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Activity of Root-Knot Nematodes associated with Composition of a Nematode-Attached Microbiome and the Surrounding Soil Microbiota.

Olivera TopalovićFrederik BakSusana Silva SantosMd Maniruzzaman SikderRumakanta SapkotaFlemming EkelundMette Haubjerg NicolaisenMette Vestergård
Published in: FEMS microbiology ecology (2023)
We investigated if activity of the pre-infective juveniles (J2s) of root-knot nematodes is linked to the recruitment of a specific microbiome on the nematode surface and/or to the composition of the surrounding microbiota. For this, we determined the J2 activity (active vs. non-motile that referred to dead and immobile J2s) upon a 3-day incubation in soil suspensions and studied the composition of bacteria, protists and fungi present on the nematode surface and in the suspensions using amplicon sequencing of the 16S/18S rRNA genes, and ITS region. We also amended suspensions with n CHA0 to study its effects on J2 activity and microbial composition. The J2 activity was suppressed in soil suspensions, but increased when suspensions were amended with P. protegens CHA0. The active and non-motile J2s differed in the composition of surface-attached bacteria, which was altered by the presence of P. protegens CHA0 in the soil suspensions. The bacterial genera Algoriphagus, Pedobacter and Bdellovibrio were enriched on active J2s and may have protected the J2s against antagonists. The incubation time appeared short for attachment of fungi and protists. Altogether, our study is a step forward in disentangling the complex nematode-microbe interactions in soil for more successful nematode control.
Keyphrases
  • gene expression
  • risk assessment
  • mass spectrometry
  • genome wide