Litterfall seasonality and adaptive strategies of tropical and subtropical evergreen forests in China

doi:10.1093/jpe/rtab102

J Plant Ecol ›› 2022, Vol. 15 ›› Issue (2): 320-334 .DOI: 10.1093/jpe/rtab102

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Litterfall seasonality and adaptive strategies of tropical and subtropical evergreen forests in China

Yuhang Dai^1,2, Fanxi Gong^2,3,4, Xueqin Yang^2,4, Xiuzhi Chen^2,*, Yongxian Su⁴, Liyang Liu⁴, Jianping Wu⁴, Xiaodong Liu^1,*and Qingling Sun^2,4

¹ College of Forestry and Landscape Architecture, South China Agricultural University, Guangzhou 510630, China, ² Guangdong Province Key Laboratory for Climate Change and Natural Disaster Studies, School of Atmospheric Sciences, Sun Yat-sen University & Southern Marine Science and Engineering Guangdong Laboratory, Zhuhai 519082, China, ³ College of Earth Sciences, Chengdu University of Technology, Chengdu 610000, China, ⁴ Key Lab of Guangdong for Utilization of Remote Sensing and Geographical Information System, Guangdong Open Laboratory of Geospatial Information Technology and Application, Guangzhou Institute of Geography, Guangdong Academy of Sciences, Guangzhou 510070, China

^*Corresponding author. E-mail: chenxzh73@mail.sysu.edu.cn (X.C.); liuxd@scau.edu.cn (X.L.)

Received:2021-04-07 Revised:2021-05-22 Accepted:2021-08-07 Online:2021-08-27 Published:2022-04-01

Abstract

Abstract:

Tropical and subtropical evergreen broad-leaved forests (EBFs) and needle-leaved forests (ENFs) in China exhibit complex leaf shedding strategies in responses to soil water availability, vapor pressure deficits (VPDs) and sunlight availability. However, the seasonal variations and triggers of litterfall differ significantly in tropical/subtropical forests, and there are still many uncertainties. Herein, we aim to explore the distinct climatic factors of seasonal litterfall in a climate–phenology correlation framework. We collected seasonal litterfall data from 85 sites across tropical/subtropical China and used linear correlation coefficients between sunlight and rainfall to partition synchronous/asynchronous climates. Additional phase analysis and structural equation model analysis were conducted to model the climatic triggers of tropical phenology. Results indicated two types of tropical litterfall phenology under two types of climates. In synchronous climates, where seasonal sunlight and rainfall are positively correlated, the litterfall peak of the unimodal phenology and the first litterfall peak of the bimodal phenology both happen at the end of dry season. The second litterfall peak of the bimodal phenology occurs at the end of rainy season due to water stress. In asynchronous climates, where seasonal sunlight and rainfall are negatively correlated, VPD shows consistent seasonal variations with incoming sunlight. The leaf senescence is accelerated at the end of dry season by higher VPD; while soil water deficit is in anti-phase with sunlight and mainly controls the second litterfall peak of the bimodal phenology in EBF. Our findings provide an important reference for modeling tropical phenology in Earth system models.

Key words: tropical/subtropical forests, phenology, leaf shedding strategy, litterfall, water stress, rejuvenation

摘要：
中国热带和亚热带常绿林凋落物季节特征及适应策略

本研究收集了来自中国热带/亚热带常绿林共85个站点的凋落物量季节性变化数据，并采用线性回归、结构方程模型构建以及相位差分析等方法，综合探究中国热带/亚热带地区常绿阔叶林和针叶林叶片脱落对土壤水分、饱和水气压差和辐射强度等气候因子的响应机制。研究结果显示，在雨热同期和雨热异期两种热带/亚热带气候类型中，呈现出两种典型凋落物的物候类型(单峰季节型/双峰季节型)。在雨热同期气候条件下，光照强度和降水呈现季节性正相关，单峰的凋落物峰值和双峰的第一个峰值约出现在3–4月，不断增加的光照能促进新叶的萌发，老叶被代谢更强的新叶所替代，该类型属于一种最大程度利用光照来实现树木生长的自适应策略。双峰的第二个峰值出现在雨季末期，约在8–10月，是由不断增强的水分亏缺所导致的(常绿阔叶林：大气水分亏缺；常绿针叶林：土壤水分亏缺)，这种类型是一种凋落老叶减少水分丢失来应对水分胁迫的自适应策略。在雨热异期气候条件下，光照强度和降水呈现季节性负相关，饱和水气压差与光照强度表现出一致的季节性动态变化，诱导了常绿阔叶林单峰和双峰物候的第一个凋落峰(约在3–4月)，是一种权衡大气干旱胁迫和最大程度利用光照进行生长的综合自适应策略。在雨季初期，显著的土壤水分亏缺加速叶片凋落，诱导了常绿阔叶林双峰物候的第二个凋落峰(约在11月)，属于凋落老叶应对土壤水分胁迫的自适应策略。这些研究结果可以为地球系统模式中热带物候的精确模拟提供重要参考。

关键词: 热带/亚热带森林, 物候学, 叶片凋落策略, 凋落物, 水分胁迫, 叶片更替

Yuhang Dai, Fanxi Gong, Xueqin Yang, Xiuzhi Chen, Yongxian Su, Liyang Liu, Jianping Wu, Xiaodong Liu and Qingling Sun. Litterfall seasonality and adaptive strategies of tropical and subtropical evergreen forests in China[J]. J Plant Ecol, 2022, 15(2): 320-334.

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Litterfall seasonality and adaptive strategies of tropical and subtropical evergreen forests in China

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