夜间不同环境稳定性条件下杨树水分生理过程的生物物理控制  

作　　者：王一君 陈立欣[1,3] 陈左司南 张志强 许行[1] 姚飞 陈胜楠 Wang Yijun;Chen Lixin;Chen Zuosinan;Zhang Zhiqiang;Xu Hang;Yao Fei;Chen Shengnan(College of Soil and Water Conservation,Beijing Forestry University,Beijing 100083;School of Ecology and Nature Conservation,Beijimg Forestry University,Beijing 100083;Shanxi Jixian National Forest Ecosystem Observation and Research Station,Linfen 042299;Key Laboratory of Soil and Water Conservation and Desertification Combating,National Forestry and Grassland Administration,Beijing 100083;Gongqing Forest Farm,Beijing 101300)

机构地区：[1]北京林业大学水土保持学院,北京100083 [2]北京林业大学生态与自然保护学院,北京100083 [3]山西吉县森林生态系统国家野外科学观测研究站,临汾042299 [4]国家林业和草原局水土保持与荒漠化防治重点实验室,北京100083 [5]北京市共青林场,北京101300

出　　处：《林业科学》2024年第8期95-108,共14页Scientia Silvae Sinicae

基　　金：中国博士后科学基金项目(2021M700449)。

摘　　要：【目的】以杨树人工林生态系统为研究对象,研究环境因子与内源性昼夜节律对树木叶片水分生理和树干液流的生物物理调控机制,旨在揭示树木水分生理过程(叶片气孔导度、叶片蒸腾、叶片水势和树干液流)在夜间对不同环境稳定性条件的响应模式和影响因素。【方法】对位于北京市顺义区潮白河沿岸的欧美杨人工林,在生长季期间选定7个晴朗的昼夜,连续监测3棵样树的叶片气体交换和叶片水势。同时,使用热扩散探针技术监测样树的树干液流密度变化,同步记录环境因子变化,并使用日落后历时量化昼夜节律的影响。【结果】1)夜间出现树木气孔开放的现象,叶片蒸腾和液流同步发生。夜间环境稳定(v=0且ΔVPD≤0.1 kPa)条件下,树木水分生理指标主要受大气和土壤温度影响(P<0.05),且较弱。夜间液流与叶片气孔导度显著负相关(P<0.01),表明液流主要用于茎干补水。2)夜间环境波动(v>0或ΔVPD≥0.1 kPa)条件下,叶片气孔导度和树干液流密度受大气温度(T_(a))和VPD的正向调控,与空气湿度(RH)显著负相关(P<0.05),且T_(a)为主导影响因素。叶水势主要受T_(a)、土壤含水量(SWC)和温度(ST)的共同影响。夜间液流与叶片气孔导度、蒸腾速率和水势显著正相关(R^(2)=0.67)。3)日间环境波动较强,叶片水分生理指标与树干液流密度的相关性显著高于夜间,但叶片气孔导度与VPD呈负相关,且气孔导度与液流密度之间表现出解耦现象(P=0.078)。4)以日落后历时为表征的昼夜节律对树木水分生理指标的作用方式随夜间环境稳定性变化而不同。在夜间环境稳定条件下,日落后历时显著影响叶片气孔导度、叶片水势和叶片蒸腾(P<0.01);而在夜间环境波动条件下,该因子对叶片水分生理指标的影响程度均有所降低且对气孔导度和叶片水势的影响不显著(P_(1)=0.066,P_(2)=0.08),说明夜间环境波动影响了昼夜�【Objective】In the context to the global trend of decreasing surface wind speeds,known as"atmospheric stilling",differences in diurnal environmental stability primarily driven by vapor pressure deficit(VPD)and wind speed(v)are becoming increasingly pronounced.However,the biophysical control mechanisms of tree water physiological processes under different environmental stability conditions remain unclear.In this study,an ecological system of poplar plantations was targeted and the biophysical regulation mechanisms of environmental factors and endogenous circadian rhythms on leaf water physiology and trunk sap flow in trees were investigated.This study aims to explore the response patterns and influencing factors of tree water-related physiological processes,such as leaf stomatal conductance,leaf-level transpiration rate,leaf water potential,and trunk sap flow,under different nighttime environmental conditions.【Method】The research was conducted in a Populus×euramericana plantation along the Chaobai River in Shunyi District,Beijing.During the growing season,gas exchange at the leaf-level and leaf water potential were measured continuously over seven clear day-night cycles on three sample trees.Simultaneously,sap flux density in the sample trees was monitored using heat diffusion probe technology,with concurrent recording changes in environmental factor,and the impact of diurnal rhythms was quantified using hours after dusk.【Result】1)Nighttime stomatal opening was observed,with synchronized occurrences of leaf transpiration and sap flux.Under stable nocturnal conditions(v=0 andΔVPD≤0.1 kPa),tree water physiological indicators were primarily influenced by air and soil temperatures(P<0.05),albeit relatively weak.There was a significant negative correlation between nocturnal sap flux and leaf stomatal conductance(P<0.01),indicating that sap flux was mainly used for stem water replenishment.2)Under fluctuating nighttime environmental conditions(v>0 orΔVPD≥0.1 kPa),leaf stomatal conductance and sap flux

关 键 词：环境稳定性 昼夜差异 树干液流 叶片水分生理 昼夜节律 

分 类 号：S718.43[农业科学—林学]