Wu Xiao-Lei, Friedrich Michael W, Conrad Ralf
Max-Planck-Institute for Terrestrial Microbiology, Karl-von Frisch-Str., 35043 Marburg, Germany.
Environ Microbiol. 2006 Mar;8(3):394-404. doi: 10.1111/j.1462-2920.2005.00904.x.
Temperate rice field soil from Vercelli (Italy) contains moderately thermophilic methanogens of the yet uncultivated rice cluster I (RC-I), which become prevalent upon incubation at temperatures of 45-50 degrees C. We studied whether such thermophilic methanogens were ubiquitously present in anoxic soils. Incubation of different rice field soils (from Italy, China and the Philippines) and flooded riparian soils (from the Netherlands) at 45 degrees C resulted in vigorous CH(4) production after a lag phase of about 10 days. The archaeal community structure in the soils was analysed by terminal restriction fragment length polymorphism (T-RFLP) targeting the SSU rRNA genes retrieved from the soil, and by cloning and sequencing. Clones of RC-I methanogens mostly exhibited T-RF of 393 bp, but also terminal restriction fragment (T-RF) of 158 and 258 bp length, indicating a larger diversity than previously assumed. No RC-I methanogens were initially found in flooded riparian soils. However, these archaea became abundant upon incubation of the soil at 45 degrees C. Thermophilic RC-I methanogens were also found in the rice field soils from Pavia, Pila and Gapan. However, the archaeal communities in these soils also contained other methanogenic archaea at high temperature. Rice field soil from Buggalon, on the other hand, only contained thermophilic Methanomicrobiales rather than RC-I methanogens, and rice field soil from Jurong mostly Methanomicrobiales and only a few RC-I methanogens. The archaeal community of rice field soil from Zhenjiang almost exclusively consisted of Methanosarcinaceae when incubated at high temperature. Our results show that moderately thermophilic methanogens are common in temperate soils. However, RC-I methanogens are not always dominating or ubiquitous.
来自意大利韦尔切利的温带稻田土壤含有尚未培养的水稻群I(RC-I)中的中度嗜热产甲烷菌,在45-50摄氏度的温度下培养时这些产甲烷菌会变得普遍。我们研究了这种嗜热产甲烷菌是否普遍存在于缺氧土壤中。将不同的稻田土壤(来自意大利、中国和菲律宾)以及水淹河岸土壤(来自荷兰)在45摄氏度下培养,约10天的滞后期后产生了旺盛的甲烷生成。通过针对从土壤中获取的SSU rRNA基因的末端限制性片段长度多态性(T-RFLP)以及克隆和测序分析了土壤中的古菌群落结构。RC-I产甲烷菌的克隆大多表现出393 bp的末端限制性片段(T-RF),但也有158和258 bp长度的末端限制性片段,这表明其多样性比之前假设的更大。最初在水淹河岸土壤中未发现RC-I产甲烷菌。然而,在45摄氏度下培养土壤后这些古菌变得丰富起来。在帕维亚、皮拉和加潘的稻田土壤中也发现了嗜热RC-I产甲烷菌。然而,这些土壤中的古菌群落高温下还包含其他产甲烷古菌。另一方面,布加隆的稻田土壤只含有嗜热甲烷微菌目而不是RC-I产甲烷菌,句容的稻田土壤大多是甲烷微菌目且只有少数RC-I产甲烷菌。镇江的稻田土壤在高温下培养时古菌群落几乎完全由甲烷八叠球菌科组成。我们的结果表明中度嗜热产甲烷菌在温带土壤中很常见。然而RC-I产甲烷菌并不总是占主导或普遍存在。
