Newly dis­covered meth­ane con­sumers in lakes

When de­cay­ing or­ganic mat­ter sinks to the bot­tom of a lake or ocean, meth­ane is pro­duced as the bio­mass is broken down. Some of the meth­ane is re­leased from the sur­face into the at­mo­sphere, where it acts as a po­tent green­house gas, while some is broken down by mi­croor­gan­isms in the wa­ter column. An in­ter­na­tional re­search group around Kirsten Os­wald from Eawag (Switzer­land) and Jana Milucka from the Max Planck In­sti­tute for Mar­ine Mi­cro­bi­o­logy in Bre­men now re­ports that, as well as the “clas­sical” meth­ane con­sumers, fil­a­ment­ous bac­teria of the genus Crenothrix are also in­volved in the meth­ane re­moval pro­cess. The study has just been pub­lished in The ISME Journal.

Chance discovery

The role played by Crenothrix bac­teria – pre­vi­ously little stud­ied in the en­vir­on­ment – was dis­covered by chance, when the re­search­ers were seek­ing to quantify meth­ane re­moval in the Rot­see (Can­ton Lu­cerne) and Lake Zug with the aid of stable iso­tope la­belling. In this method, meth­ane mo­lecules are la­belled with heavy car­bon-13 atoms; when ¹³C-la­belled meth­ane is as­sim­il­ated by bac­teria, the in­di­vidual cells can be visu­al­ized by means of ima­ging mass spec­tro­metry. “Typ­ic­ally these are small round or rod-shaped cells”, says Jana Milucka. In this case, however, the bac­teria en­riched with ¹³C were not only single round cells but also long, fil­a­ment­ous vari­et­ies (see photo). This find­ing was very sur­pris­ing, as so far the re­search­ers did­n’t know these fil­a­ment­ous bac­teria could oc­cur so abund­antly in nature. “We then star­ted won­der­ing about their role in the en­vir­on­mental re­moval of meth­ane”, says Milucka.

Commonly known as well-thread

Eawag geo­lo­gist Carsten Schubert – an ex­pert on mi­cro­bial de­grad­a­tion of meth­ane in wa­ter – was also sur­prised by the group’s find­ings in the two Cent­ral Swiss lakes. While the large fil­a­ment­ous Crenothrix bac­teria have long been known, they are only fa­mil­iar as a con­tam­in­ant in drink­ing wa­ter sys­tems (hence their name “well-thread”), where their pro­lif­er­a­tion can cause clog­ging of pipes, sand fil­ters and screens. Crenothrix bac­teria have not pre­vi­ously been de­tec­ted in lake wa­ter, be­cause they have not been spe­cific­ally sought and they are dif­fi­cult to identify with mo­lecu­lar ge­netic meth­ods. Schubert con­cludes: “We seem to have com­pletely un­der­es­tim­ated their role in the biogeo­chem­ical cycle.” The re­search­ers have now shown that Crenothrix are not only a stable part of the mi­cro­bial com­munity in fresh­wa­ter lakes but may even be the most im­port­ant meth­ane con­sumers.

Original publication

Kirsten Os­wald, Jon S Graf, Sten Littmann, Daniela Tien­ken, An­dreas Brand, Bernhard Wehrli, Mads Al­bertsen, Hol­ger Daims, Mi­chael Wag­ner, Mar­cel MM Kuypers, Carsten J Schubert and Jana Milucka (2017): Creno­thrix are ma­jor meth­ane con­sumers in strat­i­fied lakes; ISME Journal (2017) 00, 1–17. doi: 10.1038/ismej.2017.77

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