u2019Amato, A.W., Despres, T., Diaz-Hormazabal, I., Fraver, S., Frelich, L.E., Gutierrez, A.G., Hart, S.J., Harvey, B.J., He, H.S., Hlasny, T., Holz, A., Kitzberger, T., Kulakowski, D., Lindenmayer, D., Mori, A., Muller, J., Paritsis, J., Perry, G.L.W., Stephens, S., Svoboda, M., Turner, M.G., Veblen, T.T., Seidl, R. 2018. Patterns and drivers of recent disturbances across the temperate forest biome. Nature Communications<\/em><\/strong> 9: 4355. <\/em>(pdf)<\/a><\/p>\n

Andrus, R.A., Harvey, B.J., Chai, R., Veblen, T.T. 2018. Different vital rates of Engelmann spruce and subalpine fir explain discordance in understory and overstory dominance. Canadian Journal of Forest Research<\/em><\/strong> 48(12): 1554-1562. <\/em>(pdf)<\/a><\/p>\n

Halofsky, J.S., Donato, D.C., Franklin, J.F., Halofsky, J.E., Peterson, D.L., Harvey, B.J. 2018. The nature of the beast: Examining climate adaptation options in forests with stand-replacing fire regimes. Ecosphere<\/em><\/strong> 9(3): e02140. (pdf)<\/a><\/p>\n

Andrus, R.A., Harvey, B.J., Rodman, K., Hart, S.J., Veblen, T.T. 2018. Moisture availability limits subalpine tree establishment. Ecology<\/em><\/strong> 99(3): 567-575. (pdf)<\/a><\/p>\n

2017<\/strong><\/span><\/p>\n

Stevens-Rumann, C.S., Kemp, K.B., Higuera, P.E., Harvey, B.J., Rother, M.T., Donato, D.C., Morgan, P, Veblen T.T. 2017. Evidence for declining forest resilience to wildfires under climate change. Ecology Letters<\/em><\/strong> 21(2): 243-252. (pdf)<\/a><\/p>\n

Schoennagel, T, Balch, J.K., Brenkert-Smith, H., Dennison, P.E., Harvey, B.J., Krawchuck, M.A., Miekiewicz, N., Morgan, P., Moritz. M.A., Rasker, R., Turner, M.G., Whitlock, C.L. 2017. Adapt to more wildfire in western North American forests as climate changes. Proceedings of the National Academy of Sciences <\/em><\/strong>114(8): 4582-4590. (pdf)<\/a><\/p>\n

Rose, K.C., Graves, R.A., Hansen, W.D., Harvey, B.J., Qiu, J., Wood, S., Ziter, C., Turner, M.G. 2017. Historical foundations and future directions in macrosystems ecology. Ecology Letters<\/em><\/strong> 20(2): 147-157. (pdf)<\/a><\/p>\n

Turner, M.G., Donato, D.C., Hansen, W.D., Harvey, B.J., Romme, W.H., Westerling, A.L. 2017. Climate change and novel disturbance regimes in national park landscapes. In: Beissinger, S.R., Ackerly, D.D., Doremus, H., Machlis, G., (editors). Science, Conservation, and National Parks<\/em><\/strong>. University of Chicago Press, Chicago, IL: 77-101. (book chapter)<\/p>\n

2016<\/strong><\/span><\/p>\n

Harvey, B.J. 2016. Human-caused climate change is now a key driver of forest fire activity in the western United States. Proceedings of the National Academy of Sciences<\/strong>. <\/em>113(42): 11649-11650. (invited commentary) (pdf)<\/a><\/p>\n

Harvey, B.J., Donato, D.C., Turner, M.G. 2016. Drivers and trends in landscape patterns of stand-replacing fire in forests of the US Northern Rocky Mountains (1984-2010). Landscape Ecology<\/em><\/strong> 31: 2367-2383. (pdf)<\/a><\/p>\n

Johnstone, J.F., Turner, M.G., Allen, C.D., Franklin, J.F., Frelich, L.E., Harvey, B.J., Higuera, P.E., Mack., M.C., Meentemeyer, R., Metz, M.R., Perry, G.L., Schoenneagel, T. 2016. Changing disturbance regimes, ecological memory, and forest resilience. Frontiers in Ecology and the Environment<\/em><\/strong> 14(7): 369-378. <\/em>(pdf)<\/a><\/p>\n

Donato, D.C., Harvey, B.J., and Turner, M.G. 2016. Regeneration of lower-montane forests a quarter-century after the 1988 Yellowstone Fires: a fire-catalyzed shift in lower treelines? Ecosphere <\/em><\/strong>7(8): e01410. <\/em>(pdf)<\/a><\/p>\n

Harvey, B.J., Donato, D.C., Turner. M.G. 2016. Burn me twice, shame on who? Interactions between successive forest fires across a temperate mountain region. Ecology<\/em><\/strong> 97(9): 2272-2282. (pdf)<\/a><\/p>\n

Harvey, B.J., Donato, D.C., Turner, M.G. 2016. High and dry: Postfire drought and large stand-replacing burn patches reduce postfire tree regeneration in subalpine forests. Global Ecology and Biogeography<\/em><\/strong> 25: 655-669. (pdf)<\/a><\/p>\n

Andrus, R.A., Veblen, T.T., Harvey, B.J., Hart. S.J. 2016. Fire severity unaffected by spruce beetle outbreak in spruce-fir forests of southwestern Colorado. Ecological Applications<\/em><\/strong> 26(3): 700-711. (pdf)<\/a><\/p>\n

2014<\/strong><\/span><\/p>\n

Harvey, B.J., Donato, D.C., Turner, M.G. 2014. Recent mountain pine beetle outbreaks, wildfire severity, and postfire tree regeneration in the US Northern Rockies. Proceedings of the National Academy of Sciences<\/em><\/strong> 111(42): 15120-15125. (pdf)<\/a><\/p>\n

Harvey, B.J., Donato, D.C., Romme, W.H., Turner, M.G. 2014. Fire severity and tree regeneration following bark beetle outbreaks: the role of outbreak stage and burning conditions. Ecological Applications<\/em><\/strong> 24(7): 1608-1625. <\/em>(pdf)<\/a><\/p>\n

Harvey, B.J., Forrestel, A.B., Holzman, B.A. 2014. Forest resilience following severe wildfire in a semi-urban National Park. Fremontia <\/em><\/strong>42(3): 14-18. (pdf)<\/a><\/p>\n

Harvey, B.J., Holzman, B.A. 2014. Divergent successional pathways of stand development following fire in a California closed-cone pine forest. Journal of Vegetation Science<\/em><\/strong> 25(1): 88-99. (pdf)<\/a><\/p>\n

2013<\/strong><\/span><\/p>\n

Harvey, B.J., Donato, D.C., Romme, W.H., Turner, M.G. 2013. Influence of recent bark beetle outbreak on fire severity and post-fire tree regeneration in montane Douglas-fir forests. Ecology<\/em> <\/strong>94(11): 2475-2486. (pdf)<\/a><\/p>\n

Donato, D.C., Simard, M., Romme, W.H., Harvey, B.J., Turner, M.G. 2013. Evaluating post-outbreak management effects on future fuel profiles and stand structure in bark beetle-impacted forests of Greater Yellowstone. Forest Ecology and Management<\/em><\/strong> 303: 160-174. (pdf)<\/a><\/p>\n

Donato, D.C., Harvey, B.J., Romme, W.H., Simard, M., Turner, M.G. 2013. Bark beetle effects on fuel profiles across a range of stand structures in Douglas-fir forests of Greater Yellowstone, USA. Ecological Applications<\/em><\/strong> 23(1): 3-20. <\/em>(pdf)<\/a><\/p>\n

2011<\/strong><\/span><\/p>\n

Harvey, B.J., Holzman, B.A, Davis, J.D. 2011.<\/i> Spatial variability in stand structure and density-dependent mortality in newly established post-fire stands of a California closed-cone pine forest. Forest Ecology and Management<\/strong> <\/i>262(11): 2042-2051. (pdf)<\/a><\/p>\n

Research briefs or technical reports:<\/strong><\/p>\n

Harvey, B.J., Agne, M.C. 2021. Bishop pine forest health: Science synthesis to inform management and conservation. Final report and white paper prepared for the Golden Gate Parks Conservancy.\u00a0(pdf)<\/a><\/p>\n

Schoennagel, T. Morgan, P., Balch, J.K., Dennison, P.E., Harvey, B.J., Hutto, R.L., Krawchuk, M.A., Mortiz, M.A., Rasker, R., Whitlock, C.L. 2016. Insights from wildfire science: A resource for policy discussions. White paper, Headwaters Economics (link)<\/a>. (pdf)<\/a><\/p>\n","protected":false},"excerpt":{"rendered":"

By downloading a paper(s), I assume that you are requesting a reprint for research or educational purposes. 2026 and\u00a0in press Potterf, M., +29 other authors including Braziunas, K.H., 2026. Tree regeneration after unprecedented forest disturbances in Central Europe is robust but maladapted to future climate change. Global Change Biology 32(2): e70734. (pdf) 2025 Morris, J.E., […]<\/p>\n","protected":false},"author":1,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":[],"_links":{"self":[{"href":"https:\/\/depts.washington.edu\/bjhlab\/wp-json\/wp\/v2\/pages\/254"}],"collection":[{"href":"https:\/\/depts.washington.edu\/bjhlab\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/depts.washington.edu\/bjhlab\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/depts.washington.edu\/bjhlab\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/depts.washington.edu\/bjhlab\/wp-json\/wp\/v2\/comments?post=254"}],"version-history":[{"count":152,"href":"https:\/\/depts.washington.edu\/bjhlab\/wp-json\/wp\/v2\/pages\/254\/revisions"}],"predecessor-version":[{"id":2193,"href":"https:\/\/depts.washington.edu\/bjhlab\/wp-json\/wp\/v2\/pages\/254\/revisions\/2193"}],"wp:attachment":[{"href":"https:\/\/depts.washington.edu\/bjhlab\/wp-json\/wp\/v2\/media?parent=254"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}