Scientific Reports (Dec 2023)

Soil bacterial community composition in rice-turtle coculture systems with different planting years

  • Ren Wang,
  • Weiwei Ma,
  • Dan Wu,
  • Yin Zhang,
  • Xuehu Ma,
  • Guangdong Lv,
  • Jiaolong Ding,
  • Zhiqiang Fu,
  • Can Chen,
  • Huang Huang

DOI
https://doi.org/10.1038/s41598-023-49701-1
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 9

Abstract

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Abstract The rice-turtle coculture system is the most special rice-fish integrated farming system. In this study, we selected four paddy fields, including a rice monoculture paddy and three rice-turtle paddies with different planting years, to investigate the soil bacterial community composition with Illumina MiSeq sequencing technology. The results indicated that the contents of soil available nitrogen (AN), soil available phosphorus (AP) and soil organic matter (OM) in 9th year of rice-turtle paddy (RT9) were increased by 5.40%, 51.11% and 23.33% compared with rice monoculture paddy (CK), respectively. Significant differences of Acidobacteria, Desulfobacteria, Crenarchaeota were observed among the different rice farming systems. The relative abundance of Methylomonadaceae, Methylococcaceae and Methylophilaceae in RT9 was significantly higher than that in other treatments. RT9 had significantly lower relative abundance of Acidobacteria, but significantly higher relative abundance of Proteobacteria than other treatments. Redundancy analysis showed that soil AN and AP contents were the major factors influencing the abundance of the dominant microbes, wherein Methylomonadaceae, Methylococcaceae and Methylophilaceae were positively correlated with OM. The findings revealed the rice-turtle coculture system in the 9th year had higher soil nutrients and soil bacterial diversity, but there was also a risk of increasing methane emissions.