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机译:极性和亚极沿海环境对阴性沉积物的组分分析突出了厌氧烃劣化过程的相关性
Ctr Nacl Patagon Ctr El Estudio Sistemas Marinos CESIMAR CONICET Lab Microbiol Ambiental Blvd Brown 2915 U9120ACD Puerto Madryn Chubut Argentina;
Ctr Nacl Patagon Ctr El Estudio Sistemas Marinos CESIMAR CONICET Lab Microbiol Ambiental Blvd Brown 2915 U9120ACD Puerto Madryn Chubut Argentina;
Lawrence Berkeley Natl Lab Energy Geosci Div Berkeley CA USA;
Pacific Northwest Natl Lab Earth &
Biol Sci Directorate Richland WA USA;
Pacific Northwest Natl Lab Earth &
Biol Sci Directorate Richland WA USA;
Univ Buenos Aires CONICET Fac Farm &
Bioquim Inst Nanobiotec Buenos Aires DF Argentina;
UiT Arctic Univ Norway Fram High North Res Ctr Climate &
Environm Akvaplan Niva N-9037 Tromso Norway;
Sodertorn Univ Sch Nat Sci &
Environm Studies Huddinge Sweden;
Ctr Nacl Patagon Ctr El Estudio Sistemas Marinos CESIMAR CONICET Lab Microbiol Ambiental Blvd Brown 2915 U9120ACD Puerto Madryn Chubut Argentina;
Cold environments; Subtidal sediments; Hydrocarbons; Anaerobic biodegradation; Community structure; Metagenomics; Biomarker genes;
机译:极性和亚极沿海环境对阴性沉积物的组分分析突出了厌氧烃劣化过程的相关性
机译:降解厌氧烷烃的微生物的元基因组学分析:潜在的碳氢化合物活化途径和推断的社区成员的作用〜1
机译:来自四个极性和亚极区域的沿海海洋沉积物中存在微生物和病毒样罗摩辛
机译:从沿海沉积物中分离出的本地混合和纯净培养物降解多环芳烃(PAHs)
机译:培养物中的厌氧苯降解和地下环境中的烃降解。
机译:海洋沿海沉积物微生物碳氢化合物降解过程:组学时代实验生态学的贡献
机译:元基因组学揭示了来自慢性污染的南极和温带沿海海洋环境的大量未培养细菌的高多环芳烃降解潜力