夏至调节着大陆尺度上的大规模结实同步。

Summer solstice orchestrates the subcontinental-scale synchrony of mast seeding.

机构信息

Forest Biology Center, Institute of Environmental Biology, Faculty of Biology, Adam Mickiewicz University, Poznan, Poland.

Population Ecology Research Unit, Institute of Environmental Biology, Faculty of Biology, Adam Mickiewicz University, Poznan, Poland.

出版信息

Nat Plants. 2024 Mar;10(3):367-373. doi: 10.1038/s41477-024-01651-w. Epub 2024 Mar 8.

DOI:10.1038/s41477-024-01651-w

PMID:38459130

Abstract

High interannual variation in seed production in perennial plants can be synchronized at subcontinental scales with wide consequences for ecosystem functioning, but how such synchrony is generated is unclear. We investigated the factors contributing to masting synchrony in European beech (Fagus sylvatica), which extends to a geographic range of 2,000 km. Maximizing masting synchrony via spatial weather coordination, known as the Moran effect, requires a simultaneous response to weather conditions across distant populations. A celestial cue that occurs simultaneously across the entire hemisphere is the longest day (the summer solstice). We show that European beech abruptly opens its temperature-sensing window on the solstice, and hence widely separated populations all start responding to weather signals in the same week. This celestial 'starting gun' generates ecological events with high spatial synchrony across the continent.

摘要

多年生植物的种子产量具有高度的年际变化，这种变化可以在次大陆范围内实现同步，对生态系统功能产生广泛影响，但这种同步是如何产生的尚不清楚。我们研究了导致欧洲山毛榉（Fagus sylvatica）同步结实的因素，其分布范围延伸到 2000 公里的地理范围。通过被称为莫兰效应的空间天气协调来最大限度地提高结实同步性，需要对遥远种群的天气条件做出同步响应。一个在整个半球同时发生的天体线索是最长的一天（夏至）。我们表明，欧洲山毛榉在夏至时突然打开其温度感应窗口，因此，相距甚远的种群都在同一周开始对天气信号做出反应。这个天体“发令枪”在整个大陆范围内产生具有高度空间同步性的生态事件。

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夏至调节着大陆尺度上的大规模结实同步。

Summer solstice orchestrates the subcontinental-scale synchrony of mast seeding.

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