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氮添加对杨树人工林细根分解的影响OA

Effects of nitrogen addition on fine root decomposition in poplar plantations

中文摘要英文摘要

[目的]探讨不同氮(N)添加水平对杨树人工林细根分解的影响及其调控机制,进一步理解N沉降在碳循环和生态系统养分动态中的作用,为杨树(Populus sp.)人工林的科学管理和森林生态系统优化提供数据支持.[方法]从不同施 N 水平[N0.0 g/(m2·a),N1.5 g/(m2·a),N2.10 g/(m2·a),N3.15 g/(m2·a),N4.30 g/(m2·a)]的样地中采集美洲黑杨(Populus deltoides)的细根,测定细根初始化学性质后将所有细根样品埋入N0处理样地中进行分解试验,并连续3年分7个时间点进行7次取样,记录细根剩余质量,以评估不同初始施氮处理下细根的分解特征及其影响因素.[结果]不同N添加处理下,杨树细根的初始化学性质存在显著差异,细根的N含量随N添加水平的增加而上升,而碳氮比(C/N)则呈下降趋势.细根分解速率随着施N水平的增加逐渐降低.尽管在3年分解过程中各处理的细根残余量持续减少,但在相同分解时长下,施氮量越高,细根残余量越大,表明N添加抑制了细根的分解.细根初始C/N和N浓度是影响分解速率的主要变量,细根初始C/N增加时,分解速率显著升高(R2=0.86,P<0.001);而初始N浓度增加时,分解速率则显著降低(R2=0.80,P<0.001),表明细根的初始化学组成对其分解过程具有重要调控作用.[结论]N添加通过改变杨树细根的初始化学性质,尤其是提高N浓度、降低C/N,减缓了细根的分解速率,进而可能影响森林土壤有机碳的积累过程.

[Objective]This study aims to investigate the impacts of varying nitrogen(N)addition levels on the decomposition dynamics of fine roots in poplar plantations and to elucidate the key regulatory factors influencing this process.The findings are expected to provide critical insights into the role of N deposition in ecosystem carbon(C)cycling and nutrient turnover.[Method]Fine roots of Populus deltoides were collected in 2018 from experimental plots subjected to five different N addition treatments:N0(0 g/(m2·a)),N1(5 g/(m2·a)),N2(10 g/(m2·a)),N3(15 g/(m2·a)),and N4(30 g/(m2·a)).After measuring their initial chemical properties,all root samples were buried in the control(N0)plot for decomposition experiments.Samples were collected at seven time points over a three-year period to track residual mass and assess the decomposition patterns and influencing factors associated with different N treatments.[Result]Initial chemical properties of poplar fine roots differed significantly among different N treatments.N concentration in the roots increased with higher N input,while the C/N declined.Decomposition rates decreased with increasing N addition.Although root mass continuously declined over three years,higher N levels consistently resulted in greater residual mass at each time point,indicating that N addition inhibited fine root decomposition.Initial C/N and N concentrations were the primary factors influencing decomposition rate.A higher C/N significantly increased the decomposition rate(R2=0.86,P<0.001),while higher N concentration significantly decreased it(R2=0.80,P<0.001),suggesting that the initial chemical composition of fine roots strongly regulates their decomposition.[Conclusion]In summary,this study demonstrates that nitrogen addition inhibits fine root decomposition by altering root initial chemistry-specifically by increasing N concentration and reducing the C/N which may in turn affect soil organic carbon accumulation in forest ecosystems.

韩哲;刘文芳;徐侠;郑文绪;耿庆宏;樊伟;彭凡茜

南京林业大学生态与环境学院,江苏 南京 210037福建武夷山国家公园科研监测中心,福建 武夷山 354300南京林业大学生态与环境学院,江苏 南京 210037南京林业大学生态与环境学院,江苏 南京 210037西北农林科技大学林学院,陕西 杨凌 712100南京林业大学生态与环境学院,江苏 南京 210037南京林业大学生态与环境学院,江苏 南京 210037

农业科技

氮添加杨树人工林细根分解细根初始化学性质

N additionpoplar plantationfine root decompositioninitial chemical properties of fine roots

《南京林业大学学报(自然科学版)》 2026 (3)

72-78,7

福建省林业科技项目(2023FKJ16).

10.12302/j.issn.1000-2006.202411018

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