About this Research Topic
Among geochemical tools, stable isotopes have evolved to be a powerful probe of environmental conditions and biogeochemical processes. For more than sixty years, traditional stable isotope systems (e.g., sulfur and carbon isotopes) have significantly advanced our understanding of the co-evolution of life and the environment on Earth’s surface. Still, insight about the effects of marine diagenesis on these systems is continuously being deepened by targeted studies of modern environments and the application of novel analytical (e.g., in-situ measurements) and modeling techniques to new sedimentary archives. New isotopic tools (e.g., lithium, multiple sulfurs, chromium, iron, zinc, molybdenum, barium and uranium isotopes, carbonate clumped) have shown exciting prospects for exploring biogeochemical cycles and Earth’s surface environment, but our understanding of the geochemical behavior of these new isotopic systems during marine diageneses is still very limited. Knowledge obtained from modern environments will not only test the inferences currently being made on the basis of these isotopic systems but may also reveal novel applications for them. We seek to promote a nuanced understanding of the effects of diagenesis on isotope-based signatures in marine sediments, to establish approaches for the use of these signatures as robust means of reconstructing ancient sedimentary environments.
We encourage contributions from those applying geochemical tools (including but not limited to stable isotopes) to marine sediments to constrain biogeochemical processes and environmental conditions. Experimental, observational, and modeling studies are welcome. Studies of modern marine sediments are central to revealing the behavior of various isotopic systems during diagenesis, which is essential for the development of these systems as geochemical proxies. Concurrently, the application of well-understood geochemical proxies to ancient marine sedimentary rocks reveals the past operation of global biogeochemical cycles and the evolution of the Earth’s surface. Thus, we welcome studies on both modern and ancient sediments in this Research Topic.
Keywords:氧化还原条件下,稳定Isotopes, Geochemistry, Biogeochemical Process, Early Diagenesis, Authigenic Mineral; Marine Sediments; Continental Shelf; Deep Sea
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