Flowering responses of the woodland strawberry to local climate and reduced precipitation along a European latitudinal gradient

doi:10.1093/jpe/rtaf105

J Plant Ecol ›› 2025, Vol. 18 ›› Issue (5): rtaf105.DOI: 10.1093/jpe/rtaf105

Flowering responses of the woodland strawberry to local climate and reduced precipitation along a European latitudinal gradient

Ivan M. De-la-Cruz^1,9,*, Femke Batsleer², Dries Bonte², Carolina Diller¹, José Luis Izquierdo³, Sonja Still⁴, Sonia Osorio⁵, David Posé⁵, Aurora de la Rosa³, Martijn L. Vandegehuchte^6,†, Anne Muola^7,8,†, Timo Hytönen^4,† and Johan A. Stenberg^1,†,*

¹Department of Plant Protection Biology, Swedish University of Agricultural Sciences, Lomma SE-750 07, Sweden,
²Department of Biology, Terrestrial Ecology Unit, Ghent University, Ghent 9000, Belgium
³Centro de Investigación, Seguimiento y Evaluación, Parque Nacional Sierra de Guadarrama, Madrid 28740, Spain
⁴Department of Agricultural Sciences, Viikki Plant Science Centre, University of Helsinki, Helsinki 00014, Finland
⁵Departamento de Biología Molecular y Bioquímica, Instituto de Hortofruticultura Subtropical y Mediterránea “La Mayora”, Universidad de Málaga-Consejo Superior de Investigaciones Científicas, Campus de Teatinos, Malaga 29010, Spain
⁶Department of Biology, Norwegian University of Science and Technology, Trondheim NO-7491, Norway
⁷Division of Biotechnology and Plant Health, Invertebrate Pests and Weeds in Forestry, Agriculture and Horticulture, Norwegian Institute of Bioeconomy Research, Tromsø 9016, Norway
⁸Biodiversity Unit, University of Turku, Turku FI-20014, Finland
⁹Present address: Plant Ecology and Evolution Program, Department of Ecology and Genetics, Uppsala University, Uppsala SE-750 07, Sweden

*Corresponding authors. E-mail: ivan.de.la.cruz.arguello@slu.se (I.M.D.C.); johan.stenberg@slu.se (J.A.S.)
^†Shared senior authorship.

Received:2024-11-14 Accepted:2025-06-09 Online:2025-07-19 Published:2025-10-01
Supported by:
This project was funded by the European Commission (BiodivERsA project PlantCline: Adapting plant genetic diversity to climate change along a continental latitudinal gradient, project ID BiodivClim-177), Formas (the Swedish Research Council for Sustainable Development, grant no. 2020–02376), the Academy of Finland (grant no. 344726), the Research Foundation-Flanders (grant no. FWO ERANET G0H6520N and FWO KAN 1506619N), Ministerio de Ciencia, Inovación y Universidades (grant no. PCI2020-120719-2).

欧洲林地草莓开花物候沿纬度梯度的变化以及对降水减少的响应

Abstract

Abstract: Climate change creates novel environmental conditions that plant species must adapt to. Since plants are finely tuned to the seasonality of their environments, shifts in their phenology serve as some of the most compelling evidence of climate change’s impact. Understanding how key fitness-related phenological traits, such as flowering onset, respond to novel environments is crucial for assessing species’ plasticity and/or adaptive potential under climate change. Here, we investigated the onset of flowering in Fragaria vesca (woodland strawberry; Rosaceae) by translocating genotypes between four sites along a south–north gradient in Europe, encompassing its entire latitudinal distribution range with varying temperatures, precipitation patterns, and photoperiods. At each site, we included a reduced precipitation treatment using rainout shelters to simulate drought conditions and assess their impact on flowering onset. Our findings revealed that southern and central European genotypes exhibited a delayed onset of flowering when translocated to the northernmost site. In contrast, no difference among genotypes was found in the onset of flowering when grown in more southerly sites. Reduced precipitation accelerated flowering across several sites and all genotypes, irrespective of their latitudinal origin. Overall, northern European genotypes showed a greater capacity to adjust their onset of flowering in response to the different photoperiods and temperatures across the latitudinal gradient compared to southern European genotypes, suggesting that they may be more resilient to shifting environmental conditions. Differences in phenotypic plasticity among genotypes translocated to higher versus lower latitudes highlight the role of photoperiod in evaluating a species’ capacity to cope with climate change.

Key words: drought, Fragaria vesca, growing degree days, onset of flowering, photoperiod, plant phenology

摘要：
气候变化背景下，植物需适应新的环境条件。由于植物对其生长环境的季节性变化高度敏感，物候期变化成为反映气候变化影响的最有力证据之一。研究关键适应性物候性状(如开花起始时间)如何响应新环境，对评估物种在气候变化下的表型可塑性和/或适应潜力至关重要。本研究通过不同基因型林地野草莓(Fragaria vesca, 蔷薇科)沿欧洲南北梯度的4个样点移植实验，探究其开花起始时间的变化。这些样点覆盖了其全纬度分布范围，包含不同气温和降雨格局及光周期。此外，各样点设置了减雨处理(利用遮雨棚模拟干旱条件)以评估干旱对开花起始时间的影响。结果表明，当南欧和中欧基因型被移植至最北端时，开花起始时间显著延迟；而在南部样点栽培时，不同基因型的开花起始时间无显著差异。在一些样点，减雨处理加速了所有基因型(无论其纬度来源)的开花进程。总体而言，在应对不同纬度的光周期和温度变化时，北欧基因型比南欧基因型表现出更强的开花起始时间调节能力，表明其对环境变化的适应韧性更强。基因型向高/低纬度移植时表现出的表型可塑性差异，突显了光周期在评估物种应对气候变化能力中的关键作用。

关键词: 干旱, 野草莓(Fragaria vesca), 生长积温, 开花起始时间, 光周期, 植物物候

Ivan M. De-la-Cruz, Femke Batsleer, Dries Bonte, Carolina Diller, José Luis Izquierdo, Sonja Still, Sonia Osorio, David Posé, Aurora de la Rosa, Martijn L. Vandegehuchte, Anne Muola, Timo Hytönen, Johan A. Stenberg. Flowering responses of the woodland strawberry to local climate and reduced precipitation along a European latitudinal gradient[J]. J Plant Ecol, 2025, 18(5): 1-14.

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Flowering responses of the woodland strawberry to local climate and reduced precipitation along a European latitudinal gradient

欧洲林地草莓开花物候沿纬度梯度的变化以及对降水减少的响应

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