早演替和晚演替北方森林树木干湿年非结构性碳水化合物浓度对比

IF 2.1 3区农林科学 Q2 FORESTRY

Trees Pub Date : 2023-07-09 DOI:10.1007/s00468-023-02420-6

Choimaa Dulamsuren, Gurbazar Byamba-Yondon, Shagjjav Oyungerel, Renate Nitschke, Tobias Gebauer

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引用次数: 0

摘要

南方北方针叶林桦木和落叶松在干湿条件下的非结构性碳水化合物分配模式不同。【摘要】北方森林的面积正在从温度限制向干旱限制转变。在干旱易发的北方森林中，树木的非结构碳水化合物(NSC)池如何受到干湿交替阶段的影响，以及NSC浓度如何与生长反应相关，目前尚不清楚。在蒙古南部北方森林中，在干旱年(2017年)和随后的两个潮湿年(2018/19年)之间，用酶法测定了两种树种茎材中的NSC浓度(包括可溶性糖和淀粉)。白桦作为阔叶先锋树，在干旱年径向茎长减少，在随后的湿润年生长迅速增加。它具有低浓度的NSC，特别是可溶性糖，这表明大多数同化物被投入到这种早期演替树的生长中。落叶松作为一种晚演替针叶树，在干旱年也表现出生长减少，但在2018/19年，落叶松的NSC浓度下降滞后，生长释放也不如桦树明显，这表明干旱的后果比桦树更长。落叶松在研究的三个生长季节，包括2017年的干旱期，都保持着更高的NSC浓度。落叶松NSC库主要由边材和心材中的可溶性糖形成。与桦木相比，落叶松在生物量投资之前对可溶性糖的同化物具有较高的分配优先权，这解释了干旱对生长和NSC的后效应。因此，落叶松的高可溶性糖浓度是决定西伯利亚松耐旱性和耐寒性的关键因素，因此落叶松生长对碳的分配优先级低于桦树。

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Non-structural carbohydrate concentrations in contrasting dry and wet years in early- and late-successional boreal forest trees

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Non-structural carbohydrate concentrations in contrasting dry and wet years in early- and late-successional boreal forest trees

Key message

Patterns of non-structural carbohydrate allocation in dry and wet differ between birch and larch in southern boreal forest.

Abstract

An increasing area of boreal forests is currently switching from temperature to drought limitation. It is not sufficiently known how the trees’ non-structural carbohydrate (NSC) pools are affected by alternating dry and wet phases in drought-prone boreal forests and how NSC concentrations are related to growth responses. In the southern boreal forests of Mongolia, NSC concentrations (including soluble sugars and starch) were determined enzymatically in the stemwood of two tree species during a drought year (2017) that was preceded by another drought in 2015 and two subsequent wet years (2018/19). Betula platyphylla as a broadleaved pioneer tree showed reduced radial stem increment in the drought year and rapidly increasing growth in the following wet years. It had low concentrations of NSC and of soluble sugars in particular, suggesting that most assimilate were invested into growth in this early successional tree. Larix sibirica as a late-successional conifer also showed reduced growth in the drought year, but lagged reductions in NSC concentrations and less pronounced growth releases than birch in 2018/19, suggesting a longer aftereffect of the drought than in birch. Larch maintained much higher NSC concentrations throughout the three studied growing seasons, including the drought episode in 2017. The NSC pool in larch was primarily formed by soluble sugars in sapwood and heartwood. In contrast to birch, larch showed a high allocation priority for assimilates in soluble sugars before investment in biomass, which explains the aftereffect of the drought on both growth and NSC. We conclude that the high soluble sugar concentrations in larch are a key determinant of the extreme drought and cold tolerance of L. sibirica and, therefore, growth has lower allocation priority for carbon compared to birch.

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来源期刊

Trees 农林科学-林学

CiteScore

4.50

自引率

4.30%

发文量

113

审稿时长

3.8 months

期刊介绍： Trees - Structure and Function publishes original articles on the physiology, biochemistry, functional anatomy, structure and ecology of trees and other woody plants. Also presented are articles concerned with pathology and technological problems, when they contribute to the basic understanding of structure and function of trees. In addition to original articles and short communications, the journal publishes reviews on selected topics concerning the structure and function of trees.