School of Natural Resources and Conservation, University of Florida, Gainesville, FL, United States of America.
PLoS One. 2021 Feb 17;16(2):e0247159. doi: 10.1371/journal.pone.0247159. eCollection 2021.
Restoring fire regimes is a major goal of biodiversity conservation efforts in fire-prone ecosystems from which fire has been excluded. In the southeastern U.S.A., nearly a century of fire exclusion in pine savannas has led to significant biodiversity declines in one of the most species-rich ecosystems of North America. In these savannas, frequent fires that support biodiversity are driven by vegetation-fire feedbacks. Understory grasses are key components of these feedbacks, fueling the spread of fires that keep tree density low and maintain a high-light environment. When fire is reintroduced to long-unburned sites, however, remnant populations of bunchgrasses might experience high mortality from fuel accumulation during periods of fire exclusion. Our objective was to quantify fire effects on wiregrass (Aristida beyrichiana), a key component of vegetation-fire feedbacks, following 16 years without fire in a dry pine savanna typically considered to burn every 1-3 years. We examined how wiregrass size and fuel (duff depth and presence of pinecones) affected post-fire survival, inflorescence and seed production, and seed germination. Wiregrass exhibited high survival regardless of size or fuels. Probability of flowering and inflorescence number per plant were unaffected by fuel treatments but increased significantly with plant size (p = 0.016). Germination of filled seeds was consistent (29-43%) regardless of fuels, although plants in low duff produced the greatest proportion of filled seeds. The ability of bunchgrasses to persist and reproduce following fire exclusion could jumpstart efforts to reinstate frequent-fire regimes and facilitate biodiversity restoration where remnant bunchgrass populations remain.
恢复火干扰是从火干扰中排除的火灾多发生态系统中生物多样性保护努力的主要目标。在美国东南部,近一个世纪的松林草原火灾排除导致了北美的生物多样性在最丰富的生态系统之一中显著下降。在这些草原中,支持生物多样性的频繁火灾是由植被-火灾反馈驱动的。下层草本植物是这些反馈的关键组成部分,为火势的蔓延提供燃料,使树木密度保持较低水平并维持高光环境。然而,当重新引入长期未燃烧的地点时,丛草的残余种群可能会因火灾排除期间燃料积累而经历高死亡率。我们的目标是量化在一个通常每 1-3 年燃烧一次的干燥松林草原中,在 16 年没有火灾的情况下,火对关键植被-火灾反馈组成部分的 Wiregrass(Aristida beyrichiana)的影响。我们研究了 Wiregrass 的大小和燃料(凋落物深度和松果的存在)如何影响火灾后的存活率、花序和种子产量以及种子发芽。无论大小或燃料如何,Wiregrass 的存活率都很高。开花的可能性和每株植物的花序数量不受燃料处理的影响,但随着植物大小的增加而显著增加(p = 0.016)。充满种子的发芽率是一致的(29-43%),无论燃料如何,尽管在低凋落物中植物产生的充满种子比例最大。在排除火灾后,丛生草能够存活和繁殖的能力可以为恢复频繁火灾的模式并促进剩余丛生草种群的生物多样性恢复提供动力。
