Spatiotemporal variations in sap flow in a larch plantation:sampling size for stand scale estimates  

作　　者：Zebin Liu Songping Yu Lihong Xu Yanhui Wang Mengfei Wang Pengtao Yu 

机构地区：[1]Key Laboratory of Forest Ecology and Environment of National Forestry and Grassland Administration/Ecology and Nature Conservation Institute,Chinese Academy of Forestry,Beijing,100091,People’s Republic of China [2]School of Soil and Water Conservation,Beijing Forestry University,Beijing,100083,People’s Republic of China

出　　处：《Journal of Forestry Research》2025年第1期321-331,共11页林业研究(英文版)

基　　金：supported by the Fundamental Research Funds of the Chinese Academy of Forestry(CAFYBB2020QB004);the National Natural Science Foundation of China(41971038,32171559,U20A2085,and U21A2005).

摘　　要：The sap flow method is widely used to estimate forest transpiration.However,at the individual tree level it has spatiotemporal variations due to the impacts of environmental conditions and spatial relationships among trees.Therefore,an in-depth understanding of the coupling effects of these factors is important for designing sap flow measurement methods and performing accurate assessments of stand scale transpiration.This study is based on observations of sap flux density(SF_(d))of nine sample trees with different Hegyi’s competition indices(HCIs),soil moisture,and meteorological conditions in a pure plantation of Larix gmelinii var.principis-rupprechtii during the 2021 growing season(May to September).A multifactorial model of sap flow was developed and possible errors in the stand scale sap flow estimates associated with sample sizes were determined using model-based predictions of sap flow.Temporal variations are controlled by vapour pressure deficit(VPD),solar radiation(R),and soil moisture,and these relationships can be described by polynomial or saturated exponential functions.Spatial(individual)differences were influenced by the HCI,as shown by the decaying power function.A simple SF_(d)model at the individual tree level was developed to describe the synergistic influences of VPD,R,soil moisture,and HCI.The coefficient of variations(CV)of the sap flow estimates gradually stabilized when the sample size was>10;at least six sample trees were needed if the CV was within 10%.This study improves understanding of the mechanisms of spatiotemporal variations in sap flow at the individual tree level and provides a new methodology for determining the optimal sample size for sap flow measurements.

关 键 词：Sap flow Environmental conditions COMPETITION MODELLING Optimal sample size 

分 类 号：S791.22[农业科学—林木遗传育种]