间作槟榔调控咖啡根际微生物群落结构及功能促进咖啡植株发育  

作　　者：赵少官 张昂 董云萍 孙燕[1] 苏兰茜 林兴军[1] 龙宇宙[1,2] 赵青云 ZHAO ShaoGuan;ZHANG Ang;DONG YunPing;SUN Yan;SU LanXi;LIN XingJun;LONG YuZhou;ZHAO QingYun(Spice and Beverage Research Institute,Chinese Academy of Tropical Agricultural Sciences/Key Laboratory of Genetic Resources Utilization of aromatic beverage crops,Ministry of Agriculture/Hainan Key Laboratory of Genetic Improvement and Quality Control of Tropical Sweet and spicy Beverage Crops,Wanning 571533,China;Sanya Research Institute,Chinese Academy of Tropical Agriculutal Sciences,Sanya 572000,China;College of Tropical Crop Science,Yunnan Agricultural University,Pu’er 665099,China)

机构地区：[1]中国热带农业科学院香料饮料研究所,农业农村部香辛饮料作物遗传资源利用重点实验室,海南省热带香辛饮料作物遗传改良与品质调控重点实验室,万宁571533 [2]中国热带农业科学院三亚研究院,三亚572000 [3]云南农业大学热带作物学院,普洱665099

出　　处：《中国科学：生命科学》2024年第10期1974-1987,共14页Scientia Sinica(Vitae)

基　　金：国家重点研发计划(批准号:2023YFD1901403);国家热带农业科学中心科技创新团队项目(批准号:CATASCXTD202312);国家自然科学基金(批准号:32101847)资助。

摘　　要：咖啡是世界上闻名的饮料作物,长期单一化种植导致土壤生物功能退化,影响植株健康生长.间作槟榔是改善咖啡园土壤生物功能的有效措施,但作用机制尚不清楚.本文通过盆栽试验研究了咖啡间作槟榔对根际土壤生物和非生物学性状的影响.结果表明,间作增加了土壤速效养分含量,速效磷和速效钾含量分别显著增加58.24%和70.30%;相对于单作,间作模式改变了根际土壤细菌和真菌群落丰富度,真菌丰富度对种植模式的响应更显著;间作咖啡根际土壤细菌群落拥有更多独有的扩增子序列变异体(Amplicon Sequence Variants,ASV),而真菌独有ASV在间作模式下显著降低;根际土壤细菌和真菌属(如Pedomicrobium,Mycobacterium等)与咖啡植株生长显著相关;与咖啡单作相比,间作模式能够富集根际土壤中与养分循环(如Bradyrhizobium,Trichoderma,Bryobacter)和抑制植物病原菌(如Trichoderma,Penicillium,Streptomyces)相关的微生物群落,促进土壤养分释放和对潜在病原菌的抑制作用,促使植株健康生长.另外,间作模式下咖啡根际土壤能够富集与氮素循环和芳香化合物降解等功能相关的微生物.综上,咖啡间作槟榔可富集有益功能微生物,调控咖啡园土壤微生物群落结构和功能,缓解咖啡连作生物障碍.该研究为生产上应用复合栽培模式,助力咖啡绿色种植提供了理论依据.Coffee,a renowned beverage crop cultivated worldwide,suffers from soil degradation as a result of long-term monoculture,which adversely affects the healthy growth of coffee plants.Intercropping with Areca catechu has been discovered to be an effective approach to improving soil biological functions in coffee plantations,although the mechanisms underlying this phenomenon remain unclear.In this study,a pot experiment was conducted to explore the impact of coffee intercropped with A.catechu on the biotic and abiotic characteristics of rhizosphere soil.The findings revealed that intercropping significantly increased the levels of readily available nutrients,with available phosphorus and potassium levels increasing by 58.24%and 70.30%,respectively,compared to monocropping.Moreover,the intercropping model altered the richness of the bacterial and fungal communities in the rhizosphere soil,with fungal richness exhibiting a more pronounced response.In terms of microbial diversity,the intercropped coffee exhibited a greater number of unique ASVs among rhizosphere soil bacteria,whereas the intercropped model significantly reduced the presence of unique fungal ASVs.This study demonstrated significant associations between bacterial and fungal genera(e.g.,Pedomicrobium and Mycobacterium)in the rhizosphere soil and the growth of coffee plants.Comparative analysis revealed that the intercropping model enriched the rhizosphere soil with microorganisms associated with nutrient cycling(e.g.,Bradyrhizobium,Trichoderma,and Bryobacter)and the suppression of plant pathogens(e.g.,Trichoderma,Penicillium,and Streptomyces)relative to monocropping,thereby facilitating soil nutrient release and inhibiting potential pathogens,which ultimately promote the healthy growth of coffee plants.In addition,the intercropping model promoted the enrichment of microorganisms associated with nitrogen cycling and the degradation of aromatic compounds in the coffee rhizosphere soil.Collectively,the intercropping of coffee with A.catechu enhanced the presen

关 键 词：根际土壤微生物 植株健康 土壤生态功能 复合栽培模式 咖啡绿色种植 

分 类 号：S571.2[农业科学—作物学] S792.91