Leaf functional traits and ecological niche of Fagus grandifolia and Oreomunnea mexicana in natural forests and plantings as a proxy of climate change

IF 2.4 2区 生物学 Q2 PLANT SCIENCES American Journal of Botany Pub Date : 2024-04-19 DOI:10.1002/ajb2.16322
Miriam Reyes-Ortiz, Andrés Lira-Noriega, Luis Osorio-Olvera, Isolda Luna-Vega, Guadalupe Williams-Linera
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Abstract

Premise

Functional traits reflect species’ responses to environmental variation and the breadth of their ecological niches. Fagus grandifolia and Oreomunnea mexicana have restricted distribution in upper montane cloud forests (1700–2000 m a.s.l.) in Mexico. These species were introduced into plantings at lower elevations (1200–1600 m a.s.l.) that have climates predicted for montane forests in 2050 and 2070. The aim was to relate morphological leaf traits to the ecological niche structure of each species.

Methods

Leaf functional traits (leaf area, specific leaf area [SLA], thickness, and toughness) were analyzed in forests and plantings. Atmospheric circulation models and representative concentration pathways (RCPs: 2.6, 4.5, 8.5) were used to assess future climate conditions. Trait–niche relationships were analyzed by measuring the Mahalanobis distance (MD) from the forests and the plantings to the ecological niche centroid (ENC).

Results

For both species, leaf area and SLA were higher and toughness lower in plantings at lower elevation relative to those in higher-elevation forests, and thickness was similar. Leaf traits varied with distance from sites to the ENC. Forests and plantings have different environmental locations regarding the ENC, but forests are closer (MD 0.34–0.58) than plantings (MD 0.50–0.70) for both species.

Conclusions

Elevation as a proxy for expected future climate conditions influenced the functional traits of both species, and trait patterns related to the structure of their ecological niches were consistent. The use of distances to the ENC is a promising approach to explore variability in species’ functional traits and phenotypic responses in optimal versus marginal environmental conditions.

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以天然林和人工林中 Fagus grandifolia 和 Oreomunnea mexicana 的叶片功能特征和生态位作为气候变化的代用指标
前提功能特征反映了物种对环境变化的反应及其生态位的广度。Fagus grandifolia和Oreomunnea mexicana在墨西哥的高山云雾林(海拔1700-2000米)中分布有限。这些树种被引入海拔较低(1200-1600 米)的种植区,这些种植区的气候预测为 2050 年和 2070 年的山地森林气候。方法分析了森林和人工林中的叶片功能特征(叶面积、比叶面积 [SLA]、厚度和韧性)。使用大气环流模型和代表性浓度路径(RCPs:2.6、4.5、8.5)来评估未来的气候条件。通过测量从森林和人工林到生态位中心点(ENC)的马哈拉诺比斯距离(MD),分析了性状与生态位之间的关系。结果对于这两个物种,与海拔较高的森林相比,海拔较低的人工林的叶面积和SLA较高,韧性较低,厚度相似。叶片性状随地点到 ENC 的距离而变化。森林和人工林与 ENC 的环境位置不同,但森林(MD 0.34-0.58)比人工林(MD 0.50-0.70)更接近这两个物种。利用与 ENC 的距离是探索物种在最佳与边缘环境条件下功能特征和表型反应变异性的一种很有前景的方法。
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来源期刊
American Journal of Botany
American Journal of Botany 生物-植物科学
CiteScore
4.90
自引率
6.70%
发文量
171
审稿时长
3 months
期刊介绍: The American Journal of Botany (AJB), the flagship journal of the Botanical Society of America (BSA), publishes peer-reviewed, innovative, significant research of interest to a wide audience of plant scientists in all areas of plant biology (structure, function, development, diversity, genetics, evolution, systematics), all levels of organization (molecular to ecosystem), and all plant groups and allied organisms (cyanobacteria, algae, fungi, and lichens). AJB requires authors to frame their research questions and discuss their results in terms of major questions of plant biology. In general, papers that are too narrowly focused, purely descriptive, natural history, broad surveys, or that contain only preliminary data will not be considered.
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