Flowering patterns change along elevational gradients and relate to life-history strategies in 29 herbaceous species

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Solveig Franziska Bucher, Christine Römermann
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引用次数: 20

Abstract

Patterns of flowering phenology, i.e. first and last flowering day (FFD and LFD) and flowering duration (FD) govern plant pollination and reproduction. Most research has focused on FFD whereas LFD, FD and second flowering events were neglected although they are crucial events. To assess whether flowering patterns change species-specifically with changing abiotic conditions and whether these are related to leaf persistence, reproduction and pollination syndrome, we monitored flowering phenology (including also second flowering events) of 29 herbaceous species along two elevational gradients ranging from 700 to 1800 m a.s.l. in two consecutive years. FFD was delayed with increasing elevation. LFD followed two alternative strategies: species which ceased flowering early in the season delayed LFD with increasing elevation, species which ceased flowering late did not change LFD. FD decreased with increasing elevation in most species. The timing of flowering phenology had strong influences on the intensity of change along the elevational gradient and other stages of flowering phenology. Many species showed a second flowering event which occurred irrespective of elevation, suggesting a link to unsuccessful pollination rather than temperature. Life history strategies helped explain patterns of flowering phenology and a species’ ability to track changes in abiotic conditions, e.g. evergreen species started to flower earlier than summer green species and insect-pollinated species were able to expand FD most. These findings give insight into species-specific changes in phenological patterns and thus plant performance with changing environment. They should be considered when assessing the consequences of environmental change at both the community and ecosystem level.

29种草本植物的开花模式沿海拔梯度变化并与生活史策略有关
植物授粉和繁殖主要取决于开花的表型,即第一个和最后一个开花日(FFD和LFD)以及开花持续时间(FD)。大多数研究都集中在FFD上,而LFD、FD和二次开花事件虽然是关键事件,但却被忽视了。为了评估开花模式是否会随着非生物条件的变化而改变物种,以及这些是否与叶片持久性、繁殖和授粉综合征有关,我们连续两年监测了29个草本物种在海拔700至1800米的两个海拔梯度上的开花酚学(也包括第二次开花事件)。FFD随海拔升高而延迟。LFD遵循两种替代策略:在季节早期停止开花的物种随着海拔的升高而延迟LFD,而在晚开花的物种不改变LFD。FD在大多数物种中随着海拔的升高而降低。花期的时间安排对沿海拔梯度和花期其他阶段的变化强度有很大影响。许多物种表现出第二次开花事件,无论海拔高度如何,这表明与授粉失败有关,而不是与温度有关。生命史策略有助于解释开花表型和物种跟踪非生物条件变化的能力,例如,常绿物种比夏季绿色物种更早开始开花,昆虫授粉物种最能扩展FD。这些发现深入了解了物种特有的酚类模式变化,从而了解了植物在环境变化中的表现。在社区和生态系统层面评估环境变化的后果时,应考虑这些因素。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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