Benthic Microbial Communities and Environmental Parameters of Estuary and Hypoxic Zone in the Bohai Sea, China

The sediment microbial community plays a key role in the cycling of organic matter in marine ecosystems. The characteristics of the sediment microbial community are significantly related to changes in the environment. In this study, we analyzed the diversity and distribution of microbial communities in sediments from different geographical regions (the Liao River estuary, Yellow River estuary, hypoxic zone, and offshore zone) of the Bohai Sea using high-throughput sequencing. The results showed that the community richness and diversity (especially the unique diversity) of the Liao River estuary were larger than those of the Yellow River estuary, hypoxic zone, and offshore zone. The phylum Proteobacteria dominated in the Liao River estuary (46.26%), hypoxic zone (76.19%), and offshore zone (69.79%), while the dominant phylum in the Yellow River estuary was the Bacteroidetes phylum. The genus Gillisia was the dominant genus in both the Liao River estuary and Yellow River estuary. The offshore zone and hypoxic zone shared the same dominant Photobacterium genus. The results of Pearson correlation and redundancy analysis showed that environmental parameters such as nitrite, silicate, nitrate, phosphate, ammonia, dissolved oxygen, pH, and salinity interfered significantly with the structure and diversity of the microbial community. The results of this study will provide support for future research on the interaction mechanism of pollutants and microorganisms in the estuaries and a typical hypoxic zone of the Bohai Sea

Obesity, metabolic syndrome, diabetes and smoking

It is becoming increasingly clear that arterial stiffness may be determined not only by age(ing) and blood pressure, but also by exposure to other cardiovascular risk factors. This chapter reviews the evidence provided by studies adopting an aetiological model of analyses of determinants of arterial stiffness, mainly derived, if available, from prospective designs. Specifically, the following risk factors are examined: the critical axis (central) obesity – metabolic syndrome – (type 2) diabetes, and also smoking. There is convincing evidence, reinforced by recent aetiological prospective studies, that these risk factors, all of which may be preventable, increase arterial stiffness. This may explain, at least in part, the increased cardiovascular disease risk observed in these conditions. However, the molecular basis of greater arterial stiffness associated with these risk factors remains to be fully elucidated. In addition, the prognostic significance of arterial stiffness indices in individuals with these risk factors, and the extent to which intervention on these risk factors improves cardiovascular outcome through beneficial impact on arterial stiffness, is still unclear. Given the high and/or increasing prevalence of these risk factors, these issues constitute an important research agenda