The present research focuses on the gap and need for developing global heat wave frameworks to effectively identify dangerous heat wave outdoor conditions over diverse climatic and geographic regions. This development will be helpful for climate scientists, health professionals, policymakers, and communities in developing mitigation strategies and raising awareness of heat risks.

RELX,

Gala, D., Khetan, S., & Mehendale, N. (2024). Assessing opportunities for enhanced lighting energy conservation via occupancy and daylight monitoring. Measurement: Energy, 3, 100015.

This article addresses SDGs 7, 12 and 13 by examining responsible energy consumption and automated systems that provide potential efficiencies through lighting optimization.

This Health Policy paper supports SDG 3 and 13 by examining countries' preparedness and inclusion of child health as it relates to climate change, highlighting both how countries integrate child health within adaptation domains and how policy documents conceptualise children.This Health Policy paper supports SDG 3 and 13 by examining countries' preparedness and inclusion of child health as it relates to climate change, highlighting both how countries integrate child health within adaptation domains and how policy documents conceptualise children.
This Article supports SDGs 3 and 13 by identifying urban configuration types and assessing differences in their associations with exposures such as surface urban heat island intensities, carbon emissions, and mortality.
This Article supports SDG 3 and 13 by analysing how numerous mitigation strategies, such as plant-based diets, increasing green spaces, increasing active transport, using renewable energy sources, and smoking cessation, may have the co-benefit of reducing cardiovascular disease.
Elsevier,

Journal of Climate Change and Health, Volume 18, 1 July 2024

Indigenous Peoples face disproportionate risks from climate change while being key to planetary health and climate resilience due to their traditional ecological knowledge. This manuscript provides Indigenous perspectives on climate justice, exploring the intersection of health, sovereignty, and ancestral practices, and discusses opportunities for decolonizing relationships to place, highlighting a case of rematriation and healing at Bdóte, the place of genesis for Dakota Peoples, also known as Minneapolis and Saint Paul, MN.
This knowledge encompasses information about the local environment, including farming patterns, soil types, weather patterns, and other natural resources. Such indigenous agricultural practices are valuable methods, and these communities have illustrated the effectiveness, adaptability, and ways in which these adopted methods promote sustainable environmental management.
This paper provides guidance for assessment of trade-offs from a human valuation perspective, thus supporting policy makers when considering arguments for salt marsh management within the context of the 30x30 targets for protected areas.
Elsevier,

Advances in Energy from Waste: Transformation Methods, Applications and Limitations Under Sustainability, Woodhead Advances in Pollution Research, 2024, Pages 225-279

This chapter ties into Sustainable Development Goal 11, Sustainable Development Goal 12, and Sustainable Development Goal 13 by focusing on designing sustainable waste management systems for smart cities, which enhances urban sustainability and resilience, by discussing AI-based waste management systems that optimize recycling, resource recovery, and efficient waste handling, promoting sustainable consumption and production patterns, and by exploring AI’s role in carbon emission assessment and energy transition processes, contributing to efforts to combat climate change and its impacts.
Elsevier,

Advances in Energy from Waste: Transformation Methods, Applications and Limitations Under Sustainability, Woodhead Advances in Pollution Research, 2024, Pages 503-524

This chapter ties into Sustainable Development Goal 7, Sustainable Development Goal 12, and Sustainable Development Goal 13 by promoting the use of waste-to-energy (WtE) technologies to convert waste into renewable and sustainable energy sources, by focusing on the circular bioeconomy and efficient waste management to ensure sustainable consumption and production patterns, and by addressing the mitigation of greenhouse gas emissions through WtE technologies to combat climate change and its impacts.

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