Happy to share our work in @natcomms.nature.com
Link: www.nature.com/articles/s41...
We show that cable bacteria can actively grow under anoxic conditions using extracellular electron transfer to insoluble electron acceptors, with growth rates comparable to aerobic respiration.
🪸 We're hiring a PhD student in microbial ecology of crustose coralline algae! Fully funded 3-year position jointly hosted at SZN Genova & MPI-MM Bremen, with fieldwork in Belize, Seychelles & Fiji. ⏰ Deadline: May 21, 2026
#PhD #MarineScience #Microbiology #OpenPosition
In this study, the authors show that cable bacteria perform extracellular electron transfer via direct and flavin-mediated pathways, which enables growth under anoxic conditions at rates comparable to...
www.nature.com
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We invite applications for a PhD student to work on the microbiomes of crustose coralline algae (CCA) across tropical mangrove–seagrass–reef corridors.
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Extracellular electron transfer in cable bacteria enables growth rates comparable to aerobic respiration www.nature.com/articles/s41... #jcampubs
