Climate drivers of seed rain phenology of subtropical forest communities along an elevational gradient

IF 3 3区 地球科学 Q2 BIOPHYSICS International Journal of Biometeorology Pub Date : 2023-05-31 DOI:10.1007/s00484-023-02481-9
Liu Yang, Zehao Shen, Xuejing Wang, Shaopeng Wang, Yuyang Xie, Markku Larjavaara, Jie Zhang, Guo Li
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Abstract

Seed rain phenology (the start and end date of seed rain) is an essential component of plant phenology, critical for understanding population regeneration and community dynamics. However, intra- and inter-annual changes of seed rain phenology along environmental gradients have rarely been studied and the responses of seed rain phenology to climate variations are unclear. We monitored seed rain phenology of four forest communities in four years at different elevations (900 m, 1450 m, 1650 m, 1900 m a.s.l.) of a subtropical mountain in Central China. We analyzed the spatiotemporal patterns of seed rain phenology of 29 common woody plant species (total observed species in the seed rain), and related the phenological variations to seed number and climatic variables using mixed-effect models with the correlation matrix of phylogeny. We found that changes in the period length were mainly driven by the end rather than the start date. The end date and the period length of seed rain were significantly different between the mast and non-mast seeding years, while no significant elevation-related trend was detected in seed rain phenology variation. Seed number, mean temperature in spring (Tspr), and winter (Twin), summer precipitation (Psum) had significant effects on seed rain phenology. When Tspr increased, the start date of seed rain advanced, while the end date was delayed and the seed rain period length was mainly prolonged by a higher seed number, Twin and Psum. Forest canopy might have a buffering effect on understory climatic conditions, especially in precipitation that lead to difference in seed rain phenology between canopy and shrub species. Our novel evidence of seed rain phenology can improve prediction of community regeneration dynamics in responding to climate changes.

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海拔梯度下亚热带森林群落种子雨物候的气候驱动力
种子雨物候学(种子雨的开始和结束日期)是植物物候学的重要组成部分,对了解种群更新和群落动态至关重要。然而,种子雨物候的年际变化及其对气候变化的响应尚不明确。在海拔900 m、1450 m、1650 m、1900 m的亚热带山地,对4个森林群落的种子雨物候进行了4年的监测。利用系统发育相关矩阵的混合效应模型,分析了29种常见木本植物种子雨物候变化的时空格局,并将物候变化与种子数量和气候变量进行了关联。我们发现,周期长度的变化主要是由结束日期而不是开始日期驱动的。种子雨的结束日期和周期长度在桅杆年和非桅杆年之间存在显著差异,而种子雨物候变化不存在显著的海拔相关趋势。种子数、春季平均温度(Tspr)和冬季、夏季降水(Psum)对种子雨物候有显著影响。随着Tspr的增加,种子雨开始日期提前,结束日期推迟,种子雨周期长度主要因种子数量、Twin和Psum的增加而延长。林冠层可能对林下气候条件具有缓冲作用,特别是在降水方面,导致林冠层和灌木种之间种子雨物候的差异。我们的种子雨物候新证据可以改善对气候变化下群落更新动态的预测。
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来源期刊
CiteScore
6.40
自引率
9.40%
发文量
183
审稿时长
1 months
期刊介绍: The Journal publishes original research papers, review articles and short communications on studies examining the interactions between living organisms and factors of the natural and artificial atmospheric environment. Living organisms extend from single cell organisms, to plants and animals, including humans. The atmospheric environment includes climate and weather, electromagnetic radiation, and chemical and biological pollutants. The journal embraces basic and applied research and practical aspects such as living conditions, agriculture, forestry, and health. The journal is published for the International Society of Biometeorology, and most membership categories include a subscription to the Journal.
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