Joachim Fallmann

TL;DR: In this article, a mesoscale chemical transport model is used to investigate the impact of urban greening and highly reflective surfaces on the concentrations of primary (CO, NO) as well as secondary pollutants inside the urban canopy.

TL;DR: In this paper, a mesoscale numerical model was used on a regional scale for the urban area of Stuttgart, to simulate the effect of urban planning strategies on dynamical processes affecting urban climate.

TL;DR: The UKC2 regional coupled prediction system as discussed by the authors was developed under the UK Environmental Prediction Prototype project (UKEPCP) and is the first implementation of an atmosphere-land-ocean-wave modelling system focussed on the United Kingdom and surrounding seas at km-scale resolution.

TL;DR: A Met Office/Natural Environment Research Council Joint Weather and Climate Research Programme workshop brought together 50 key international scientists from the UK and international community to formulate the key requirements for an Urban Meteorological Research strategy as mentioned in this paper.

TL;DR: In this paper, the authors describe an updated configuration of the regional coupled research system, termed UKC3, developed and evaluated under the UK Environmental Prediction collaboration, which represents a further step toward a vision of simulating the numerous interactions and feedbacks between different physical and biogeochemical components of the environment across sky, sea and land using more integrated regional coupled prediction at kilometre-scale resolution.