de Beer Dirk, Weber Miriam, Chennu Arjun, Hamilton Trinity, Lott Christian, Macalady Jennifer, M Klatt Judith
Microsensor Group, Max-Planck-Institute for Marine Microbiology, Celsiusstrasse 1, Bremen, 28359, Germany.
HYDRA Institute for Marine Sciences, Via del Forno 80, 57034 Campo nell'Elba (LI), Italy.
Environ Microbiol. 2017 Mar;19(3):1251-1265. doi: 10.1111/1462-2920.13654. Epub 2017 Feb 20.
Oxygenic and anoxygenic photosynthesis were studied with microsensors in microbial mats found at 9-10 m depth in anoxic and sulfidic water in Little Salt Spring (Florida, USA). The lake sediments were covered with a 1-2 mm thick red mat dominated by filamentous Cyanobacteria, below which Green Sulfur Bacteria (GSB, Chlorobiaceae) were highly abundant. Within 4 mm inside the mats, the incident radiation was attenuated to undetectable levels. In situ microsensor data showed both oxygenic photosynthesis in the red surface layer and light-induced sulfide dynamics up to 1 cm depth. Anoxygenic photosynthesis occurred during all daylight hours, with complete sulfide depletion around midday. Oxygenic photosynthesis was limited to 4 h per day, due to sulfide inhibition in the early morning and late afternoon. Laboratory measurements on retrieved samples showed that oxygenic photosynthesis was fully but reversibly inhibited by sulfide. In patches Fe(III) alleviated the inhibition of oxygenic photosynthesis by sulfide. GSB were resistant to oxygen and showed a low affinity to sulfide. Their light response showed saturation at very low intensities.
在美国佛罗里达州小盐泉缺氧且含硫的水体中,于9 - 10米深处的微生物席中,使用微传感器对产氧光合作用和不产氧光合作用进行了研究。湖底沉积物上覆盖着一层1 - 2毫米厚的以丝状蓝细菌为主的红色席,其下方绿色硫细菌(绿菌科)数量极为丰富。在席内4毫米范围内,入射辐射衰减至无法检测的水平。原位微传感器数据显示,红色表层存在产氧光合作用,且在深度达1厘米处存在光诱导的硫化物动态变化。不产氧光合作用在整个白天时段都有发生,中午前后硫化物完全耗尽。由于清晨和傍晚时分硫化物的抑制作用,产氧光合作用每天仅限于4小时。对采集样本的实验室测量表明,硫化物会完全但可逆地抑制产氧光合作用。在一些区域,铁(III)减轻了硫化物对产氧光合作用的抑制作用。绿色硫细菌对氧气有抗性,且对硫化物的亲和力较低。它们的光响应在极低强度下就表现出饱和状态。
