Coastal eutrophication caused by anthropogenic nutrient inputs is one of the greatest threats
to the health of coastal estuarine and marine ecosystems worldwide. Globally,∼ 24% of the …

This review examines the current understanding of the global coastal ocean carbon cycle
and provides a new quantitative synthesis of air-sea CO2 exchange. This reanalysis yields …

The implications of climate change and other human perturbations on the oceanic carbon
cycle are still associated with large uncertainties. Global‐scale modelling studies are …

Sediment adsorption is one of the main fates of antibiotics in aquatic environments.
However, few studies have compared the physicochemical properties of sediments from the …

Phytoplankton communities in coastal upwelling systems are influenced by the interplay
between human-induced and natural climate forcing that vary regionally and the two factors …

Abstract The East China Sea (ECS) is a marginal sea with high productivity, especially in
summer. In the Zhejiang coastal region of ECS, the large phytoplankton biomass in summer …

Nitrogen nutrient surplus is the main cause of a series of environmental problems in the
Yangtze Estuary and its adjacent East China Sea (ECS). Denitrification plays an important …

Phytoplankton distribution in macrotidal estuaries varies strongly due to highly dynamic
conditions, contributing to the complexity of aquatic environments and marine ecosystems …

Abstract In the East China Sea, hypoxia (oxygen≤ 62.5 mmol m-3) is frequently observed off
the Changjiang (or Yangtze River) estuary covering up to about 15 000 km 2. The …

Global estuarine hypoxia is among the most acute environmental issues, yet the recognition
of hypoxia variability remains patchy. The Changjiang (Yangtze River) Estuary (CE) is well …