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Abstract
Ammonia-oxidizing bacteria (AOB) and aerobic methane oxidizing-bacteria (MOB) were studied in three extreme soils of the former Lake Texcoco, Mexico, with pH ranging from 8.5 to 10.5 and electrolytic conductivity (EC) from 0.67 to 84.76 dS m−1, and in two arable soils. Soil DNA was extracted with three different methods and total DNA was used as a template to amplify the pmoA and amoA functional genes and subsequently sequenced by pyrosequencing. The amoA gene sequences clustered as uncultured AOB dominated in the Texcoco soils, while Nitrosospira was dominant in the arable soils. Sequences of MOB associated with Nitrosococcus-rel (Type I) dominated (>85%) in the Texcoco soils, but they were more diverse in the arable soils, for example, JR2, JR3, Methylocaldum USC-g (Type I), USC-a (Type II) and gp23 (pxmA). Aerobic methane oxidizing-bacteria and AOB microbial diversity were significantly related to EC and pH (p < 0.05). As such, the lower MOB and AOB microbial diversity in the Texcoco soil compared to the arable soil was determined by its higher EC and pH.
Acknowledgments
The authors thank Comisión Nacional del Agua (CNA) for access to the former Lake Texcoco.
Disclosure statement
No potential conflict of interest was reported by the author(s).