Investigating hydrological recovery in regenerating coniferous stands in snow-dominated watersheds using simultaneous localization and mapping-enabled mobile terrestrial LiDAR

IF 3.2 3区 地球科学 Q1 Environmental Science
Cydne R. Potter, Kim C. Green, Daniel L. Peters, K. Olaf Niemann
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Abstract

The return of snow accumulation and ablation processes in regenerating forests to pre-disturbance conditions, collectively referred to as hydrological recovery, has been investigated in past decades through manual snow surveys in adjacent open, juvenile, and mature stands. The outcomes of such studies provide a general understanding of hydrological recovery but lack transferability to areas where stand structure and terrain conditions differ from the reference sites. The application of mobile terrestrial LiDAR to investigate peak snow water equivalent (SWE) and ablation rates beneath regenerating trees in a space-for-time substitution study design provides new insights on the process of hydrological recovery in snowmelt forests of British Columbia, Canada. Outcomes of this study better quantify the influence of tree growth on peak SWE and ablation rate at both the tree and stand level for north aspect mixed conifer stands. Recovery of these two processes differ with recovery of Peak SWE beginning when the trees in a stand reach 3 m in height and recovery of ablation rates beginning once trees reach 5 m in height. Additionally, the process of negative ablation recovery in early juvenile stands reported in previous studies is herein clearly observed, providing an improved understanding of forest canopy effects on hydrological recovery in juvenile stands. The methods used in this study, which are internationally applicable, increase transferability of outcomes to stands where canopy characteristics (i.e., height, crown cover, and heterogeneity) are not represented in reference sites.

Abstract Image

利用同步定位和支持测绘的移动式陆地激光雷达,调查以雪为主的流域中再生针叶林的水文恢复情况
在过去的几十年里,人们通过在邻近的开阔林地、幼林和成熟林地进行人工积雪调查,对再生林地的积雪和消融过程恢复到干扰前的状况(统称为水文恢复)进行了研究。这些研究成果提供了对水文恢复的一般理解,但缺乏对林分结构和地形条件与参考地点不同的地区的可移植性。在空间-时间替代研究设计中,应用移动式地面激光雷达调查再生树木下的峰值雪水当量(SWE)和消融率,为了解加拿大不列颠哥伦比亚省融雪森林的水文恢复过程提供了新的视角。这项研究的结果更好地量化了树木生长对北向针阔混交林的峰值SWE和树下消融率的影响。这两个过程的恢复有所不同,当林木高度达到 3 米时,峰值 SWE 开始恢复,而当林木高度达到 5 米时,消融率开始恢复。此外,本文还清楚地观察到了以往研究中报告的早期幼林负消融恢复过程,从而更好地了解了林冠对幼林水文恢复的影响。本研究采用的方法在国际上也是适用的,可将研究结果应用于树冠特征(即高度、树冠覆盖率和异质性)在参考点中没有体现的林分。
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来源期刊
Hydrological Processes
Hydrological Processes 环境科学-水资源
CiteScore
6.00
自引率
12.50%
发文量
313
审稿时长
2-4 weeks
期刊介绍: Hydrological Processes is an international journal that publishes original scientific papers advancing understanding of the mechanisms underlying the movement and storage of water in the environment, and the interaction of water with geological, biogeochemical, atmospheric and ecological systems. Not all papers related to water resources are appropriate for submission to this journal; rather we seek papers that clearly articulate the role(s) of hydrological processes.
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