Experimental downed woody debris-created microsites enhance tree survival and growth in extreme summer heat

IF 2.7 3区 农林科学 Q2 ECOLOGY
Mark E. Swanson, Margaret I. Magee, Andrew S. Nelson, Rudy Engstrom, Henry D. Adams
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Abstract

Introduction Increasing temperatures associated with climate change can lead to more challenging conditions for tree seedlings, including greater soil surface temperatures and reduced growing season soil moisture. Downed woody debris (DWD) may provide microsite effects, such as shade, that moderate these conditions for seedlings. However, few studies have conducted fine-scale assessments of the strength of the microsite as a function of distance from DWD or how the microsite effect differs between species or across topographic gradients. Methods In this study, conducted in the Palouse region of eastern Washington State, we placed three large pieces of DWD (5 m length × 40–50 cm small-end diameter, oriented east–west) on each of three topographic facets (north-facing, flat ridge-top, and south-facing), and planted transects of seedlings of a xerophytic conifer (ponderosa pine, Pinus ponderosa ) and a mesophytic conifer (Douglas-fir, Pseudotsuga menziesii ) on both sides of the DWD at fixed distances (0, 0.25, 0.5, and 1.5 m). The 1.5 m distance was assumed to serve as a control, with no measurable influence from DWD. Seedling responses (stress rating, survival, basal diameter and height growth, and dark-adapted chlorophyll fluorescence) over two growing seasons were used to interpret the influence of DWD on seedling health and survival, especially during stressful episodes of extreme heat, such as occurred during July 2021, the first growing season of the experiment. Soil surface temperature and soil volumetric water content (10 cm depth) were measured at all seedling locations to understand biophysical contributors to seedling response. Results We found that seedlings of both conifers displayed lower stress ratings, higher survival, and greater height growth close to the north side of DWD, with this effect especially pronounced on the flat ridge-top and the south-facing slope. Soil surface temperature decreased greatly in the “shade zone” at 0.0 m and 0.25 m distances on the north side of DWD, and soil volumetric water content declined more quickly outside of the shaded microsite. Discussion These findings suggest that creating or retaining DWD on stressful sites may prove an important climate adaptive management strategy in ecosystem restoration or forest management, especially if extreme heat events continue to increase in frequency.
实验性的倒下的木质碎片创造的微站点可以提高树木在极端夏季高温下的生存和生长
与气候变化相关的温度升高可能导致树苗面临更大的挑战,包括土壤表面温度升高和生长季节土壤湿度降低。掉落的木质碎片(DWD)可能提供微站点效应,例如遮荫,从而缓和幼苗的这些条件。然而,很少有研究对微站点的强度作为与DWD距离的函数或微站点效应在物种之间或不同地形梯度之间的差异进行精细评估。方法在华盛顿州东部的Palouse地区,我们在三个地形面(朝北、平脊顶和朝南)上分别放置了3个大的DWD (5 m长× 40-50 cm小端直径,面向东西),并在DWD两侧以固定距离(0、0.25、0.5、0.5)分别种植了旱生针叶树(黄松、松)和中生针叶树(道格拉斯松、孟氏伪杉)的幼苗样条。和1.5 m)。假设1.5 m距离作为对照,DWD没有可测量的影响。利用两个生长季节的幼苗响应(胁迫等级、存活率、基径和高生长以及暗适应叶绿素荧光)来解释DWD对幼苗健康和存活的影响,特别是在极端高温胁迫时期,如2021年7月,即实验的第一个生长季节。在所有幼苗位置测量土壤表面温度和土壤体积含水量(10cm深度),以了解影响幼苗响应的生物物理因素。结果两种针叶树的幼苗在DWD北侧表现出较低的胁迫等级、较高的成活率和较高的长高,且这种效应在平脊顶和南坡上表现得尤为明显。在DWD北侧0.0 m和0.25 m处的“遮荫区”土壤表面温度下降幅度较大,遮荫区外土壤体积含水量下降速度更快。这些发现表明,在有压力的地点建立或保留DWD可能是生态系统恢复或森林管理中重要的气候适应性管理策略,特别是在极端高温事件频率持续增加的情况下。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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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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