文献类型：期刊文献

英文题名：Changes in fronts regulate nitrate cycling in Zhanjiang Bay: A comparative study during the normal wet season, rainstorm, and typhoon periods

作者：Zhou, Xin[1];Zhang, Shuwen[1];Chen, Chunqing[2];Lao, Qibin[2];Chen, Fajin[2]

机构：[1]Shantou Univ, Inst Marine Sci, Guangdong Prov Key Lab Marine Disaster Predict & P, Shantou 515063, Peoples R China;[2]Guangdong Ocean Univ, Coll Ocean & Meteorol, Zhanjiang 524088, Peoples R China

年份：2024

卷号：931

外文期刊名：SCIENCE OF THE TOTAL ENVIRONMENT

收录：SCI-EXPANDED(收录号：WOS:001239553800001)、、EI(收录号：20241916034684)、Scopus(收录号：2-s2.0-85192094193)、WOS

基金：This work was supported by National Natural Science Foundation of China (92158201, 42376001, U1901213) , Entrepreneurship Project of Shantou (2021112176541391) , Scientific Research Start -Up Foundation of Shantou University (NTF20006) .

语种：英文

外文关键词：Nitrate dual isotopes; Rainstorm; Typhoon; Oceanic front; Zhanjiang Bay

外文摘要：Typhoons and rainstorms (>250 mm/day) are extreme weather events changing hydrological characteristics and thus nitrogen (N) cycle in coastal waters. However, responses of N cycle to rainstorms and typhoons and their underlying mechanisms need to be elucidated. In this study, we conducted an analysis of a comparative dataset encompassing concentrations of nitrate (NO3-), ammonium (NH4+), dissolved oxygen (DO), chlorophyll a (Chl a), hydrological parameters, dual isotopic composition of NO3- (delta N-15-NO3- and delta O-18-NO3-) in Zhanjiang Bay during three distinct periods: the normal wet season, rainstorm, and typhoon periods. After the rainstorm, the salinity front in Zhanjiang Bay was more weakened and steadier than that during the normal wet season, mainly because onshore wind and a large amount of freshwater was inputted into the ocean surface. This weakened and steady salinity front strengthened water stratification and provided a favorable condition for phytoplankton blooms. Correspondingly, evident NO3- deficits coincided with elevated delta N-15-NO3- and delta O-18-NO3- values indicated that sufficient NO3- sustained phytoplankton blooms, leading to NO3- assimilation during the rainstorm period. By contrast, due to the onshore wind induced by the typhoon, the salinity front in Zhanjiang Bay was more intensified and unsteady after the typhoon than the normal wet season. The salinity front after the typhoon was unsteady enough to enhance vertical mixing in the water column. Relatively high DO concentrations suggested that enhanced vertical mixing after the typhoon support freshly organic matter decomposition and nitrification via oxygen injection from the air into the water column. In addition, NO3- deficits coincided with elevated delta N-15-NO3- values and delta O-18-NO3- values demonstrated the coexistence of NO3- assimilation during the typhoon period. This study suggests that the changing processes involved in NO3- cycling after typhoons and rainstorms are associated with the stability and intensity of the salinity front altered by these weather events.