posted on 2024-10-09, 09:07authored bySiqi Zhao, Lei Xing, Junhui Chen, Ziyang Yang, Yangli Che, Rui Xiao, Jianbo Yang, Rui Bao
Understanding the fate of terrestrial organic carbon
(terrOC) preservation
in the marine environments is critical for deciphering the biogeochemical
processes associated with the global carbon cycle and the Earth’s
climate change. The mechanisms controlling terrOC preservation are
not completely understood, while lateral oxygen exposure time (OET)
is considered as a critical controlling factor. Here, we first utilized
molecular dynamics simulations to investigate the structural properties
of lignin under anoxic, suboxic, and oxic conditions for understanding
the mechanisms of terrOC preservation during sediment lateral transport
in the ocean. Our finding suggested that oxygen exposure was indispensable
for terrOC degradation through influencing the structural stability
and reactivity of lignin. Our simulated results showed that in suboxic
environments, prolonged OET may enhance terrOC preservation. Our organic
geochemical results suggested that terrOC preferably preserved in
coarse silts (20–63 μm) than fine silts (<20 μm)
in suboxic environments, largely due to hydrodynamics-driven prolonged
OET in coarse sediments, which may efficiently reduce CO2 emissions. Overall, our study sheds new light on the mechanisms
of lateral OETs on terrOC preservation in suboxic conditions and,
from a unique molecular structural perspective, provides insights
into the impact of prolonged OETs on terrOC oxidative degradation
in the marine environment.