Light competition drives species replacement during secondary tropical forest succession.

IF 2.3 2区 环境科学与生态学 Q2 ECOLOGY Oecologia Pub Date : 2024-05-01 Epub Date: 2024-05-10 DOI:10.1007/s00442-024-05551-w
Tomonari Matsuo, Miguel Martínez-Ramos, Yusuke Onoda, Frans Bongers, Madelon Lohbeck, Lourens Poorter
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Abstract

Light competition is thought to drive successional shifts in species dominance in closed vegetations, but few studies have assessed this for species-rich and vertically structured tropical forests. We analyzed how light competition drives species replacement during succession, and how cross-species variation in light competition strategies is determined by underlying species traits. To do so, we used chronosequence approach in which we compared 14 Mexican tropical secondary rainforest stands that differ in age (8-32 year-old). For each tree, height and stem diameter were monitored for 2 years to calculate relative biomass growth rate (RGR, the aboveground biomass gain per unit aboveground tree biomass per year). For each stand, 3D light profiles were measured to estimate individuals' light interception to calculate light interception efficiency (LIE, intercepted light per unit biomass per year) and light use efficiency (LUE, biomass growth per intercepted light). Throughout succession, species with higher RGR attained higher changes in species dominance and thus increased their dominance over time. Both light competition strategies (LIE and LUE) increased RGR. In early succession, a high LIE and its associated traits (large crown leaf mass and low wood density) are more important for RGR. During succession, forest structure builds up, leading to lower understory light levels. In later succession, a high LUE and its associated traits (high wood density and leaf mass per area) become more important for RGR. Therefore, successional changes in relative importance of light competition strategies drive shifts in species dominance during tropical rainforest succession.

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光竞争推动热带次生林演替过程中的物种更替。
光竞争被认为是封闭植被中物种优势演替的驱动力,但很少有研究对物种丰富、垂直结构的热带森林进行评估。我们分析了光竞争如何在演替过程中推动物种更替,以及光竞争策略的跨物种差异如何由基本物种特征决定。为此,我们采用了时序法,比较了 14 个不同年龄(8-32 岁)的墨西哥热带次生雨林林分。我们对每棵树的高度和茎直径进行了为期两年的监测,以计算相对生物量增长率(RGR,即每单位地上树生物量每年的地上生物量增长)。对每个林分的三维光剖面进行测量,以估算个体的光截获量,从而计算光截获效率(LIE,每年每单位生物量截获的光量)和光利用效率(LUE,每截获光量所带来的生物量增长)。在整个演替过程中,RGR较高的物种在物种优势度方面的变化较大,因此其优势度随时间推移而增加。两种光竞争策略(LIE 和 LUE)都提高了 RGR。在演替早期,高 LIE 及其相关性状(树冠叶量大、木材密度低)对 RGR 更为重要。在演替过程中,森林结构逐渐形成,导致林下光照水平降低。在晚期演替中,高 LUE 及其相关性状(高木材密度和单位面积叶片质量)对 RGR 更为重要。因此,在热带雨林演替过程中,光竞争策略相对重要性的演替变化推动了物种优势的转变。
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来源期刊
Oecologia
Oecologia 环境科学-生态学
CiteScore
5.10
自引率
0.00%
发文量
192
审稿时长
5.3 months
期刊介绍: Oecologia publishes innovative ecological research of international interest. We seek reviews, advances in methodology, and original contributions, emphasizing the following areas: Population ecology, Plant-microbe-animal interactions, Ecosystem ecology, Community ecology, Global change ecology, Conservation ecology, Behavioral ecology and Physiological Ecology. In general, studies that are purely descriptive, mathematical, documentary, and/or natural history will not be considered.
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