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上海常见绿化树种叶功能性状对大气和土壤环境的响应OACHSSCD

Responses of leaf functional traits of common greening tree species in Shanghai to atmospheric and soil environments

中文摘要英文摘要

为探究城市绿化树种叶功能性状的变异及其环境驱动因素,以上海环城生态公园带 62 个样方 9 种常见树种为研究对象,通过测定 9 种植物叶功能性状,分析其对大气污染物和土壤养分的响应.结果表明:(1)上海常见树种的叶功能性状受不同环境因素驱动,叶碳含量、叶氮含量、叶磷含量、叶钾含量、叶面积、比叶面积、叶干物质含量与叶形指数受大气和土壤环境显著影响.(2)大气污染物中,PM2.5与叶碳含量负相关;O3与叶形指数正相关,与叶氮含量负相关;VOCs与比叶面积、叶氮含量和叶磷含量正相关,与叶碳含量和叶干物质含量负相关.(3)土壤养分中,土壤总氮含量、土壤总磷含量与叶钾含量负相关;土壤总钾含量与叶氮含量和叶钾含量正相关;土壤速效钾含量与叶磷含量正相关;土壤氨氮含量与叶碳含量和叶氮含量负相关;土壤硝态氮含量与叶面积、叶氮含量正相关.(4)相较于大气污染物,土壤养分在叶功能性状变异的解释中具有更高相对重要性.综上,上海城市森林的管理建设与功能评估过程中需要考量城市异质环境对树木叶功能性状的影响.

Plant leaf functional traits are often used as key traits to characterise plant resource utilisation and ecosystem function.This study investigated the variation in leaf functional traits of urban greening trees and their environmental drivers,focusing on 62 plots and 9 common tree species within Shanghai Outer-Ring Ecological Park Belt.By measuring 9 plant leaf functional traits(leaf area,leaf shape index,leaf dry matter content,specific leaf area,leaf carbon content,leaf nitrogen content,leaf phosphorus content,leaf potassium content)and obtaining atmospheric pollutant concentrations(PM2.5,O3,VOCs,NOx)and soil nutrient content(total nitrogen content,total phosphorus content,total potassium content,ammonium nitrogen content,nitrate nitrogen content,available phosphorus content,available potassium content),the analysis examined responses of these traits to atmospheric pollutants and soil nutrients using a linear mixed-effects model,and further assessed the explanatory power and relative contributions of environmental variables to trait variation.The results indicated that:(1)The leaf functional traits of common tree species in Shanghai exhibited significant intraspecific variation and were influenced by different environmental factors.Specifically,leaf carbon content,leaf nitrogen content,leaf phosphorus content,leaf potassium content,leaf area,specific leaf area,leaf dry matter content,and leaf shape index showed significant responses to atmospheric and soil conditions.(2)Among atmospheric pollutants,PM2.5 showed a negative correlation with leaf carbon content,while O3 was negatively correlated with leaf nitrogen content but positively correlated with leaf shape index.VOCs exhibited positive correlations with specific leaf area,leaf nitrogen content,and leaf phosphorus content,but negative correlations with leaf carbon content and leaf dry matter content.(3)For soil nutrients,total nitrogen content and total phosphorus content were negatively correlated with leaf potassium content.Total potassium demonstrated positive correlations with leaf potassium content and leaf nitrogen content,while available potassium content was positively correlated with leaf phosphorus content.Ammonium nitrogen content showed negative correlations with leaf carbon content and leaf nitrogen content,whereas nitrate nitrogen content had positive correlations with leaf area and leaf nitrogen content.(4)Soil nutrients played a more significant role than atmospheric pollutants in explaining leaf functional trait variation.Environmental variables had a higher explanatory power for leaf nutritional traits compared to leaf morphological traits.In conclusion,effective urban forest management in Shanghai required consideration of heterogeneous environmental impacts on tree leaf traits.

王九洲;王小玲;庞育兰;郭雪艳;宋坤;达良俊

华东师范大学生态与环境科学学院,自然资源部大都市区国土空间生态修复工程技术创新中心,上海 200241华东师范大学生态与环境科学学院,自然资源部大都市区国土空间生态修复工程技术创新中心,上海 200241华东师范大学生态与环境科学学院,自然资源部大都市区国土空间生态修复工程技术创新中心,上海 200241司法鉴定科学研究院,上海 200063华东师范大学生态与环境科学学院,自然资源部大都市区国土空间生态修复工程技术创新中心,上海 200241||崇明生态研究院,上海 202162西安建筑科技大学交叉创新研究院,干旱半干旱区生态科学与工程研究院,西安 710055

环城生态公园带叶功能性状土壤养分大气污染物

outer-ring ecological park beltleaf functional traitssoil nutrientsatmospheric pollutants

《生态学报》 2026 (3)

1182-1192,11

上海市科委"科技创新行动计划"项目(22DZ1208502,22DZ1202102)

10.20103/j.stxb.202504261000

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