Carbon allocation in Picea jezoensis: Adaptation strategies of a non-treeline species at its upper elevation limit

IF 3.8 1区 农林科学 Q1 FORESTRY
Renkai Dong , Na Li , Mai-He Li , Yu Cong , Haibo Du , Decai Gao , Hong S. He
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Abstract

Understanding the physiological adaptations of non-treeline trees to environmental stress is important to understand future shifts in species composition and distribution of current treeline ecotone. The aim of the present study was to elucidate the mechanisms of the formation of the upper elevation limit of non-treeline tree species, Picea jezoensis, and the carbon allocation strategies of the species on Changbai Mountain. We employed the 13C in situ pulse labeling technique to trace the distribution of photosynthetically assimilated carbon in Picea jezoensis at different elevational positions (tree species at its upper elevation limit (TSAUE, 1,700 ​m a.s.l.) under treeline ecotone; tree species at a lower elevation position (TSALE, 1,400 ​m a.s.l.). We analyzed 13C and the non-structural carbohydrate (NSC) concentrations in various tissues following labeling. Our findings revealed a significant shift in carbon allocation in TSAUE compared to TSALE. There was a pronounced increase in δ13C allocation to belowground components (roots, soil, soil respiration) in TSAUE compared to TSALE. Furthermore, the C flow rate within the plant-soil-atmosphere system was faster, and the C residence time in the plant was shorter in TSAUE. The trends indicate enhanced C sink activity in belowground tissues in TSAUE, with newly assimilated C being preferentially directed there, suggesting a more conservative C allocation strategy by P. jezoensis at higher elevations under harsher environments. Such a strategy, prioritizing C storage in roots, likely aids in withstanding winter cold stress at the expense of aboveground growth during the growing season, leading to reduced growth of TSAUE compared to TSALE. The results of the present study shed light on the adaptive mechanisms governing the upper elevation limits of non-treeline trees, and enhances our understanding of how non-treeline species might respond to ongoing climate change.

杰索松的碳分配:海拔上限非干线物种的适应策略
了解非树线性树木对环境压力的生理适应性对于理解当前树线生态区物种组成和分布的未来变化非常重要。本研究旨在阐明长白山非乔木树种--长白山红豆杉海拔上限的形成机制及其碳分配策略。我们采用13C原位脉冲标记技术,追踪了不同海拔位置(树线生态带下海拔上限树种(TSAUE,海拔1,700米);海拔较低位置树种(TSALE,海拔1,400米))的长白山红豆杉光合同化碳的分布。我们对标记后各种组织中的 13C 和非结构碳水化合物(NSC)浓度进行了分析。我们的研究结果表明,与TSALE相比,TSAUE的碳分配发生了重大变化。与TSALE相比,TSAUE中地下成分(根、土壤、土壤呼吸作用)的δ13C分配明显增加。此外,在 TSAUE 中,植物-土壤-大气系统中的碳流速更快,碳在植物中的停留时间更短。这些趋势表明,在 TSAUE 中,地下组织的碳汇活动增强,新同化的碳被优先导向地下组织,这表明在海拔较高的恶劣环境下,P. jezoensis 采用了更为保守的碳分配策略。这种优先将碳储存在根部的策略可能有助于抵御冬季寒冷胁迫,但在生长季节却牺牲了地上部的生长,导致TSAUE的生长量低于TSALE。本研究的结果揭示了非干线树木海拔上限的适应机制,加深了我们对非干线物种如何应对当前气候变化的理解。
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来源期刊
Forest Ecosystems
Forest Ecosystems Environmental Science-Nature and Landscape Conservation
CiteScore
7.10
自引率
4.90%
发文量
1115
审稿时长
22 days
期刊介绍: Forest Ecosystems is an open access, peer-reviewed journal publishing scientific communications from any discipline that can provide interesting contributions about the structure and dynamics of "natural" and "domesticated" forest ecosystems, and their services to people. The journal welcomes innovative science as well as application oriented work that will enhance understanding of woody plant communities. Very specific studies are welcome if they are part of a thematic series that provides some holistic perspective that is of general interest.
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