Multi-cohort survival of northern red oak seedlings at a northern hardwood forest transition

IF 2.7 3区 环境科学与生态学 Q2 ECOLOGY
Ecosphere Pub Date : 2024-08-07 DOI:10.1002/ecs2.4949
Natalie L. Cleavitt, John J. Battles, Jaclyn Hatala Matthes, Sage Wentzell-Brehme
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Abstract

Global change has created less stable forest systems and given urgency to understanding limitations to the establishment of tree seedlings beyond current range boundaries. We quantified trends in 13 years of annual northern red oak (QURU) seedling survival data for 1733 marked individuals at a local species distribution boundary within the northern hardwood forest in New Hampshire, USA. Over the study period, the median distance of seedlings into the valley did not change, although there was a net gain of 89 plots (5 m2) occupied. For a subset of seedlings that were marked in their year of birth (N = 937), we examined relationships among terrain, vegetation community, and initial individual seedling traits, and evaluated their effects on time to seedling mortality using a parametric accelerated failure time model. The year of seedling germination had the largest effect on survival with increasing mortality rates for seedlings from more recent cohorts. Seedlings had longer survival times where oak seedling densities were lower, shrub cover was higher, and when the acorn remained attached. Additionally, survival time was increased in higher elevation plots, which were also located further into the valley. Interannual seedling survival (N = 1580) was strongly impacted by seedling condition in the previous year, particularly leaf number and amount of leaf damage. Most seedling deaths occurred over winter, and seedlings failed to break bud the following spring. Interannual variation in seasonal climate, particularly deep, heavy snowpack in 2019 followed by drought conditions in 2020, coincided with recent elevated mortality. Overall, the median survival time of 3–4 years and the rapid turnover of the oak seedling population currently limit ability for expansion, although the net gain of occupied plots and increase in survival at higher elevation plots with lower QURU densities present some mechanisms that could promote expansion if the current suboptimal understory conditions shift to favor QURU.

Abstract Image

北方阔叶林过渡区北方红栎幼苗的多群存活率
全球变化导致森林系统不够稳定,因此迫切需要了解树苗在当前分布边界以外建立的限制因素。我们对美国新罕布什尔州北部硬木森林中当地物种分布边界处 1733 个标记个体的 13 年北方红栎(QURU)幼苗存活率数据进行了量化分析。在研究期间,幼苗进入山谷的中位距离没有发生变化,尽管净增加了 89 块地块(5 平方米)。对于在出生年份被标记的幼苗子集(N = 937),我们研究了地形、植被群落和幼苗初始个体特征之间的关系,并使用参数加速衰竭时间模型评估了它们对幼苗死亡时间的影响。幼苗发芽年份对存活率的影响最大,发芽年份越近的幼苗死亡率越高。在橡树幼苗密度较低、灌木覆盖率较高以及橡子仍然附着的地方,幼苗的存活时间较长。此外,海拔较高的地块存活时间较长,这些地块也位于山谷较深处。幼苗的年际存活率(N = 1580)受前一年幼苗状况的影响很大,尤其是叶片数量和叶片损伤程度。大多数幼苗在冬季死亡,次年春季幼苗无法破芽。季节性气候的年际变化,特别是 2019 年的深厚积雪和 2020 年的干旱,与最近的死亡率升高相吻合。总体而言,3-4 年的中位存活时间和橡树幼苗种群的快速更替目前限制了其扩展能力,不过,如果目前的次优林下条件转向有利于 QURU,那么被占用地块的净增加和 QURU 密度较低的高海拔地块存活率的提高将提供一些机制,促进其扩展。
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来源期刊
Ecosphere
Ecosphere ECOLOGY-
CiteScore
4.70
自引率
3.70%
发文量
378
审稿时长
15 weeks
期刊介绍: The scope of Ecosphere is as broad as the science of ecology itself. The journal welcomes submissions from all sub-disciplines of ecological science, as well as interdisciplinary studies relating to ecology. The journal''s goal is to provide a rapid-publication, online-only, open-access alternative to ESA''s other journals, while maintaining the rigorous standards of peer review for which ESA publications are renowned.
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