Radial growth in Qinghai spruce is most sensitive to severe drought in the Qilian Mountains of Northwest China

IF 3.4 2区 农林科学 Q1 FORESTRY
Xuge Wang, Liang Jiao, Ruhong Xue, Peng Zhang, Dashi Du, Mengyuan Wei, Qian Li
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Abstract

Global warming and frequent extreme drought events lead to tree death and extensive forest decline, but the underlying mechanism is not clear. In drought years, cambial development is more sensitive to climate change, but in different phenological stages, the response relationship is nonlinear. Therefore, the dynamic relationship between tree radial growth and climatic/environmental factors needs to be studied. We thus continuously monitored radial growth of Qinghai spruce (Picea crassifolia Kom.) and environmental factors from January 2021 to November 2022 using point dendrometers and portable meteorological weather stations in the central area of the Qilian Mountains. The relationship and stability between the radial growth of Qinghai spruce and environmental factors were compared for different levels of drought in 2021 and 2022. The year 2022 had higher temperatures and less precipitation and was drier than 2021. Compared with 2021, the growing period in 2022 for Qinghai spruce was 10 days shorter, maximum growth rate (Grmax) was 4.5 μm·d−1 slower, and the initiation of growth was 6 days later. Growth of Qinghai spruce was always restricted by drought, and the stem radial increment (SRI) was more sensitive to precipitation and air relative humidity. Seasonal changes in cumulative radial growth were divided into four phenological stages according to the time of growth onset, cessation, and maximum growth rate (Grmax) of Qinghai spruce. Stability responses of SRI to climate change were stronger in Stage 3 and Stage 4 of 2021 and stronger in Stage 1 (initiation growth stage) and Stage 3 of 2022. The results provide important information on the growth of the trees in response to drought and for specific managing forests as the climate warms.

Abstract Image

青海云杉的径向生长对中国西北部祁连山的严重干旱最为敏感
全球变暖和频繁的极端干旱事件导致树木死亡和森林大面积衰退,但其根本机制尚不清楚。在干旱年份,韧皮部发育对气候变化更为敏感,但在不同物候期,其响应关系是非线性的。因此,需要研究树木径向生长与气候/环境因素之间的动态关系。因此,我们在 2021 年 1 月至 2022 年 11 月期间,利用祁连山中部地区的点测距仪和便携式气象站对青海云杉(Picea crassifolia Kom.)的径向生长和环境因子进行了连续监测。比较了 2021 年和 2022 年不同干旱程度下青海云杉径向生长与环境因子的关系及其稳定性。2022 年气温较高,降水较少,比 2021 年干旱。与2021年相比,2022年青海云杉的生长期缩短了10天,最大生长速率(Grmax)减慢了4.5 μm-d-1,生长起始期推迟了6天。青海云杉的生长始终受到干旱的限制,茎径向增量(SRI)对降水和空气相对湿度更为敏感。根据青海云杉开始生长、停止生长和最大生长速率(Grmax)的时间,将累积径向生长的季节变化划分为四个物候期。SRI对气候变化的稳定性响应在2021年的第3阶段和第4阶段较强,在2022年的第1阶段(开始生长阶段)和第3阶段较强。这些结果为树木生长对干旱的响应以及随着气候变暖对森林的具体管理提供了重要信息。
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来源期刊
CiteScore
7.30
自引率
3.30%
发文量
2538
期刊介绍: The Journal of Forestry Research (JFR), founded in 1990, is a peer-reviewed quarterly journal in English. JFR has rapidly emerged as an international journal published by Northeast Forestry University and Ecological Society of China in collaboration with Springer Verlag. The journal publishes scientific articles related to forestry for a broad range of international scientists, forest managers and practitioners.The scope of the journal covers the following five thematic categories and 20 subjects: Basic Science of Forestry, Forest biometrics, Forest soils, Forest hydrology, Tree physiology, Forest biomass, carbon, and bioenergy, Forest biotechnology and molecular biology, Forest Ecology, Forest ecology, Forest ecological services, Restoration ecology, Forest adaptation to climate change, Wildlife ecology and management, Silviculture and Forest Management, Forest genetics and tree breeding, Silviculture, Forest RS, GIS, and modeling, Forest management, Forest Protection, Forest entomology and pathology, Forest fire, Forest resources conservation, Forest health monitoring and assessment, Wood Science and Technology, Wood Science and Technology.
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