![Solar panels in a field](https://sdgresources.relx.com/sites/default/files/styles/sus_content_listing_image/public/zbynek-burival-v4zyjzj3w4m-unsplash.jpg?itok=aba1cIF0)
Recognising our customers' exceptional work to achieve the United Nations' Sustainable Development Goals
This study analysis four wetland technologies for treating greywater according to regulatory standards.
![Mechanistic pathways through which climate change influences viral respiratory infections (VRIs)](https://sdgresources.relx.com/sites/default/files/styles/sus_content_listing_image/public/gr2.jpg?itok=ucrGWXGS)
This Review supports SDGs 3 and 13 by synthesizing the recent evidence on whether and how climate change, manifested in meteorological fluctuations, extreme weather events, and long-term global warming, influences the epidemic dynamics of viral respiratory infections, including spatiotemporal distribution of seasonal epidemic, disease outbreaks, and pandemics.
This Article supports SDGs 3 and 13 by comprehensively assessing the future out-of-hospital cardiac arrest morbidity burden related to non-optimal temperatures, heatwaves, and cold spells in Northern China under different climate change scenarios.
![Diagram summarising the drivers and impacts of climate change on airborne allergens (brown) and the consequent impacts on human health. Central to this is the concept of risk, which is a function of hazards, vulnerability and exposure.](https://sdgresources.relx.com/sites/default/files/styles/sus_content_listing_image/public/1-s2.0-s2352396423000439-gr1_lrg.jpg?itok=5voTFzYY)
This Review supports SDGs 3 and 13 by summarising the available literature on the impacts of climate change on airborne allergens and allergic respiratory diseases, with a focus on recent developments. The authors also focus on three translational mitigation approaches that may lead to improved health outcomes: automated real-time airborne allergen monitoring, airborne allergen forecasting and modelling, and smartphone apps for mitigating the health impacts of airborne allergens.
This Article supports SDGs 3 and 13 by identifying gaps in air pollution monitoring and regulation and by proposing potential mitigation policies.
![Fig. 1. Diagram depicting the mechanisms of aerosolization, transport, and exposure to harmful algal bloom toxins.](https://sdgresources.relx.com/sites/default/files/styles/sus_content_listing_image/public/1-s2.0-s235239642300169x-gr1.jpg?itok=1eRCLnoq)
This Article supports SDGs 3 and 13 by identifying knowledge gaps in the relationship between harmul algal bloom aerosols and human health.
![Window view on Soave’s traditional vineyards cultivated on steep-slope landscapes and drying grapes using the appassimento process (Coffele farm, FAO-GIAHS site, North of Italy)](https://sdgresources.relx.com/sites/default/files/styles/sus_content_listing_image/public/1-s2.0-s2589004223012026-gr1.jpg?itok=JTq11sJe)
This article describes the effects of climate and environmental change on viticulture in heroic & steep slope settings