不同地理种源杉木细根呼吸及其与形态、化学性状的关系研究  

作　　者：寿烨 王兵[2,3,4] 牛香 宋希强 许庭毓 王以惠 SHOU Ye;WANG Bing;NIU Xiang;SONG Xi-qiang;XU Ting-yu;WANG Yi-hui(College of Forestry,Hainan University,Haikou 570228,Hainan,China;Ecology and Nature Conservation Institute,Chinese Academy of Forestry,Beijing 100091,China;Key Laboratory of Forest Ecology and Environment of National Forestry and Grassland Administration,Beijing 100091,China;Dagangshan National Key Field Observation and Research Station for Forest Ecosystem,Xinyu 338033,Jiangxi,China;Key Laboratory of Biology of Flower Resources of Hainan Province,Haikou 570228,Hainan,China)

机构地区：[1]海南大学热带农林学院,海南海口570228 [2]中国林业科学研究院森林生态环境与自然保护研究所,北京100091 [3]国家林业和草原局森林生态环境重点实验室,北京100091 [4]江西大岗山森林生态系统国家野外科学观测研究站,江西分宜338033 [5]海南省热带特色林木花卉生物学重点实验室,海南海口570228

出　　处：《林业科学研究》2024年第4期148-156,共9页Forest Research

基　　金：十四五国家重点研发计划资助“森林生态系统数据智能管理、产品开发和挖掘应用”(2021YFF0703905);中国森林草原资源及生态系统服务核算(2021ZDKT003)。

摘　　要：[目的]:分析不同种源杉木细根呼吸及其形态、化学性状的差异,增进对根系呼吸与其他根系特征之间联系的理解。[方法]:以江西大岗山杉木种源同质园的10个种源为对象,对杉木细根呼吸及其形态、化学性状的种源间差异以及各指标间的关联性开展了研究。[结果]:杉木细根呼吸、细根形态性状和化学性状的种源间变异系数分别为40.42%、18.82%~22.88%、7.84%~19.73%。不同种源杉木细根呼吸存在显著差异(p<0.05),浙江开化种源细根呼吸速率最大(7.97±1.08 nmol·g^(−1)·s^(−1)),重庆永川种源最小(1.63±0.40 nmol·g^(−1)·s^(−1));不同种源杉木细根形态性状、化学性状也呈显著差异(p<0.05),福建建瓯种源具有最大的比根长(579.17±17.11 cm·g^(−1))、根比表面积(139.97±10.18 cm^(2)·g^(−1));浙江开化种源具有最大的根C含量(458.12±5.40 g·kg^(−1))、N含量(10.58±0.02 g·kg^(−1))、N:P(17.85±0.29);江西分宜本地种源具有最大的根组织密度(0.62±0.12 g·cm^(−3))、以及最小的根N含量(6.38±0.11 g·kg^(−1))、C:P(481.39±8.94)、N:P(10.64±0.41)。对杉木细根呼吸及其形态、化学性状间的权衡关系分析表明,细根呼吸与根系氮含量之间呈显著正相关(p<0.05),与比根长、根组织密度的相关性较小。[结论]:不同地理种源杉木细根对环境变化的适应策略存在差异,细根呼吸与根形态性状的关联较小,主要与根N含量关系密切。[Objective]:To analyze the difference of fine root respiration and its morphological and chemical characters among different provenances of Cunninghamia lanceolata for understanding the relationship between root respiration and other root characteristics.[Methods]:Based on the 10 provenances of Chinese fir(Cunninghamia lanceolata(Lamb.)Hook.)provenances homogenous garden in Dagangshan,Jiangxi Province,the variation between provenances of fine root respiration,morphology and chemical traits of Chinese fir and the correlation among different traits were studied.[Results]:The coefficient of variation of fine root respiration,fine root morphological traits and chemical traits among provenances of Chinese fir were 40.42%,18.82%~22.88%and 7.84%~19.73%,respectively.There were significant differences in fine root respiration among provenances(p<0.05).The fine root respiration rate was the highest in Kaihua Zhejiang provenances(7.97±1.08 nmol·g^(−1)·s−1)and the lowest in Yongchuan provenances(1.63±0.40 nmol·g^(−1)·s−1 nmol·g^(−1)·s−1).The morphological and chemical characters of fine roots of Chinese fir from different provenances were also significantly different(p<0.05).The provenances of Jian'ou Fujian had the largest specific root length(579.17±17.11 cm·g^(−1)),root specific surface area(139.97±10.18 cm^(2)·g^(−1)).The root C content(458.12±5.40 g·kg^(−1))and N content(10.58±0.02 g·kg^(−1))were the largest in Kaihua Zhejiang provenance;The local provenances of Fenyi Jiangxi Province had the largest root tissue density(0.62±0.12 g·cm^(−3)),and the lowest root N content(6.38±0.11 g·kg^(−1)),C:P(481.39±8.94),N:P(10.64±0.41).The trade-off analysis of fine root respiration,morphological and chemical traits of Chinese firprovenances showed that there was a significant correlation between fine root respiration and root nitrogen content(p<0.05),but insignificant correlation with specific root length and root tissue density.[Conclusion]:The adaptation strategies of fine roots of Ch

关 键 词：杉木 地理种源 根呼吸 根性状 

分 类 号：S718.5[农业科学—林学]