Litcius/Paper detail

Drought shortens subtropical understory growing season by advancing leaf senescence

Huanfa Sun, Liming Yan, Zhao Li, W. Y. Cheng, Ruiling Lu, Xingli Xia, Jiaye Ping, Chenyu Bian, Ning Wei, Cuihai You, Songbo Tang, Ying Du, Jing Wang, Yang Qiao, Erqian Cui, Xuhui Zhou, Jianyang Xia

2024Global Change Biology13 citationsDOI

Abstract

Abstract Subtropical forests, recognized for their intricate vertical canopy stratification, exhibit high resistance to extreme drought. However, the response of leaf phenology to drought in the species‐rich understory remains poorly understood. In this study, we constructed a digital camera system, amassing over 360,000 images through a 70% throughfall exclusion experiment, to explore the drought response of understory leaf phenology. The results revealed a significant advancement in understory leaf senescence phenology under drought, with 11.75 and 15.76 days for the start and end of the leaf‐falling event, respectively. Pre‐season temperature primarily regulated leaf development phenology, whereas soil water dominated the variability in leaf senescence phenology. Under drought conditions, temperature sensitivities for the end of leaf emergence decreased from −13.72 to −11.06 days °C −1 , with insignificance observed for the start of leaf emergence. Consequently, drought treatment shortened both the length of the growing season (15.69 days) and the peak growth season (9.80 days) for understory plants. Moreover, this study identified diverse responses among intraspecies and interspecies to drought, particularly during the leaf development phase. These findings underscore the pivotal role of water availability in shaping understory phenology patterns, especially in subtropical forests.

Topics & Concepts

UnderstorySubtropicsGrowing seasonSenescenceTropical and subtropical moist broadleaf forestsEnvironmental scienceBiologyAgronomyGeographyAgroforestryEcologyCanopyCell biologyLeaf Properties and Growth MeasurementRemote Sensing in AgriculturePlant Water Relations and Carbon Dynamics