For­schungs­grup­pe Treib­haus­ga­se

The Research Group Greenhouse Gases investigates microbial processes that lead to the production and consumption of methane and nitrous oxide in aquatic environments. We aim to identify microbial processes, the responsible microorganisms and the metabolic capacities of these microorganisms in marine and freshwater water columns and sediments.

Our research has a strong field going aspect but we complement on-site biogeochemical studies with extensive laboratory-based experimental and analytical work.

Recent News and Publications

16. October 2023

New Paper: Methylphosphonate-driven methane formation and its link to primary productivity in the oligotrophic North Atlantic

Our pa­per on ae­ro­bic me­tha­ne pro­duc­tion in the tro­pi­cal North At­lan­tic, lead by Jan von Arx just came out in Nature Communications. 

We in­ves­ti­ga­ted how mi­cro­or­ga­nisms in sur­face wa­ters un­in­ten­tio­nal­ly pro­du­ce me­tha­ne whi­le try­ing to ob­tain phos­pho­rus, an ele­ment that is sc­ar­ce in most oce­ans.  

The press re­lease for our ar­ti­cle can be found HERE.

14. February 2022

New Paper: Diverse methylotrophic methanogenic archaea cause high methane emissions from seagrass meadows

Our pa­per on me­tha­ne emis­si­ons from se­agrass mea­dows, lead by Sina Schorn just came out in PNAS. 

We de­scri­be the or­ga­nisms and me­cha­nisms that cau­se me­tha­ne emis­si­ons from the­se blue car­bon eco­sys­tems and we re­veal that me­tha­ne con­ti­nues to be for­med in se­agrass mea­dows long af­ter they died off. 

Read the ac­com­pany­ing fea­ture in the Max Planck Re­se­arch Ma­ganzine (pg. 56) HERE. 

The press re­lease for our ar­ti­cle can be found HERE.

03. March 2021

New Paper - Anaerobic endosymbiont generates energy for ciliate host by denitrification 

Our pa­per on a de­ni­tri­fy­ing en­do­sym­bi­ont that ge­ne­ra­tes en­er­gy for its ci­lia­te host, lead by Jon Graf, just came out in Nature. We show that an ob­li­ga­te en­do­sym­bi­ont, Candidatus Azoa­mi­cus ci­lia­ti­co­la, can re­spi­re and pro­vi­de en­er­gy for its host, an an­ae­ro­bic plagio­py­le­an ci­lia­te. In­tri­guingly, Azoa­mi­cus only en­codes the de­ni­tri­fi­ca­ti­on pa­thway ins­tead of ter­mi­nal oxi­da­ses, which enables its host to brea­the ni­tra­te ins­tead of oxy­gen. This un­pre­ce­den­ted sym­bio­sis rai­ses the pos­si­bi­li­ty that eu­ka­ryo­tes with mi­to­chon­dri­al rem­nants may se­con­da­ri­ly ac­qui­re en­er­gy-pro­vi­ding en­do­sym­bi­onts to com­ple­ment or re­place func­tions of their mi­to­chon­dria.

Read the ac­com­pany­ing News and Views ar­ti­cle from Le­wis and Et­te­ma and lis­ten to the Nature Podcast whe­re Jana Milucka talks about our dis­co­very.

The press re­lease for our ar­ti­cle can be found HERE.

17 – 28. August 2020

Fieldwork at Lake Zug and Lake Lugano 

In col­la­bo­ra­ti­on with our col­le­agues from the Bio­geo Group at the MPI and from the Ea­wag we went on an ex­pe­di­ti­on to Lake Zug and Lake Lu­ga­no (CH). We took sam­ples to in­ves­ti­ga­te the mi­cro­bi­al pro­ces­ses pro­du­cing and con­su­ming me­tha­ne in the an­oxic wa­ters and se­di­ments of the­se two lakes. Also, we fi­nal­ly got the op­por­tu­ni­ty to test our new mini-pump CTD sys­tem.