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  1. Article: Tamm Review: Postfire landscape management in frequent-fire conifer forests of the southwestern United States

    Stevens, Jens T. / Haffey, Collin M. / Coop, Jonathan D. / Fornwalt, Paula J. / Yocom, Larissa / Allen, Craig D. / Bradley, Anne / Burney, Owen T. / Carril, Dennis / Chambers, Marin E. / Chapman, Teresa B. / Haire, Sandra L. / Hurteau, Matthew D. / Iniguez, Jose M. / Margolis, Ellis Q. / Marks, Christopher / Marshall, Laura A.E. / Rodman, Kyle C. / Stevens-Rumann, Camille S. /
    Thode, Andrea E. / Walker, Jessica J.

    Forest ecology and management. 2021 Dec. 15, v. 502

    2021  

    Abstract: The increasing incidence of wildfires across the southwestern United States (US) is altering the contemporary forest management template within historically frequent-fire conifer forests. An increasing fraction of southwestern conifer forests have ... ...

    Abstract The increasing incidence of wildfires across the southwestern United States (US) is altering the contemporary forest management template within historically frequent-fire conifer forests. An increasing fraction of southwestern conifer forests have recently burned, and many of these burned landscapes contain complex mosaics of surviving forest and severely burned patches without surviving conifer trees. These heterogeneous burned landscapes present unique social and ecological challenges. Severely burned patches can present numerous barriers to successful conifer regeneration, and often contain heavy downed fuels which have cascading effects on future fire behavior and conifer regeneration. Conversely, surviving forest patches are increasingly recognized for their value in postfire reforestation but often are overlooked from a management perspective.Here we present a decision-making framework for landscape-scale management of complex postfire landscapes that allows for adaptation to a warming climate and future fire. We focus specifically on historically frequent-fire forests of the southwestern US but make connections to other forest types and other regions. Our framework depends on a spatially-explicit assessment of the mosaic of conifer forest and severely burned patches in the postfire landscape, evaluates likely vegetation trajectories, and identifies critical decision points to direct vegetation change via manipulations of fuels and live vegetation. This framework includes detailed considerations for postfire fuels management (e.g., edge hardening within live forest patches and repeat burning) and for reforestation (e.g., balancing tradeoffs between intensive and extensive planting strategies, establishing patches of seed trees, spatial planning to optimize reforestation success, and improving nursery capacity). In a future of increasing fire activity in forests where repeated low- to moderate-severity fire is essential to ecosystem resilience, the decision-making framework developed here can easily be integrated with existing postfire management strategies to optimize allocation of limited resources and more actively manage burned landscapes.
    Keywords climate ; coniferous forests ; conifers ; decision making ; ecological resilience ; fire behavior ; forest ecology ; landscape management ; landscapes ; reforestation ; Southwestern United States
    Language English
    Dates of publication 2021-1215
    Publishing place Elsevier B.V.
    Document type Article
    ZDB-ID 751138-3
    ISSN 0378-1127
    ISSN 0378-1127
    DOI 10.1016/j.foreco.2021.119678
    Database NAL-Catalogue (AGRICOLA)

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  2. Article ; Online: Reduced fire severity offers near-term buffer to climate-driven declines in conifer resilience across the western United States.

    Davis, Kimberley T / Robles, Marcos D / Kemp, Kerry B / Higuera, Philip E / Chapman, Teresa / Metlen, Kerry L / Peeler, Jamie L / Rodman, Kyle C / Woolley, Travis / Addington, Robert N / Buma, Brian J / Cansler, C Alina / Case, Michael J / Collins, Brandon M / Coop, Jonathan D / Dobrowski, Solomon Z / Gill, Nathan S / Haffey, Collin / Harris, Lucas B /
    Harvey, Brian J / Haugo, Ryan D / Hurteau, Matthew D / Kulakowski, Dominik / Littlefield, Caitlin E / McCauley, Lisa A / Povak, Nicholas / Shive, Kristen L / Smith, Edward / Stevens, Jens T / Stevens-Rumann, Camille S / Taylor, Alan H / Tepley, Alan J / Young, Derek J N / Andrus, Robert A / Battaglia, Mike A / Berkey, Julia K / Busby, Sebastian U / Carlson, Amanda R / Chambers, Marin E / Dodson, Erich Kyle / Donato, Daniel C / Downing, William M / Fornwalt, Paula J / Halofsky, Joshua S / Hoffman, Ashley / Holz, Andrés / Iniguez, Jose M / Krawchuk, Meg A / Kreider, Mark R / Larson, Andrew J / Meigs, Garrett W / Roccaforte, John Paul / Rother, Monica T / Safford, Hugh / Schaedel, Michael / Sibold, Jason S / Singleton, Megan P / Turner, Monica G / Urza, Alexandra K / Clark-Wolf, Kyra D / Yocom, Larissa / Fontaine, Joseph B / Campbell, John L

    Proceedings of the National Academy of Sciences of the United States of America

    2023  Volume 120, Issue 11, Page(s) e2208120120

    Abstract: Increasing fire severity and warmer, drier postfire conditions are making forests in the western United States (West) vulnerable to ecological transformation. Yet, the relative importance of and interactions between these drivers of forest change remain ... ...

    Abstract Increasing fire severity and warmer, drier postfire conditions are making forests in the western United States (West) vulnerable to ecological transformation. Yet, the relative importance of and interactions between these drivers of forest change remain unresolved, particularly over upcoming decades. Here, we assess how the interactive impacts of changing climate and wildfire activity influenced conifer regeneration after 334 wildfires, using a dataset of postfire conifer regeneration from 10,230 field plots. Our findings highlight declining regeneration capacity across the West over the past four decades for the eight dominant conifer species studied. Postfire regeneration is sensitive to high-severity fire, which limits seed availability, and postfire climate, which influences seedling establishment. In the near-term, projected differences in recruitment probability between low- and high-severity fire scenarios were larger than projected climate change impacts for most species, suggesting that reductions in fire severity, and resultant impacts on seed availability, could partially offset expected climate-driven declines in postfire regeneration. Across 40 to 42% of the study area, we project postfire conifer regeneration to be likely following low-severity but not high-severity fire under future climate scenarios (2031 to 2050). However, increasingly warm, dry climate conditions are projected to eventually outweigh the influence of fire severity and seed availability. The percent of the study area considered unlikely to experience conifer regeneration, regardless of fire severity, increased from 5% in 1981 to 2000 to 26 to 31% by mid-century, highlighting a limited time window over which management actions that reduce fire severity may effectively support postfire conifer regeneration.
    MeSH term(s) Fires ; Wildfires ; Climate ; Climate Change ; Tracheophyta
    Language English
    Publishing date 2023-03-06
    Publishing country United States
    Document type Journal Article ; Research Support, Non-U.S. Gov't ; Research Support, U.S. Gov't, Non-P.H.S.
    ZDB-ID 209104-5
    ISSN 1091-6490 ; 0027-8424
    ISSN (online) 1091-6490
    ISSN 0027-8424
    DOI 10.1073/pnas.2208120120
    Database MEDical Literature Analysis and Retrieval System OnLINE

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