北落基山森林在未来干旱、火灾和收成下的脆弱性

IF 2.7 3区 农林科学 Q2 ECOLOGY Frontiers in Forests and Global Change Pub Date : 2023-09-12 DOI:10.3389/ffgc.2023.1146033
Jeffrey E. Stenzel, Crystal A. Kolden, Polly C. Buotte, Kristina J. Bartowitz, Eric W. Walsh, Tara W. Hudiburg
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引用次数: 0

摘要

21世纪的新气候和扰动可能会增加美国西部一些森林在生物量和功能损失方面的脆弱性。然而,森林脆弱性发生的时间和程度是不确定的,并且在该地区复杂的生物物理景观中变化很大。评估未来森林轨迹和在新条件下潜在的管理影响需要对特定地点和机制模式进行预测。美国北部落基山脉(NRM)高碳密度森林的利益相关者目前正在寻求了解和减轻这些不同针叶林的气候风险,这些针叶林经历了20世纪1910年“大燃烧”和木材采伐的深刻干扰。目前修订的森林管理计划考虑的方法包括增加木材采伐,目的是改变物种组成和提高森林的抗逆性。本文利用动态植被模型(DVM)与地球系统模型(ESM)耦合的CLM-FATES,模拟了在前所未有的气候和管理下,到2100年NRM森林碳储量、覆盖、生产和扰动的变化。在21世纪的所有情景中,由于间歇性干旱和火灾死亡率与净初级生产力(NPP)下降和干扰后恢复的相互作用,域森林c -蓄存量和冠层覆盖在2090年后都将下降。然而,由于缓冲变暖影响的降水增加,各气候模式对本世纪中叶森林对火灾和干旱影响脆弱性的预测并不一致。在所有气候情景下,尽管在本世纪后期森林压力有所减少,但采伐制度的增加减少了森林碳储量,并增加了时期死亡率。结果表明,现有的森林碳储量和功能具有中等持久性,增加短期清除量可能不合时宜,无法有效提高恢复力。
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Vulnerability of northern rocky mountain forests under future drought, fire, and harvest
Novel climate and disturbance regimes in the 21st century threaten to increase the vulnerability of some western U.S. forests to loss of biomass and function. However, the timing and magnitude of forest vulnerabilities are uncertain and will be highly variable across the complex biophysical landscape of the region. Assessing future forest trajectories and potential management impacts under novel conditions requires place-specific and mechanistic model projections. Stakeholders in the high-carbon density forests of the northern U.S. Rocky Mountains (NRM) currently seek to understand and mitigate climate risks to these diverse conifer forests, which experienced profound 20th century disturbance from the 1910 “Big Burn” and timber harvest. Present forest management plan revisions consider approaches including increases in timber harvest that are intended to shift species compositions and increase forest stress tolerance. We utilize CLM-FATES, a dynamic vegetation model (DVM) coupled to an Earth Systems Model (ESM), to model shifting NRM forest carbon stocks and cover, production, and disturbance through 2100 under unprecedented climate and management. Across all 21st century scenarios, domain forest C-stocks and canopy cover face decline after 2090 due to the interaction of intermittent drought and fire mortality with declining Net Primary Production (NPP) and post-disturbance recovery. However, mid-century increases in forest vulnerability to fire and drought impacts are not consistently projected across climate models due to increases in precipitation that buffer warming impacts. Under all climate scenarios, increased harvest regimes diminish forest carbon stocks and increase period mortality over business-as-usual, despite some late-century reductions in forest stress. Results indicate that existing forest carbon stocks and functions are moderately persistent and that increased near-term removals may be mistimed for effectively increasing resilience.
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来源期刊
CiteScore
4.50
自引率
6.20%
发文量
256
审稿时长
12 weeks
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