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首页|期刊导航|林业科学|繁殖方式对杉木幼苗根系不同序级生物量、形态性状和碳氮含量的影响

繁殖方式对杉木幼苗根系不同序级生物量、形态性状和碳氮含量的影响OA北大核心CSTPCD

Effects of Propagation Methods on Biomass,Morphological Traits and Carbon and Nitrogen Contents of Fine Roots at Different Orders of Chinese Fir Seedlings

中文摘要英文摘要

[目的]探究繁殖方式对杉木幼苗根系不同序级生物量分配和生长的影响,分析不同繁殖方式培育的杉木幼苗在相似生长环境下的根系生长策略,为杉木幼苗个体根系生长发育研究提供科学依据.[方法]以种子萌发、组织培养和无性扦插等繁殖方式培育 1年的杉木幼苗为研究对象,比较杉木幼苗根系不同序级生物量、形态性状和组织碳氮含量的差异,分析根系生物量与不同序级测定指标之间的内在关系,探究杉木幼苗因繁殖方式不同影响根系生长策略的差异性.[结果]1)不同繁殖方式培育的杉木幼苗根冠比差异达显著水平(P<0.05),表现为扦插苗>实生苗>组培苗.从同一序级生物量分配情况看,扦插苗 1级根生物量[每株(0.68±0.13)g]分别是实生苗的 4.31倍和组培苗的 1.09倍;组培苗 2~4级根生物量显著大于实生苗和扦插苗,分别为每株(1.19±0.21)g、(1.63±0.19)g和(1.82±0.27)g,组培苗和扦插苗根系不同序级生物量积累量更大.2)实生苗通过 4级根生长促进1~2级根延伸,其 4级根生物量、1~2级根比表面积显著大于组培苗和扦插苗(P<0.05);组培苗和扦插苗 1级根平均直径和比根长显著大于实生苗,表现出通过直径增大和长度增加方式增强资源吸收效率的策略.3)实生苗、组培苗和扦插苗根系不同序级组织C和N含量存在差异,组培苗和扦插苗 1~2级根N含量显著高于实生苗(P<0.05),3~4级根N含量显著低于实生苗;组培苗 1~4级根C含量显著低于实生苗和扦插苗;组培苗和扦插苗 1级根C/N显著小于实生苗.4)实生苗根系生物量与 1级根上的组织N含量、2~3级根上的形态性状、4级根上的形态性状和组织C含量均具有显著关系(P<0.05);对于组培苗、扦插苗而言,根系生物量与 1~2级根上的形态性状、3~4级根上的形态性状和组织C含量具有显著关系,体现出根系不同序级在形态构建与资源获取效率间存在的生态权衡关系.[结论]不同繁殖方式培育的杉木幼苗根系发育水平和生长策略存在明显差异,实生苗根系表现出探索寻觅土壤空间资源的生长策略;与之相比,组培苗和扦插苗根系形态构建特征和生长策略更具相似性,表现出增强对已占据空间资源吸收利用效率的生长策略.

[Objective]This study aims to understand the effects of propagation methods on root biomass allocation and growth of different order roots of Chinese fir seedlings,which is helpful to reveal the differences in individual root development status and growth strategies of Chinese fir seedlings.[Method]One-year Chinese fir seedlings cultivated by seed germination,tissue culture and cutting were used to examine the differences in root biomass,morphological traits and tissue carbon and nitrogen content at different order levels,and analyze the relationships among the measurement indexes of root biomass at different order levels,so as to explore the differences in the influence of propagation methods on root growth strategies of Chinese fir seedlings.[Result]1)There were significantly differences(P<0.05)in the root:shoot ratio of Chinese fir seedlings cultured by different propagation methods,with the order as cutting>seedlings>tissue culture seedlings.In terms of the distribution of root biomass in the same order,the biomass[(0.68±0.13)g per plant]of the first order roots of cuttings was 4.31 times that of seedlings and 1.09 times that of tissue culture seedlings.The biomass of 2th-4th order roots of tissue culture seedlings was significantly greater than that of seedlings and cuttings,with values of(1.19±0.21)g per plant,(1.63±0.19)g per plant and(1.82±0.27)g per plant,respectively The biomass accumulation of different order roots of tissue culture seedlings and cuttings was greater.2)Seedlings promoted 1-2 order root extension through 4 order root growth,and their 4-order root biomass and 1-2 order root specific surface area were significantly larger than those of tissue culture seedlings and cuttings(P<0.05).However,the root average diameter and specific root length of the 1-order roots of tissue culture seedlings and cuttings were significantly greater than those of seedlings,showing a strategy to enhance resource absorption efficiency by increasing diameter and length.3)There were differences in the C and N contents in different order roots of seedlings,tissue culture seedlings and cuttings.The N content of 1-2 order roots of tissue culture seedlings and cuttings was significantly higher than that of seedlings(P<0.05),but the N content of 3-4 order roots was significantly lower than that of seedlings.The C content of 1-4 order roots of tissue culture seedlings was significantly lower than that of seedlings and cuttings.The C/N ratio of the 1-order roots of tissue culture seedlings and cuttings was significantly lower than that of seedlings.4)The root biomass of seedlings was significantly correlated with tissue N content in grade 1 order roots,morphological traits of 2-3 order roots,and morphological traits and tissue C content in 4 order roots(P<0.05).For tissue culture seedlings and cuttings,there was significant correlation between root biomass and 1-2 order root morphological traits,3-4 order root morphological traits,as well as tissue C content,reflecting that there was the ecological trade-off relationship between morphological construction and resource acquisition efficiency at different root order levels.[Conclusion]There are significant differences in the root development level and growth strategy of Chinese fir seedlings cultivated by different propagation methods.The root system of seedlings shows the growth strategy of exploring and searching for soil space resources.In contrast,the root morphology construction characteristics and growth strategies of tissue culture seedlings and cuttings are more similar,showing a growth strategy to enhance the absorption and utilization efficiency of occupied space resources.

李林鑫;杨贵云;郭昊澜;董强;李明;马祥庆;吴鹏飞

福建农林大学林学院 国家林业和草原局杉木工程技术研究中心 福州 350002

林学

杉木繁殖方式根序生物量分配形态构建特征生长策略

Cunninghamia lanceolatapropagation methodsroot ordersbiomass allocationmorphological structure characteristicsgrowth strategy

《林业科学》 2024 (007)

47-55 / 9

"十四五"国家重点研发计划项目(2021YFD2201304-05)和福建农林大学专业学位研究生课程教学案例库建设项目(712018270478)资助.

10.11707/j.1001-7488.LYKX20230289

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