Themed collection Urban Stormwater Management

Introduction to the Environmental Science: Water Research & Technology themed issue on urban stormwater management.

Urban stormwater is a source of persistent, mobile and toxic substances, however the risk for water resources is unknown.

Green roof contributes to urban stormwater management.

The main aim of the blue-green city concept is the reduction of the adverse impacts of stormwater by recreating the natural water cycle with the aid of green infrastructure in major metropolitan areas worldwide.

An increase in microplastic weathering under UV lights decreases their surface hydrophilicity by the formation of polar groups and increases their mobility in the stormwater biofilter under freeze–thaw cycles.

Environmental chronic risk generated by wet-weather discharges compared to final effluent was stochastically assessed, also from a climate-change perspective, stressing their growing contribution for many (micro-)pollutants.

A low-cost, low-maintenance sensor network and analytics toolchain is introduced for real-time, high-resolution monitoring and analysis of city-scale urban drainage.

Microporous, zeolite-coated biofilm carriers deployed in stormwater systems for retention of targeted microorganisms and removal of nitrogen and PFAS.

The enzymatic activity of E. coli in urban surface waters gives a sharp but short response to contamination events.

The stormwater treatment performance of an increasingly popular horizontal subsurface-flow gravel wetland design in the northeastern United States was characterized by poor phosphorus retention and negligible impacts on chloride transport.

To maintain function in biofilters over time and reduce risk for leakage of metals, regular maintenance, including replacement of top layer is recommended. However, consider metal fractionation when handling material.

We observed an unexpectedly high proportion of Fe²⁺_dis in accumulated highway runoff, which could be attributed to local catchment characteristics.

Proposed workflow for down-selection of sorbents in synthetic and real stormwaters for optimized heavy metal and PFAS removal.

An innovative technique based on temperature measurements promises to better understand and manage sediments in urban drainage systems.

Episodic stormwater discharges expose aquatic ecosystems to extensive contaminant mixtures. Cumulative acute risks to multiple aquatic trophic levels are estimated based on contaminant mixtures documented in a US stormwater reconnaissance.

Urban surface-deposited sediments (USDs) with different spatial positions and heights are a mixture of various pollutants with complex sources and are widely distributed in urban environments.

Urban stormwater sediments are associated with non-point source pollution that poses risks to the environment and human health.

The distinct improvements of rainwater management performance brought about by different additives depend on their predominant pores occupying the substrate layer.