Dysoxic marine waters (DMW,< 1 μM oxygen) are currently expanding in volume in the
oceans, which has biogeochemical, ecological and societal consequences on a global …

Microorganisms play an important role in arsenic (As) cycling in the environment. Microbes
mobilize As directly or indirectly, and natural/geochemical processes such as sulphate and …

Hadal trenches are the deepest and most remote regions of the ocean. The 11-kilometer
deep Challenger Deep is the least explored due to the technical challenges of sampling …

Anaerobic methane oxidation is coupled to the reduction of electron acceptors, such as
sulfate, and contributes to their biogeochemical cycling in the environment. However …

Elevated arsenic (As) is common in geothermal springs, shaping the evolution of As
metabolism genes and As transforming microbes. Herein, genome-level microbial …

Dissimilatory arsenate-respiring prokaryotes (DARPs) are considered to be a key impetus of
the reductive dissolution of solid-phase arsenic. However, little is known about the …

Abstract Background Arsenic (As) metabolism pathways and their coupling to nitrogen (N)
and carbon (C) cycling contribute to elemental biogeochemical cycling. However, how …

Enzymes catalyze key reactions within Earth's life-sustaining biogeochemical cycles. Here,
we use metaproteomics to examine the enzymatic capabilities of the microbial community …

The microbial metabolism of arsenic plays a prominent role in governing the
biogeochemical cycle of arsenic. Although diverse microbes are known to be involved in the …

Ocean oxygen minimum zones (OMZs) around the global ocean are expanding both
horizontally and vertically. Multiple studies have identified the significant influence of anoxic …