Biological outliers: essential elements to understand the causes and consequences of reductions in maximum photochemical efficiency of PSII in plants.

IF 3.6 3区 生物学 Q1 PLANT SCIENCES
Planta Pub Date : 2024-06-19 DOI:10.1007/s00425-024-04466-3
Clara Julián, Sabina Villadangos, Laia Jené, Ot Pasques, Marta Pintó-Marijuan, Sergi Munné-Bosch
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Abstract

Main conclusion: By studying Cistus albidus shrubs in their natural habitat, we show that biological outliers can help us to understand the causes and consequences of maximum photochemical efficiency decreases in plants, thus reinforcing the importance of integrating these often-neglected data into scientific practice. Outliers are individuals with exceptional traits that are often excluded of data analysis. However, this may result in very important mistakes not accurately capturing the true trajectory of the population, thereby limiting our understanding of a given biological process. Here, we studied the role of biological outliers in understanding the causes and consequences of maximum photochemical efficiency decreases in plants, using the semi-deciduous shrub C. albidus growing in a Mediterranean-type ecosystem. We assessed interindividual variability in winter, spring and summer maximum PSII photochemical efficiency in a population of C. albidus growing under Mediterranean conditions. A strong correlation was observed between maximum PSII photochemical efficiency (Fv/Fm ratio) and leaf water desiccation. While decreases in maximum PSII photochemical efficiency did not result in any damage at the organ level during winter, reductions in the Fv/Fm ratio were associated to leaf mortality during summer. However, all plants could recover after rainfalls, thus maximum PSII photochemical efficiency decreases did not result in an increased mortality at the organism level, despite extreme water deficit and temperatures exceeding 40ºC during the summer. We conclude that, once methodological outliers are excluded, not only biological outliers must not be excluded from data analysis, but focusing on them is crucial to understand the causes and consequences of maximum PSII photochemical efficiency decreases in plants.

Abstract Image

生物异常值:了解植物 PSII 最大光化学效率降低的原因和后果的基本要素。
主要结论通过研究自然栖息地中的白花肉苁蓉灌木,我们发现生物异常值可以帮助我们了解植物最大光化学效率下降的原因和后果,从而加强了将这些经常被忽视的数据纳入科学实践的重要性。异常值是指具有特殊特征的个体,通常被排除在数据分析之外。然而,这可能会导致非常重要的错误,无法准确捕捉种群的真实轨迹,从而限制我们对特定生物过程的理解。在这里,我们以生长在地中海型生态系统中的半落叶灌木白花蛇舌草(C. albidus)为例,研究了生物异常值在理解植物最大光化学效率下降的原因和后果方面的作用。我们评估了在地中海条件下生长的白花蛇舌草群体中冬季、春季和夏季最大 PSII 光化学效率的个体间变异性。在最大 PSII 光化学效率(Fv/Fm 比值)与叶片水分干燥之间发现了很强的相关性。虽然冬季 PSII 最大光化学效率的降低不会导致器官层面的任何损害,但夏季 Fv/Fm 比率的降低与叶片死亡有关。然而,所有植物在降雨后都能恢复,因此,尽管夏季极度缺水,气温超过 40ºC ,PSII 最大光化学效率的降低并没有导致器官水平的死亡率增加。我们的结论是,一旦排除了方法学上的异常值,数据分析不仅不能排除生物学上的异常值,而且关注这些异常值对于了解植物 PSII 最大光化学效率下降的原因和后果至关重要。
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来源期刊
Planta
Planta 生物-植物科学
CiteScore
7.20
自引率
2.30%
发文量
217
审稿时长
2.3 months
期刊介绍: Planta publishes timely and substantial articles on all aspects of plant biology. We welcome original research papers on any plant species. Areas of interest include biochemistry, bioenergy, biotechnology, cell biology, development, ecological and environmental physiology, growth, metabolism, morphogenesis, molecular biology, new methods, physiology, plant-microbe interactions, structural biology, and systems biology.
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