Laboratory of Photosynthesis, Institute of Microbiology CAS, Třeboň, Czech Republic.
FEMS Microbiol Ecol. 2011 May;76(2):393-400. doi: 10.1111/j.1574-6941.2011.01059.x. Epub 2011 Feb 15.
We studied the distribution of anoxygenic phototrophs in 23 steppe lakes in the Transbaikal region (Russia), in Uzbekistan (Central Asia) and in the Crimean peninsula (Ukraine). The lakes varied in their mineral content and composition (salinities from 0.2 to 300 g L(-1) ). The Transbaikal lakes were alkaline (pH>9), with high amounts of soda. The Uzbek and Crimean lakes were more pH neutral, frequently with high amounts of sulfates. The presence of anoxygenic phototrophs was registered by infrared epifluorescence microscopy, infrared fluorometry and pigment analyses. In mostly shallow, fully oxic lakes, the anoxygenic phototrophs represented 7-65% of the total prokaryotes, with the maxima observed in Transbaikal soda lakes Gorbunka (32%), Khilganta (65%), Zanday (58%) and Zun-Kholvo (46%). Some of the lakes contained over 1 μg bacteriochlorophyll L(-1) . In contrast, only small amounts of anoxygenic phototrophs were present in highly mineralized lakes (>100 g total salts L(-1) ); Borzinskoe, Tsagan-Nur (Transbaikal), Staroe (Crimea) and in the residual part of the south-west Aral Sea (Uzbekistan). The oxic environment and the specific diurnal changes of bacteriochlorophyll concentration observed suggest that the phototrophic community was mostly composed of aerobic anoxygenic phototrophs. The high abundances and bacteriochlorophyll concentrations point to an important role of aerobic anoxygenic phototrophs in the habitats studied.
我们研究了 23 个草原湖泊(俄罗斯外贝加尔地区、乌兹别克斯坦(中亚)和克里米亚半岛(乌克兰))中贫养型光养生物的分布情况。这些湖泊在矿物质含量和组成方面存在差异(盐度为 0.2 至 300 克/升)。外贝加尔的湖泊呈碱性(pH 值大于 9),含有大量苏打。乌兹别克斯坦和克里米亚的湖泊 pH 值更为中性,经常含有大量硫酸盐。通过红外荧光显微镜、红外荧光法和色素分析来确定贫养型光养生物的存在。在大多数浅而完全有氧的湖泊中,贫养型光养生物占总原核生物的 7-65%,在外贝加尔苏打湖中观察到最大值,如戈尔布恩卡(Gorbunka,32%)、希尔甘塔(Khilganta,65%)、赞代(Zanday,58%)和尊霍尔沃(Zun-Kholvo,46%)。一些湖泊的细菌叶绿素含量超过 1μg/L。相比之下,在高矿物质化的湖泊中(总盐含量>100 克/升),贫养型光养生物的含量很少;在外贝加尔的博尔津斯科耶(Borzinskoe)、扎甘努尔(Tsagan-Nur)、斯塔罗耶(Staroe)和咸海西南残留部分(乌兹别克斯坦),情况也是如此。好氧环境和观察到的细菌叶绿素浓度的特定日变化表明,光养生物群落主要由好氧贫养型光养生物组成。高丰度和细菌叶绿素浓度表明,好氧贫养型光养生物在研究的栖息地中发挥着重要作用。
