Key Laboratory of Algal Biology, State key laboratory of Freshwater Ecology and Biotechnology, Institute of Hydrobiology, Chinese Academy of Sciences, Wuhan 430072, PR China; University of Chinese Academy of Science, Beijing 100039, PR China.
Yellow River Water Resources Protection Institution, Zhengzhou 450004, PR China.
Microbiol Res. 2017 Dec;205:59-65. doi: 10.1016/j.micres.2017.08.013. Epub 2017 Aug 31.
The abundance, phosphorus solubilizing ability and community composition of phosphorus solubilizing bacteria (PSB) attached on two bloom-forming cyanobacteria, Microcystis and Anabeana, were investigated in Guanqiao ponds in 2014 and Lake Chaohu in 2015 and 2016. Thirty organic phosphate-mineralizing bacteria (OPB) and eighteen inorganic phosphate-solubilizing bacteria (IPB) isolated from Guanqiao ponds and Lake Chaohu were identified. The community compositions of PSB attached on Microcystis and Anabeana were found to be entirely different. Some PSB were found to be shared by OPB and IPB, especially the species attached on Microcystis, such as Rhizobium sp. Compared to the PSB attached on Anabeana, the PSB attached on Microcystis showed the lower numbers, higher phosphorus solubilizing ability and extensive substrate adaptability. This indicated that the PSB were important for the growth of Microcystis through meeting soluble reactive phosphorus (SRP) demand, which was further supported by the data from Guanqiao ponds where succession process from Anabeana to Microcystis was recorded. All these facts can explain why the succession from Anabeana to Microcystis frequently occurred in shallow eutrophic lakes. Therefore, the attached PSB should be considered as a crucial contributor on algal growth, succession and collapse, depending on algal species.
2014 年在关桥池塘和 2015 年、2016 年在巢湖调查了附着在两种水华蓝藻(微囊藻和鱼腥藻)上的解磷细菌(PSB)的丰度、溶磷能力和群落组成。从关桥池塘和巢湖分离出 30 株有机磷矿化菌(OPB)和 18 株无机磷溶磷菌(IPB)。发现附着在微囊藻和鱼腥藻上的 PSB 的群落组成完全不同。一些 PSB 被发现同时存在于 OPB 和 IPB 中,特别是附着在微囊藻上的 Rhizobium sp. 与附着在鱼腥藻上的 PSB 相比,附着在微囊藻上的 PSB 数量较少、溶磷能力较强、底物适应性较广。这表明 PSB 通过满足可利用溶解性磷(SRP)的需求,对微囊藻的生长很重要,这一观点也得到了关桥池塘的实验数据的支持,在关桥池塘中记录了鱼腥藻向微囊藻的演替过程。所有这些事实都可以解释为什么在浅水富营养化湖泊中经常发生鱼腥藻向微囊藻的演替。因此,附着的 PSB 应该被认为是藻类生长、演替和崩溃的关键贡献者,这取决于藻类的种类。
