物候学
花序
生物
气候变化
纬度
植物
生态学
农学
全球变暖
气候变异性
低纬度
植物种类
遗传变异
冷量
园艺
序列(生物学)
营养繁殖
植物繁殖
木本植物
作者
Xingli Xia,Fangxiu Wan,W. Y. Cheng,Liming Yan,Songbo Tang,Huanjiong Wang,Junhu Dai,Jianyang Xia
标识
DOI:10.1111/1365-2745.70210
摘要
Abstract Plants coordinate reproductive and vegetative development through specific flower–leaf sequences, traditionally viewed as fixed species traits. Yet, as climate warming reshapes plant phenology, the variability of flower–leaf sequence and its impact on phenological responses to temperature change requires re‐evaluation. Here, using 40 years of 3090 phenological sequences from 80 woody species across Eastern China, we found that 70 species have both flower‐first and leaf‐first records. The proportion of flower‐first records increased with latitude and over time. Reproductive phenology in flower‐first plants was considerably more temperature sensitive than in leaf‐first plants. For example, flower budburst advanced by 2.38 days/°C in flower‐first plants compared to 1.86 days/°C in leaf‐first plants, with similar trends observed for inflorescence emergence, flowering and fruit development. In contrast, vegetative events showed convergent responses between the two sequences. Synthesis. Our results reveal an unexpectedly high degree of variability in the flower–leaf sequence. This variability is crucial in shaping plant responses to warming, particularly in reproductive phenology. Therefore, to accurately evaluate temperature responses of reproductive phenology, it is essential to analyse flower‐first and leaf‐first plants separately, even within the same species.
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