Abstract
Denitrification, an important process in microbial mediated nitrogen cycle, plays important roles in nitrogen loss in estuarine sediments. However, the function of denitrifiers in the estuarine subsurface sediments remained poorly understood. In this study, we analyzed the potential activity, abundance and community structure of nirS-type denitrifiers using 15N-labeled incubation quantitative-PCR and high throughput sequencing techniques in sediment cores from Pearl River Estuary (PRE). Results showed that subsurface sediments had nearly same level denitrification potential activity compare to surface sediments, although the abundance of nirS gene decreased sharply from surface to bottom in sediment cores. Meanwhile, nirS gene abundance exhibit significant temporal variations, which is consistent with denitrification potential activity. Moreover, the community structure and diversity of nirS-type denitrifiers in sediment cores exhibited remarkable temporal shift pattern. For spatial variation, no significant difference was observed of denitrifiers community structure in each sediment core from the surface to the subsurface, while there were significant different diversity characteristic among different cores. Redundancy analysis (RDA) showed that multiple environmental factors including salinity, pH, oxidation-reduction potential, nutrient content and organic substances synergistically shaped the diversity and distribution of nirS-type denitrifers in PRE sediments. Our results showed that nirS-type denitrifers played important roles in the nitrogen removal in subsurface sediments of PRE.
Highlights
Microbe-mediated denitrification is a biogeochemical process, where nitrate (NO3-) is reduced stepwise to gaseous end-products, such as nitric oxide (NO), nitrous oxide (N2O) and nitrogen gas (N2) [1]
The sediment pore water from each sliced section was extracted by centrifugation at 5,000 rpm for 20 min (Eppendorf 5804R), and filtered through 0.22 μM membrane for dissolved inorganic nitrogen analysis. pH and Oxidation-Reduction Potential (ORP) of sediments were recorded with a multi-parameter water quality analyzer (YSI 6600, USA) and ORP meter (Mettler-Toledo, Switzerland), respectively
No significant difference of nirS gene abundance was observed among five sediment cores from upstream to downstream, except the significant high value in the sample of Pearl River Estuary (PRE)-1-WS
Summary
Microbe-mediated denitrification is a biogeochemical process, where nitrate (NO3-) is reduced stepwise to gaseous end-products, such as nitric oxide (NO), nitrous oxide (N2O) and nitrogen gas (N2) [1]. The produced gases are concomitantly released, causing a fixed nitrogen to be lost to the atmosphere [2]. These nitrous oxide greenhouse gases are significant contributors to global warming [3]. Denitrification is a redox process occurring only under anaerobic or low oxygen conditions [4,5,6], where NO3- or NO2- as the terminal electron acceptor produce NO, N2O and N2 through a sequence of electrochemical gradient and a series of oxidoreductases.
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