Yihua Liu,Alyse K Kiesser,Agasteswar Vadlamani,Angela Kouris,Marc Strous
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引用次数: 0
摘要
碱性苏打湖的特点是pH值高,钠和溶解的碳酸盐浓度高,支持多种亲碱微生物群落。采用13c -碳酸氢盐、15n -铵、15n -硝酸盐和15n -尿素等稳定同位素探测,测定了加拿大古迪纳夫湖碱性微生物垫对碳和氮的同化速率。我们的研究结果显示了极高的碳固定率,平均为24 g C/m2/天,等于或超过了50年前在非洲碱性苏打湖中测量到的碳固定率。尿素消耗在白天和夜间都有发生,但同化主要发生在白天。铵态氮同化在白天和夜间都是稳定的。显然,蓝藻偏爱尿素作为氮源,而异养菌偏爱铵。两种不同的蓝藻占据了微生物席,Nodosilinea和Sodalinema。利用Orbitrap质谱法,我们只观察到Sodalinema对碳酸盐13C的同化作用,而Nodosilinea则没有。后者可能侧重于不同的碳源,如尿素。它们在蛋白质组中丰度之间的强负相关也支持这两种蓝藻之间的生态位分配。
Exceptionally high carbon fixation and nitrogen assimilation rates in microbial mats of an alkaline soda lake.
Alkaline soda lakes, characterized by high pH and high concentrations of sodium and dissolved carbonates, support diverse alkaliphilic microbial communities. Using stable isotope probing with 13C-bicarbonate, 15N-ammonium, 15N-nitrate, and 15N-urea, we measured assimilation rates for carbon and nitrogen by microbial mats of alkaline Goodenough Lake, Canada. Our results showed extremely high carbon fixation rates averaging 24 g C/m2/day, equalling or exceeding rates measured fifty years ago in African alkaline soda lakes. Urea consumption occurred both during the day and during the night, but assimilation mainly occurred during the day. Ammonium assimilation was stable between day and night. Apparently, cyanobacteria preferred urea as a nitrogen source, whereas heterotrophs preferred ammonium. Two different cyanobacteria dominated the microbial mats, Nodosilinea and Sodalinema. Using Orbitrap mass spectrometry, we only observed assimilation of 13C bicarbonate by Sodalinema, but not by Nodosilinea. The latter might focus on different carbon sources, such as urea. Strong negative correlation between their abundances in proteomes also supported niche partitioning between these two cyanobacteria.
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