13 / 2024-08-10 13:07:56
The Cycling of Dissolved Organic Nitrogen-from Coastal to Deep Ocean
dissolved organic nitrogen, nitrogen isotope
Session 3 - The nitrogen cycle towards a sustainable ocean: from microbes to global biogeochemistry
Abstract Accepted
Yu Xin / Ocean University of China
Ding He / The Hong Kong University of Science and Technology;Southern Marine Science and Engineering Guangdong Laboratory
Zhou Liang / Florida State University;Carnegie Institution for Science
Zhenwei Yan / The Hong Kong University of Science and Technology;the Southern Marine Science and Engineering Guangdong Laboratory
Jiping Wang / Ocean university of China
Chengzhe Sun / Ocean University of China
Wenqi Xu / Ocean University of China
Tiantian Ge / Ocean University of China
Dissolved organic nitrogen (DON) is one of the major chemical forms in marine nitrogen inventory. The DON cycling is closely coupled with DOC cycling, so that it significantly impact the DOC cycling and stocks in the ocean. Even though substantial progresses have been achieved in the nitrogen cycling, such as nitrate, nitrite, and particulate nitrogen cycling, we barely have a clear picture of the cycling processes of DON in the marine environment as a result of very limited DON concentration data, isotopic data and other parameters that might assist the interpretation of DON cycling like optical spectrum, amino acid enantiomers etc.. Thus, we should take several measures, separately or in a combined manner, to advance our understanding of the sources, sinks and transformations of DON from coastal zones to the pelagic seas (Fig.1). Firstly, high quality concentration data of DON should be produced with satisfactory spatial and temporal sampling density, under one consensus standard procedure, so that the DON data of different research group are comparable and a compiled DON dataset on coastal zones and deep sea could be available for modelling study. Secondly, more DON isotope of coastal samples and deep sea samples should be measured with fair quality either by traditional isotope mass balance method or other innovative method. Thirdly, optical properties, molecular and structural analysis should be combined in analyses to unveil the DON black box and to benefit the interpretation of DON isotope and cycling. Finally, the acquisition of large quantity of DON sample should greatly advance the analysis and examination of DON bioavailability, functional group characterization, and novel N containing molecules screening. Hereby, a few study cases on DON cycling across marginal sea of China, Northwestern Pacific are presented to emphasize the unique role of DON cycling in different types of marine environment.

Fig. 1 A conceptual scheme of DON cycling in marine environment