北极海域优势种微单胞藻(Micromonas sp.)与其关联菌群的相互作用  被引量：2

作　　者：苗祯[1,2,3,4] 罗玮[1] 杜宗军[3] 李会荣[1] 楼妍颖 

机构地区：[1]国家海洋局极地科学重点实验室中国极地研究中心,上海200136 [2]山东大学(威海)海洋学院,山东威海264209 [3]中国科学院深圳先进技术研究院,广东深圳518055 [4]北京韩美药品有限公司妈咪爱研究所,北京101312 [5]华东师范大学第一附属中学,上海200086

出　　处：《极地研究》2016年第4期474-483,共10页Chinese Journal of Polar Research

基　　金：国家十二五"863计划"生物和医药技术领域"特种生物资源开发利用关键技术"(2012AA021706);国家863计划"利用微藻清洁制备生物燃料关键技术"(2013AA065805);微生物代谢国家重点实验室(上海交通大学)(MMLKF16-10)资助

摘　　要：以夏季北极海域的优势微藻-微单胞藻(Micromonas sp.,CMPP2099)及其关联菌群为切入点,对这两个重要生态学角色之间的相互关系进行了探索研究。实验选择两种不同生长状态的微单胞藻(指数生长期和稳定生长期);并针对微单胞藻的这两种生长状态,添加外源细菌(单一外源细菌和自然外源细菌)作为实验组。研究发现,无论添加细菌与否,都不会对微单胞藻的生长产生影响,微单胞藻均保持着正常稳定的生长状态,且微单胞藻能够促进细菌的增长。稳定生长期实验组的细菌数量明显高于指数生长期的细菌数量。微单胞藻由于其不具胶体形成的细胞特性,在藻菌共生中并没有发现透明胞外聚合颗粒物(transparent exopolymer particles,TEP)大量存在。添加外源细菌对培养液中的微单胞藻生长、细菌的数量、溶解有机碳(dissolved organic carbon,DOC)、透明胞外聚合颗粒物(TEP)和溶解游离氨基酸(dissovled free amino acid,DFAA)的浓度并无影响,而仅仅由于其所在状态不同存在着差异。该研究初次开展的北极中心海域优势藻种及关联菌群之间关系研究,对极地海洋生态系统中的微食物环有着重要的意义,并为在极地海域中的微食物环-优势浮游植物-微生物种群之间的生态协作提供了实验和理论依据。The predominant picoplankton of the Arctic is Micromonas sp. , which plays a pivotal role in biogeochemical cycles and is an important link showing that the microbial loop affects organic carbon transfer to higher trophic lev- els and to deep-sea outputs. As one of the key ecological roles in the Arctic Ocean ecosystem, the interactions be- tween Micromonas sp. and associated bacterioplankton were explored. A series of inocula experiments was under- taken with isolated CCMP2099 Micromonas sp. in an axenic treatment and in one inoculated with marine bacteria. There was no significant effect on the growth of Micromonas sp. , whether treated with bacteria or not. The microal- gae grew regularly during the experiments and vice versa promoted bacterial growth. Bacterial abundance of the sta- tionary phase was higher than the exponential phase, although it fluctuated occasionally. Adding exogenous bacteria had no significant effect on algal growth, bacterial numbers, dissolved organic carbon （ DOC）, transparent exopoly- mer particles （TEP）, and dissolved free amino acids （DFAA）. Based on this preliminary study, the interaction between Micromonas sp. and its associated bacteria was discussed with regard to TEP formation, DOC, and DFAA. Algae-bacterial interaction has a significant effect on the microbial loop in the Arctic ecosystem. The results of this study provide an experimental and theoretical basis for microbial loop, phytoplankton, and key microbial community coupling interactions in the Arctic ecosystem.

关 键 词：北极 微单胞藻 浮游细菌 藻菌关系 

分 类 号：Q948.122.3[生物学—植物学]