This review summarizes current knowledge on mechanical (artificial mixing, hypolimnetic
aeration, dredging, and sonication) and biological (biomanipulation, macrophytes, and …

Water eutrophication is a serious global issue because of excess external and internal
nutrient inputs. Understanding the intensity and contribution of internal nitrogen (N) and …

With the rapid adoption of green infrastructure and nature-based solutions for a low-impact
development, much consideration is given to ecosystem services and the ecological …

Dredging and in situ adsorbent inactivation are two methods which are frequently used in
eutrophic water bodies such as ponds, lakes and estuaries to control internal phosphorus …

How to maintain harmful algal blooms under phosphate-limitation is still an open question in
mesotrophic/eutrophic lakes. Little evidence for the importance of suspended particulate …

This review summarizes current knowledge on sediment dredging to control eutrophication.
Emphasis has been given to the effectiveness and environmental impacts of dredging, the …

Internal nitrogen (N) loading of lakes is commonly controlled by sediment dredging,
although its comprehensive effect on internal N loading remains unclear. Herein, we …

Biological removal of the nitrate, a highly concerning contaminant in rivers, is limited due to
the low activity of denitrifying community. Biochar is extensively used in facilitating the nitrate …

Clean soil is a potential capping material for controlling internal nutrient loading and helping
the recovery of macrophytes in eutrophic lakes, but the long-term effects and underlying …

Intensive aquaculture significantly affects the global phosphorus (P) cycle and enhances
eutrophication in inland waters. Sediment dredging efficiently removes P-rich sediments …