The acceleration of urbanization requires sustainable, adaptive management strategies for
land and water use in cities. Although the effects of buildings and sealed surfaces on urban …

In cities around the world, urban green spaces provide a range of benefits and ecosystem
services. However, recent years have shown how prolonged warm and dry periods can …

Urban green space is increasingly viewed as essential infrastructure to build resilience to
climate change by retaining water in the city landscape and balancing ecohydrological …

We used stable isotopes to help assess ecohydrological partitioning in different types of
urban green space in the city of Berlin. We focused particularly on the role of the near …

Large urban areas are typically characterized by a mosaic of different land uses, with
contrasting mixes of impermeable and permeable surfaces that alter “green” and “blue” …

Urban green spaces (UGS) can help mitigate hydrological impacts of urbanisation and
climate change through precipitation infiltration, evapotranspiration and groundwater …

Sustainably meeting the growing water demand of cities during a changing climate will be a
major challenge in the near future. Adjusting water management strategies towards …

Understanding the interactions of vegetation and soil water under varying hydrological
conditions is crucial to aid quantitative assessment of land‐use sustainability for maintaining …

Vegetation plays an essential role in water partitioning, as it strongly influences
evapotranspiration, infiltration and water retention. To analyse the influence of vegetation on …

The partitioning of water fluxes in the critical zone is of great interest due to the implications
for understanding water cycling and quantifying water availability for various ecosystem …