China's ‘Sponge Cities’: the role of constructed wetlands in alleviating urban pluvial flooding

Research examined constructed wetlands (CWs) in piloting the ‘Sponge City’, a Chinese initiative designed, in part, to curtail extensive urban pluvial flooding. In Yangzhou a small number of exploratory qualitative interviews with relevant professionals elucidated key issues. The interviewees supported the concept of CWs but were uniformly sceptical about their viability. A possible CW in the city was also modelled, quantifying its effects and limitations. Results show that CWs can help attenuate urban flooding but there are important caveats concerning their implementation. These concern their size and capacity, sufficiency of urban space, and their economic sustainability. The political dimension of the Sponge City concept, including support from President Xi Jinping, suggests that CWs may be a distraction from more widespread urban flooding, which CWs may well not alleviate. Piloting is continuing and results will need to be more positive if Sponge Cities can be a strategically important flood attenuation measure

Intensifying agricultural sustainability: an analysis of impacts and drivers in the development of ‘bright spots’

Food security / Farming systems / Sustainable agriculture / Productivity / Investment / Thailand / Palestine / Latin America / Africa

Integrated land and water management for food and environmental security

Water resource management / Food security / Environmental effects / Soil degradation / Water pollution / Watersheds / Urbanization / Public policy / Water quality / Ecosystems / Land resources / Water scarcity / Developing countries / Poverty / Households / Food supply / Economic aspects / Social aspects / Groundwater depletion / Salinity / Wetlands / Investment / Land use / Water use / Training needs assessment / Research priorities

UV Aerosol Indices from SCIAMACHY: introducing the SCattering Index (SCI)

The Absorbing Aerosol Index (AAI) is a useful tool for detecting aerosols that absorb UV radiation – especially in cases where other aerosol retrievals fail, such as over bright surfaces (e.g. desert) and in the presence of clouds. The AAI does not, however, consider contributions from scattering (hardly absorbing) aerosols and clouds: they cause negative AAI values and are usually disregarded. In this paper, we demonstrate the use of the AAI's negative counterpart, the SCattering Index (SCI) to detect scattering aerosols. Consideration of the full UV Aerosol Index scale is of importance if the Aerosol Index is to be used for the quantification of aerosol absorption in the future. <br><br> Maps of seasonally averaged SCI show significantly enhanced values in summer in Southeast USA and Southeast Asia, pointing to a high production of scattering aerosols (presumably mainly sulphate aerosols and secondary organic aerosols) in this season. The application of a cloud filter makes the presence of scattering aerosols even more clear. Radiative transfer calculations were performed to investigate the sensitivity of AAI and SCI to cloud parameters, and it is demonstrated that clouds cause significant SCI, in some special cases even small AAI values. The results from cloud modelling imply that cloud effects need to be taken into account when AAI and SCI are used in a quantitative manner. <br><br> The paper concludes with a comparison of aerosol parameters from AERONET and our Aerosol Indices (AAI and SCI) from SCIAMACHY, where reasonable agreement was found for six AERONET stations in Southeast USA, Southeast Asia, and Africa. These findings corroborate the suitability of SCI as a tool to detect scattering aerosols

Glucose control positively influences patient outcome: a retrospective study

The goal of this research is to demonstrate that well-regulated glycemia is beneficial to patient outcome, regardless of how it is achieved

Policy experimentation within flood risk management: Transition pathways in Austria

Flood risk management (FRM) is facing various challenges, such as climate change and biodiversity losses. Traditional structural FRM measures are now not always feasible as responses to these challenges. One answer might be the use of policy experiments to promote innovation. This paper aims to assess and to explain why innovations in FRM are rarely implemented. We analysed seven innovative strategies across Austria that combine several different approaches. Each is concerned with risk reduction systems designed to save space, time and possible rising costs. The research used 76 qualitative standardised semi-structured interviews with key FRM experts conducted between 2012 and 2021 in order to examine transition pathways through time. The results show that there exist numerous drivers and barriers to debating, designing and implementing FRM innovations. The capture of transition pathways nevertheless shows the system shift from a more traditional understanding towards a transformative path, which created new understandings of the role of the different actors in FRM as well as new institutional settings. However, these policy experiments were still led by the relevant public administrations as they are the main funders, the principal actors in the planning and implementation phases in the realisation of many of these innovations

Relationship between ATSR fire counts and CO vertical column densities retrieved from SCIAMACHY onboard ENVISAT

SCIAMACHY (Scanning Imaging Absorption spectroMeter for Atmospheric ChartographY) is the first instrument to allow retrieval of CO by measuring absorption in the near infrared from reflected and scattered sunlight instead of from thermal emission. Thus, in contrast to thermal-infrared satellites (MOPITT), SCIAMACHY is highly sensitive to the lower layers of the troposphere where the sources, such as biomass burning, are located, and where the bulk of the CO is usually found. In many regions of the world, the burning of vegetation has a repeating seasonal pattern, but the amount of CO emitted from biomass burning varies considerably from place to place. Here we present a study on the relationship between fire counts and CO vertical column densities (VCD) in different regions. These results are compared with the CO VCD from MOPITT, aerosol index, and NO_2 tropospheric VCD (TVCD) from SCIAMACHY, and the coupled chemistry climate model (CCM) ECHAM5/MESSY