桑沟湾磷循环

The phosphorus cycle is studied during 2013–2014 in the Sanggou Bay(SGB), which is a typical aquaculture area in northern China. The forms of measured phosphorus include dissolved inorganic phosphorus(DIP), dissolved organic phosphorus(DOP), particulate inorganic phosphorus(PIP), and particulate organic phosphorus(POP).DIP and PIP are the major forms of total dissolved phosphorus(TDP) and total particulate phosphorus(TPP),representing 51%–75% and 53%–80%, respectively. The concentrations and distributions of phosphorus forms vary among seasons relative to aquaculture cycles, fluvial input, and hydrodynamic conditions. In autumn the concentration of DIP is significantly higher than in other seasons(P0.01), and higher concentrations are found in the west of the bay. In winter and spring the phosphorus concentrations are higher in the east of the bay than in the west. In summer, the distributions of phosphorus forms are uniform. A preliminary phosphorus budget is developed, and shows that SGB is a net sink of phosphorus. A total of 1.80×10~7 mol/a phosphorus is transported into the bay. The Yellow Sea is the major source of net input of phosphorus(61%), followed by submarine groundwater discharge(SGD)(27%), river input(11%), and atmospheric deposition(1%). The main phosphorus sink is the harvest of seaweeds(Saccharina japonica and Gracilaria lemaneiformis), bivalves(Chlamys farreri),and oysters(Crassostrea gigas), accounting for a total of 1.12×10~7 mol/a. Burial of phosphorus in sediment is another important sink, accounting for 7.00×10~6 mol/a. Biodeposition by bivalves is the major source of phosphorus in sediment, accounting for 54% of the total.     

海洋环境中的厌氧铵氧化研究进展

海洋环境中的厌氧铵氧化过程作为实现固定态氮从海洋生态系统中移除的一个新途径,广泛地存在于各种海洋环境中,包括永久性缺氧水体、沉积物、海冰甚至海底热液,是海洋氮循环过程中一个非常重要的环节。开展海洋环境中厌氧铵氧化过程的研究可以更好地量化海洋氮循环过程中的收支,而这一收支在很大程度上影响着全球的气候变化。介绍了海洋环境中厌氧铵氧化过程研究历史,并分别讨论了在大洋缺氧水体和沉积物中厌氧铵氧化速率的分布情况,同时还总结了海洋环境因子如温度、氧气、硫化氢、NO3-/NO2-、NH4+以及有机物等对厌氧铵氧化的影响。最后探讨了该领域研究中所存在的问题并指出了亟待开展的工作:特定大洋缺氧水体中厌氧铵氧化与反硝化的争议以及近岸缺氧水体中厌氧铵氧化的研究;陆架及深海大洋沉积物中厌氧铵氧化的深入研究;对于全球海洋氮循环收支的重新评估。     

海洋中锰的生物地球化学循环研究

痕量元素在海洋生物地球化学循环中起的作用已受到越来越广泛的关注,近年来形成了新的国际科学计划———痕量元素及其同位素的海洋生物地球化学研究(GEOTRACES)。锰是GEOTRACES关键参数之一,国际GEOTRACES组织推荐各国组织的GEOTRACES航次对其在全球大洋中的分布进行重点研究。本研究就痕量元素锰的海洋生物地球化学研究进行了较为详细的综述,介绍了锰在海洋中的来源及输送通量、分布、水体中的赋存形式及其迁移转化、生态学功能以及主要的分析方法等。总结了在这一研究领域所取得的成果及存在的不足,并对今后的发展方向进行展望。