Jump to Main Content
- Zang, Jiaye, et al. Show all 7 Authors
- The Science of the total environment 2020 v.713 pp. 136389
- anthropogenic activities; apatite; coasts; dissolved oxygen; estuaries; eutrophication; hypoxia; kinetics; orthophosphates; oxygen; phosphorus; river plume; rivers; sediments; Yangtze River
- ... Anthropogenic activities have greatly accelerated phosphorus (P) inputs from land to coastal seas. The increased P inputs from major rivers can cause adjacent coastal areas to experience seasonal hypoxia with the enhancing coastal eutrophication, which can subsequently increase P cycling and alter long term preservation. Analysis of sediment core measurements including SEDEX P speciation coupled w ...