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引用本文:刘亚敏, 另青艳, 张北红, 钟 庆, 刘新丽, 赵瑞琦, 黄莉娜, 王颜波, 金志农.樟属柠檬醛型树种内生真菌的群落结构分析[J].广西植物,2026,46(6):931-942.[点击复制]
LIU Yamin, LING Qingyan, ZHANG Beihong, ZHONG Qing, LIU Xinli, ZHAO Ruiqi, HUANG Lina, WANG Yanbo, JIN Zhinong.Analysis on endophytic fungal community in Camphora tree species with citral chemotype[J].Guihaia,2026,46(6):931-942.[点击复制]
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樟属柠檬醛型树种内生真菌的群落结构分析
刘亚敏1, 另青艳1,2, 张北红1,2*, 钟 庆3, 刘新丽1, 赵瑞琦1, 黄莉娜1, 王颜波1,2, 金志农1,2   
1. 江西水利电力大学 水土保持学院, 南昌 330099;2. 江西省樟树繁育与开发利用产业 工程化中心, 南昌 330099;3. 吉安市园林绿化中心, 江西 吉安 343000
摘要:
为研究樟属3种柠檬醛型树种内生真菌群落多样性,探究相同化学型不同树种及不同组织部位内生真菌的多样性、结构差异,该文通过高通量测序的方法分析了36个样本,共获得序列2 207 878条。结果表明:(1)樟属柠檬醛化学型不同树种的内生真菌群落在物种组成上差异显著,并且内生真菌物种组成在根、茎、叶中展现出器官偏好性和多样性。(2)Chao和Ace指数的排序一致,均为樟(Camphora officinarum)(QCA)>猴樟(C. bodinieri)(QBO)>黄樟(C. parthenoxylon)(QPO),表明樟的内生真菌物种丰富度最高,其OTU数量为690; 黄樟的物种丰富度最低,OTU数量为414。Shannon多样性指数的排序为QPO>QBO>QCA,Simpson多样性指数则与之相反,表明樟的内生真菌群落多样性最小。(3)Bray-Curtis距离的主坐标分析(PCoA)表明,猴樟和黄樟的样本点聚集紧密,表明二者的内生真菌群落结构相似度较高; 而这两种植物与樟的样本点分布相对分散,因此它们与樟的内生真菌群落结构相似度较低。(4)樟属3种柠檬醛型树种均表现为叶和茎内生真菌的群落结构相似,但根与叶的内生真菌的群落差异较大。该结果表明宿主树种与组织部位异质性的共同作用塑造了内生真菌群落,不仅为筛选樟属柠檬醛型树种中具有潜在功能的内生真菌奠定了基础,也为内生真菌群落与宿主树种及化学型的协同进化关系提供了参考。
关键词:  宿主化学型, 内生真菌, 高通量测序, 物种多样性, 群落组成
DOI:10.11931/guihaia.gxzw202505032
分类号:Q948.12
文章编号:1000-3142(2026)06-0931-12
基金项目:江西省自然科学基金面上项目(20232BAB205055); 江西省科技厅重大科技专项(20203ABC28W016); 南昌工程学院博士科研启动项目(2022kyqd012)。
Analysis on endophytic fungal community in Camphora tree species with citral chemotype
LIU Yamin1, LING Qingyan1,2, ZHANG Beihong1,2*, ZHONG Qing3, LIU Xinli1, ZHAO Ruiqi1, HUANG Lina1, WANG Yanbo1,2, JIN Zhinong1,2   
1. School of Soil and Water Conservation, Jiangxi University of Water Resources and Electric Power, Nanchang 330099, China;2. Jiangxi Provincial Engineering Research Center for Seed-Breeding and Utilization of Camphor Trees, Nanchang 330099, China;3. Ji'an Landscape and Gardening Center, Ji'an 343000, Jiangxi, China
Abstract:
To investigate the community diversity of endophytic fungi in three citral chemotype tree species in the Camphora, and to explore the diversity and structural differences of endophytic fungi in different tree species with the same chemotype and various tissue parts, this study analyzed 36 samples by high throughput sequencing method, a total of 2 207 878 sequences were obtained. The results were as follows:(1)The endophytic fungal communities of different tree species with the citral chemotype in the Camphora exhibited significant differences in species composition, and the endophytic fungal species composition showed organ preference and diversity in roots, stems, and leaves.(2)The ranking of the Chao and Ace indices was consistent, both showing Camphora officinarum (QCA)> C. bodinieri (QBO)> C. parthenoxylon (QPO), indicating that C. officinarum had the highest species richness of endophytic fungi, with 690 OTUs, while C. parthenoxylon had the lowest species richness, with 414 OTUs. In contrast, the Shannon diversity index showed the order QPO > QBO > QCA, and the Simpson diversity index exhibited the opposite trend. Thus, it could be concluded that the endophytic fungal community diversity of C. officinarum was the lowest.(3)Principal coordinate analysis(PCoA)based on Bray-Curtis distances revealed that the sample points of C. bodinieri and C. parthenoxylon were closely clustered, indicating a high similarity in their endophytic fungal community structures. In comparison, the sample points of these two species were relatively dispersed from those of C. officinarum, suggesting a lower similarity in endophytic fungal community structure between them and C. officinarum.(4)The three citral chemotype tree species of the Camphora all exhibited similar community structures of endophytic fungi in leaves and stems, but showed significant differences in the fungal communities between roots and leaves. The results indicate that the combined influence of host tree species and tissue heterogeneity shapes the endophytic fungal community, laying a foundation for exploring potential functional endophytic fungi in citral chemotype tree species of the Camphora and provide insights into the co-evolutionary relationship between endophytic fungal communities and host tree species and chemotypes.
Key words:  chemotype of host species, endophytic fungi, high-throughput sequencing, species diversity, community composition
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