Arctic permafrost soils store large amounts of organic matter that is sensitive to temperature increases and subsequent microbial degradation to methane (CH4 ) and carbon dioxide (CO2 ). Here, we studied methanogenic and methanotrophic activity and community composition in thermokarst lake sediments from Utqiagvik (formerly Barrow), Alaska. This experiment was carried out under in situ temperature conditions (4°C) and the IPCC 2013 Arctic climate change scenario (10°C) after addition of methanogenic and methanotrophic substrates for nearly a year. Effects of trimethylamine (TMA) amendment with warming showed highest maximum CH4 production rates, being 30% higher at 10°C than at 4°C. Maximum methanotrophic rates increased by up to 57% at 10°C compared to 4°C. 16S rRNA sequencing indicated high relative abundance of Methanosarcinaceae in TMA amended incubations, and for methanotrophic incubations Methylococcaeae were highly enriched. Anaerobic methanotrophic activity with nitrite and nitrate as electron acceptors was not detected. This study indicates that the methane cycling microbial community can adapt to temperature increases and their activity is highly dependent on substrate availability. This article is protected by copyright. All rights reserved.