Probing sedimentary DOM in the deepest sector of Earth's surface

Autor:	Ding He, Tingcang Hu, Joris M. Gieskes, Urban J. Wünsch, Yunping Xu, Duofu Chen, Min Luo, Jiasong Fang
Jazyk:	angličtina
Rok vydání:	2021
Předmět:	chemistry.chemical_classification geography Optical property geography.geographical_feature_category Hadal trench Geochemistry Abyssal plain Hadal zone General Chemistry Oceanography Abyssal zone Degradation chemistry Dissolved organic carbon Trench Mariana Trench Environmental Chemistry Organic matter Dissolved organic matter Forearc Geology Water Science and Technology
Zdroj:	Hu, T, Luo, M, Wünsch, U J, He, D, Gieskes, J, Xu, Y, Fang, J & Chen, D 2021, ' Probing sedimentary DOM in the deepest sector of Earth's surface ', Marine Chemistry, vol. 237, 104033 . https://doi.org/10.1016/j.marchem.2021.104033
DOI:	10.1016/j.marchem.2021.104033
Popis:	It has been suggested that hadal trenches are depocenters of organic matter and hotspots for microbial activities . Here, we measured the concentrations of pore-water dissolved organic carbon (DOC) in the seven short cores retrieved from three trenches (i.e., the Mariana Trench, the Mussau Trench, and the New Britain Trench), and analyzed the optical properties of pore-water dissolved organic matter (DOM) from the axis, forearc, and abyssal sediments in the southern Mariana Trench. The positive correlation between the average DOC concentrations and the in-situ total oxygen uptakes among the three trenches suggests that rate of organic matter degradation and redox condition likely control the downcore pore-water DOC concentrations in hadal sediments. Furthermore, analysis of fluorescence DOM reveals a higher carbon-normalized fluorescence of components emitting in the visible (“humic” and “fulvic”-like) at the Mariana Trench axis than at the abyssal plain and forearc. Together with the downcore increase in humification indices and absorbance ratios at the trench axis cores, this points at a significant accumulation of highly degraded, persistent, low-molecular-weight DOM produced by intensified microbial respiration at the trench axis. To our knowledge, this is the first study that examines the features of pore-water DOM in hadal trenches, which provides additional supports for the argument that microbial activities are enhanced at the trench axis and has implication for understanding DOM cycling in deep-sea sediments.
Databáze:	OpenAIRE
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