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Title:	Marine ammonia-oxidizing archaeal isolates display obligate mixotrophy and wide ecotypic variation
Source:	Proceedings of the National Academy of Sciences of the United States of America [0027-8424] Qin, W yr:2014

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description	1.	KÃnneke, M. "Ammonia-oxidizing archaea use the most energy-efficient aerobic pathway for CO2 fixation." Proceedings of the National Academy of Sciences of the United States of America 111.22 (2014): 8239-8244.
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description	8.	Salazar, D. "Microbial nitrogen dynamics in south central Chilean agricultural and forest ecosystems located on an Andisol." Nutrient cycling in agroecosystems 89.2 (2010): 175-187.
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description	10.	Jia, Z. "Bacteria rather than Archaea dominate microbial ammonia oxidation in an agricultural soil." Environmental microbiology 11.7 (2009): 1658-1671.
description	11.	Thauer, Rudolf K K. "Methanogenic archaea: ecologically relevant differences in energy conservation." Nature reviews. Microbiology 6.8 (2008): 579-91.
description	12.	Schleper, C. "Diversity and abundance of Crenarchaeota in terrestrial habitats studied by 16S RNA surveys and real time PCR." Environmental microbiology 5.9 (2003): 787-97.
description	13.	Rutigliano, FA. "Soil microbial metabolism and nutrient status in a Mediterranean area as affected by plant cover." Soil biology & biochemistry 36.11 (2004): 1719-1729.
description	14.	Canfield, J W W. "The anaerobic degradation of organic matter in Danish coastal sediments: iron reduction, manganese reduction, and sulfate reduction." Geochimica et cosmochimica acta 57.16 (1993): 3867-83.
description	15.	Santruckova, H. "Heterotrophic fixation of CO2 in soil." Microbial ecology 49.2 (2005): 218-225.
description	16.	Chaban, B. "Archaeal habitats - from the extreme to the ordinary." Canadian journal of microbiology 52.2 (2006): 73-116.

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