多年干旱增强了树木生长响应的正、负功能多样性效应

IF 12 1区 环境科学与生态学 Q1 BIODIVERSITY CONSERVATION
Hernán Serrano-León, Haben Blondeel, Paula Glenz, Johannes Steurer, Florian Schnabel, Lander Baeten, Joannès Guillemot, Nicolas Martin-StPaul, Georgios Skiadaresis, Michael Scherer-Lorenzen, Damien Bonal, Matthieu Boone, Renaud Decarsin, Arsène Druel, Douglas L. Godbold, Jialiang Gong, 佳亮 龚, Peter Hajek, Hervé Jactel, Julia Koricheva, Simone Mereu, Quentin Ponette, Boris Rewald, Hans Sandén, Jan Van den Bulcke, Kris Verheyen, Ramona Werner, Jürgen Bauhus
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引用次数: 0

摘要

混交林可以提高树木的抗旱性和抗旱性。然而,越来越多的证据表明,树种丰富度并不能持续改善树木对干旱的生长反应。潜在的机制仍然不确定,特别是在前所未有的多年干旱的情况下。我们利用人工种植树木多样性实验网络来研究邻近树木多样性和物种功能性状如何影响个体树木对干旱的响应。我们分析了来自欧洲9个年轻实验的树核(16种948棵树),这些实验具有树种丰富度梯度(1-6种),这些实验经历了最近的严重干旱。利用x射线计算机断层成像技术将干旱对树木径向生长的响应量化为树木年轮生物量的增加。我们应用基于水力特征的增长模型来分析所有站点的单年干旱响应以及连续干旱年的站点特定响应。焦点物种的水力安全裕度(代表物种的耐旱性)和干旱强度可以部分解释其对单年干旱的生长响应,但与邻域物种丰富度无关。随着干旱持续时间的增加,邻域功能多样性对植物生长响应的影响由正向负转变。树木多样性对生长响应的影响在连续干旱年份中增强,并且具有不同的立地特异性(正向和负向)。这表明,在连续干旱事件下,多样性效应途径是相反的,可能是由于不同混合物的竞争性释放或更大的水消耗造成的。我们得出结论,树木多样性对单年干旱下生长的影响可能与对连续干旱年的响应有很大不同。我们的研究强调需要考虑基于性状的方法(特别是水力性状)和邻域尺度过程,以了解树木混合物在长期干旱胁迫下的多方面响应。这种实验方法提供了一个强有力的框架来测试与干旱胁迫加剧下的年轻人工林相关的生物多样性-生态系统功能(BEF)关系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Multiyear Drought Strengthens Positive and Negative Functional Diversity Effects on Tree Growth Response

Multiyear Drought Strengthens Positive and Negative Functional Diversity Effects on Tree Growth Response

Mixed-species forests are proposed to enhance tree resistance and resilience to drought. However, growing evidence shows that tree species richness does not consistently improve tree growth responses to drought. The underlying mechanisms remain uncertain, especially under unprecedented multiyear droughts. We used a network of planted tree diversity experiments to investigate how neighborhood tree diversity and species' functional traits influence individual tree responses to drought. We analyzed tree cores (948 trees across 16 species) from nine young experiments across Europe featuring tree species richness gradients (1–6 species), which experienced recent severe droughts. Radial growth response to drought was quantified as tree-ring biomass increment using X-ray computed tomography. We applied hydraulic trait-based growth models to analyze single-year drought responses across all sites and site-specific responses during consecutive drought years. Growth responses to a single-year drought were partially explained by the focal species' hydraulic safety margin (representing species' drought tolerance) and drought intensity, but were independent of neighborhood species richness. The effects of neighborhood functional diversity on growth responses shifted from positive to negative with increasing drought duration during a single growing season. Tree diversity effects on growth responses strengthened during consecutive drought years and were site-specific with contrasting directions (both positive and negative). This indicates opposing diversity effects pathways under consecutive drought events, possibly resulting from competitive release or greater water consumption in diverse mixtures. We conclude that tree diversity effects on growth under single-year droughts may differ considerably from responses to consecutive drought years. Our study highlights the need to consider trait-based approaches (specifically, hydraulic traits) and neighborhood scale processes to understand the multifaceted responses of tree mixtures under prolonged drought stress. This experimental approach provides a robust framework to test biodiversity-ecosystem functioning (BEF) relationships relevant for young, planted forests under increased drought stress.

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来源期刊
Global Change Biology
Global Change Biology 环境科学-环境科学
CiteScore
21.50
自引率
5.20%
发文量
497
审稿时长
3.3 months
期刊介绍: Global Change Biology is an environmental change journal committed to shaping the future and addressing the world's most pressing challenges, including sustainability, climate change, environmental protection, food and water safety, and global health. Dedicated to fostering a profound understanding of the impacts of global change on biological systems and offering innovative solutions, the journal publishes a diverse range of content, including primary research articles, technical advances, research reviews, reports, opinions, perspectives, commentaries, and letters. Starting with the 2024 volume, Global Change Biology will transition to an online-only format, enhancing accessibility and contributing to the evolution of scholarly communication.
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