Isolation Chip Increases Culturable Bacterial Diversity and Reduces Cultivation Bias.

Conventional cultivation methods, including petri dish plating, are selective and biased to enrich specific microorganisms, such as big population and fast-growing bacteria. In this study, we evaluated the ability of isolation chip (ichip) to reduce cultivation bias. We used the ichip and petri dish plating methods to cultivate bacteria from soil contaminated with (contaminated soil) or without (natural soil) crude oil. Ichip improved the richness and evenness of bacterial isolates in both the natural and contaminated soil samples. Using the petri dish plating method, Pseudomonas and Lysinibacillus isolates were found to be the most abundant, with over 50% of the relative abundance in the natural and oil-polluted soil-cultured communities, respectively. In comparison, using the ichip method, the isolates with the highest relative abundances were from Bacillus and Aeromonas in natural and contaminated soil-cultured communities, which only accounted for 20% and 28% of the total isolates, respectively. Interestingly, the evenness and richness of the bacteria varied slightly between the natural and oil-polluted soil samples, indicating that ichip had the ability to reduce the cultivation bias. In addition, oil selective pressure enriched the functional bacteria isolated using the petri dish plating method. In summary, ichip allows bacteria to grow evenly, as well as allowing for substance exchange between the environment and single cells. As such, it is a very good method for increasing culturable bacterial diversity and reducing cultivation bias.