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.
This paper systematically reviews the current state-of-the-art and future perspectives of AI in battery research and applications for EVs.
In this study, the authors map the projected changes in water availability onto the components of the food-water-energy Nexus at several spatial scales. Resilience thinking acknowledges the different spatial scales at which governance operates, resilience occurs, and Nexus systems function.
Climate change health risks in cities can be addressed with vulnerability reduction.
Holocene Palaeoenvironmental change at the mouth of Sabarmati River, Gulf of Khambhat, Western India
Quaternary Environments and Humans, Volume 2, Issue 5, October 2024, 100016
The study of the sedimentary record at the mouth of the Sabarmati River in the Gulf of Khambhat provides insights into how changes in climate, sea level, and sedimentation patterns over the Holocene period impacted the environment and ancient human settlements in the region, which is relevant for understanding climate change and its effects.
Interconnections between challenges due to climate change.
To understand how best to help patients and improve health during an epidemic it is necessary to have good modelling techniques and protocols.
Until now, the absence of data on global building floorspace has impeded the measurement of building carbon intensity (carbon emissions per floorspace) and the identification of ways to achieve carbon neutrality for buildings. For this study, we develop a global building stock model (GLOBUS) to fill that data gap.
