EGU22-3278
https://doi.org/10.5194/egusphere-egu22-3278
EGU General Assembly 2022
© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Investigating microbial constraints on hydrocarbon processing in Guaymas Basin subseafloor sediments with sill intrusions 

Andreas, P. Teske1, Paraskevi Mara2, Mirna Vázquez3, Brett Baker3, Yuki Morono4, Virginia Edgcomb2, and the Expedition 385 Scientists*
Andreas, P. Teske et al.
  • 1University of North Carolina at Chapel Hill, Carrboro, United States of America (teske@email.unc.edu)
  • 2Woods Hole Oceanographic Institution, Woods Hole, United States of America (pmara@whoi.edu)
  • 3University of Texas at Austin, Port Aransas, United States of America (mirnavrl@gmail.com)
  • 4University of Texas at Austin, Port Aransas, United States of America (acidophile@gmail.com)
  • *A full list of authors appears at the end of the abstract

Guaymas Basin is a young marginal rift basin in the Gulf of California characterized by active seafloor spreading and rapid deposition of organic-rich sediments derived from highly productive overlying waters and terrigenous sediments from nearby continental margins. Catalyzed by the steep geothermal gradient, sedimentary organic material of photosynthetic origin turns into a diverse spectrum of hydrocarbons that accumulate especially in deep, hot sediments, and might supply substrates for hydrocarbon-degrading microorganisms. The “from magma to microbe” perspective on these processes motivated International Ocean Discovery Program Expedition 385“Guaymas Basin Tectonics and Biosphere.”

Hydrocarbon concentrations were determined in sediment samples selected from eight drilling sites on the flanking regions and in the northern axial graben of Guaymas Basin. Total petroleum hydrocarbon (C9-C44) concentrations increased from ca. 50-250 mg/kg towards >2000 mg/kg at in-situ temperatures above 80°C. A similar increase from ca. 10 mg/kg towards >100 mg/kg was observed for total saturated hydrocarbons. These gradients are shaped by abiotic hydrocarbon generation above 80°C at depth, and possibly by microbial hydrocarbon degradation at cooler temperatures in the upper sediment column. In a two-pronged approach, we are currently investigating the activity of bacterial/fungal consortia, isolated from Guaymas Basin surficial sediments, in the oxidation of selected alkanes and polyaromatics that occur at Guaymas Basin. In parallel, we explore the diversity, depth range and in-situ temperature range of bacteria, archaea and fungi in the Guaymas Basin subsurface sediments using PCR and metagenomic sequencing, to constrain microbial hydrocarbon cycling in the deep subsurface. Updates on these ongoing investigations will be presented.

Expedition 385 Scientists:

Andreas P. Teske; Daniel Lizarralde; Tobias W. Höfig; Ivano W. Aiello; Janine L. Ash; Diana P. Bojanova; Martine Buatier; Virginia P. Edgcomb; Christophe Y. Galerne; Swanne Gontharet; Verena B. Heuer; Shijun Jiang; Myriam A.C. Kars; Ji-Hoon Kim; Louise M.T. Koornneef; Kathleen M. Marsaglia; Nicolette R. Meyer; Yuki Morono; Raquel Negrete-Aranda; Florian Neumann; Lucie C. Pastor; Manet Peña-Salinas; Ligia L. Pérez Cruz; Lihua Ran; Armelle Riboulleau; John A. Sarao; Florian Schubert; S. Khogenkumar Singh; Joann M. Stock; Laurent M.A.A. Toffin; Wei Xie; Toshiro Yamanaka; Guangchao Zhuang

How to cite: Teske, A. P., Mara, P., Vázquez, M., Baker, B., Morono, Y., and Edgcomb, V. and the Expedition 385 Scientists: Investigating microbial constraints on hydrocarbon processing in Guaymas Basin subseafloor sediments with sill intrusions , EGU General Assembly 2022, Vienna, Austria, 23–27 May 2022, EGU22-3278, https://doi.org/10.5194/egusphere-egu22-3278, 2022.