High Inter-Specific Diversity and Seasonality of Trunk Radial Growth in Trees Along an Afrotropical Elevational Gradient.

IF 6 1区 生物学 Q1 PLANT SCIENCES
Lenka Plavcová, Jan Tumajer, Jan Altman, Miroslav Svoboda, Annemiek Irene Stegehuis, Vít Pejcha, Jiří Doležal
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Abstract

Understanding mechanisms driving tropical tree growth is essential for comprehending carbon sequestration and predicting the future of tropical forests amid rapid deforestation. We conducted a natural experiment in Mount Cameroon to identify climatic factors limiting diurnal and seasonal growth in dominant tree species across a 2200-m elevation gradient, from lowland rainforests to montane mist forests with distinct wet and dry seasons. Using high-precision automatic dendrometers, we recorded radial growth rates of 28 tropical tree species from 2015 to 2018, correlating them with rainfall (11 100-2500 mm) and temperatures (23-14°C) across elevations. Significant growth limitations were suggested at both extremes of water availability. Tree growth peaked during the dry and prewet seasons at humid lower elevations and during wet seasons at drier higher elevations. Growth rates increased with soil moisture at higher elevations and peaked at medium soil moisture at lower elevations. Trees grew fastest at lower temperatures relative to their elevation-specific means, with growth limited by high daytime temperatures and promoted by nighttime temperatures. Our results revealed significant interspecific diurnal and seasonal growth variations hindered by both water scarcity and excess in West African rainforests, essential for forecasting and modelling carbon sinks.

非洲热带海拔梯度树木树干径向生长的高度特异性多样性和季节性
了解热带树木生长的驱动机制对于理解碳固存和预测热带森林在快速砍伐中的未来至关重要。我们在喀麦隆山进行了一项自然实验,以确定在海拔 2200 米的梯度上限制主要树种昼夜和季节性生长的气候因素,从低地雨林到干湿季节分明的山地雾林。我们使用高精度自动测径仪记录了2015年至2018年28种热带树种的径向生长率,并将其与不同海拔高度的降雨量(11 100-2500毫米)和温度(23-14°C)相关联。结果表明,在水分供应的两个极端情况下,树木的生长都受到了明显的限制。在潮湿的低海拔地区,树木的生长在旱季和雨季前达到高峰,而在较干燥的高海拔地区,树木的生长则在雨季达到高峰。在海拔较高的地区,生长速度随着土壤湿度的增加而增加,在海拔较低的地区,生长速度在土壤湿度适中时达到顶峰。相对于海拔高度的平均值,树木在温度较低时生长最快,白天的高温限制了树木的生长,而夜间温度则促进了树木的生长。我们的研究结果表明,在西非雨林中,缺水和过量的水都会阻碍树木的生长,因此种间昼夜和季节性生长变化非常明显,这对于预测和模拟碳汇至关重要。
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来源期刊
Plant, Cell & Environment
Plant, Cell & Environment 生物-植物科学
CiteScore
13.30
自引率
4.10%
发文量
253
审稿时长
1.8 months
期刊介绍: Plant, Cell & Environment is a premier plant science journal, offering valuable insights into plant responses to their environment. Committed to publishing high-quality theoretical and experimental research, the journal covers a broad spectrum of factors, spanning from molecular to community levels. Researchers exploring various aspects of plant biology, physiology, and ecology contribute to the journal's comprehensive understanding of plant-environment interactions.
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