Specific leaf area (SLA) serves as a proxy to predict total carbon content in understory individuals of the neotropical canopy palm Socratea exorrhiza

IF 2.1 3区农林科学 Q2 FORESTRY

Trees Pub Date : 2023-07-12 DOI:10.1007/s00468-023-02430-4

Gerardo Avalos

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引用次数: 1

Abstract

AbstractSection Key message

Specific leaf area (SLA, cm²g^− 1) is a fundamental leaf economics spectrum trait, which predicted the total carbon sequestered at the individual level in understory palms of Socratea exorrhiza.

AbstractSection Abstract

Evaluating intraspecific and ontogenetic variation in SLA is critical to understand how functional traits influence plant fitness and regeneration strategies. SLA is usually expressed as an average value per species. Its variation across ontogenetic stages and environmental gradients is poorly known, particularly in palms. I measured SLA in 112 palms of Socratea exorrhiza in the understory of a tropical rainforest in Costa Rica. Total carbon content sequestered per palm (kg) was estimated from an allometric equation. I determined the regression between Ln SLA and Ln carbon content, and then used principal components to summarize the regeneration strategy of S. exorrhiza by examining the allometry of stem length and diameter, number of fronds, number of stilt roots, stilt root cone height, slenderness ratio, SLA, and carbon content. SLA predicted total sequestered carbon (slope = − 4.33, r² = 0. 52). Smaller values of SLA were associated with increased carbon content and larger palms. Two components explained 77% of the variation in functional traits. The first (76%) was dominated by stem diameter, height, stilt root cone, and carbon content (negatively associated with SLA) and reflected palm size; the second (15%) was dominated by slenderness ratio and number of leaves and reflected allocation to growth in height. The inverse relationship between SLA and sequestered carbon is consistent with the initial shade tolerant, conservative resource use strategy of S. exorrhiza.

Abstract Image

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比叶面积(SLA)可作为预测新热带冠层棕榈林下个体总碳含量的指标

特定叶面积(Specific leaf area, SLA, cm2g−1)是一个基本的叶片经济学谱特征，它可以预测草叶下棕榈在个体水平上的总固碳量。摘要评估SLA的种内变异和个体发生变异对于了解功能性状如何影响植物适应性和再生策略至关重要。SLA通常表示为每个物种的平均值。其在个体发育阶段和环境梯度上的变化鲜为人知，特别是在棕榈树中。我测量了哥斯达黎加热带雨林林下112棵树的SLA。根据异速生长方程估计了每棵棕榈(kg)的总碳含量。确定了Ln SLA与Ln碳含量之间的回归关系，并通过考察茎长直径、叶数、高脚根数、高脚根锥高、长细比、SLA和碳含量的异速性，利用主成分法总结了大黄的再生策略。SLA预测总固碳量(斜率= - 4.33,r2 = 0)。52)。SLA值越小，碳含量越高，手掌越大。两个成分解释了77%的功能性性状变异。第一种(76%)主要由茎粗、高度、高脚根锥、碳含量(与SLA负相关)和反射手掌大小决定;其次(15%)以长细比和叶数为主，反映了对生长高度的分配。SLA与固存碳呈反比关系，这与大黄初始耐阴、保守的资源利用策略一致。

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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.