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1. Severe droughts reduce river navigability and isolate communities in the Brazilian Amazon

   https://doi.org/10.1038/s43247-024-01530-4  

   Santos_de_Lima, Letícia; Silva, Francisco_Eustáquio_Oliveira e; Dorio_Anastácio, Paula Rosana; Kolanski, Marina_Marcela_de Paula; Pires_Pereira, Ana Carolina; Menezes, Marianne_Stéfany Resende; Cunha, Evandro_Landulfo_Teixeira Paradela; Macedo, Marcia Nunes (July 2024, Communications Earth & Environment)

   Abstract The Amazon basin is experiencing severe droughts that are expected to worsen with climate change. Riverine communities are especially vulnerable to these extreme events. This study investigates the experiences of Brazilian Amazonian communities during droughts occurring from 2000-2020. We assess the distribution of settlements at risk of prolonged isolation during extreme low-water periods, along with impacts reported in digital news outlets. Using historic time series of river levels from 90 gauges, we look at how long droughts lasted in regions with reported impacts. Results indicate that the droughts in 2005, 2010, and 2016 were the most severe, with over an additional month of low water levels in those years. Such drought events routinely disrupt inland water transport and isolate local populations, limiting access to essential goods (food, fuel, medicine) and basic services (healthcare, education). Given this new reality, Amazon countries must develop long-term strategies for mitigation, adaptation, and disaster response. 

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2. Change in US state-level public opinion about climate change: 2008–2020

   https://doi.org/10.1088/1748-9326/aca702  

   Marlon, Jennifer R; Wang, Xinran; Bergquist, Parrish; Howe, Peter D; Leiserowitz, Anthony; Maibach, Edward; Mildenberger, Matto; Rosenthal, Seth (December 2022, Environmental Research Letters)

   Abstract Public attitudes toward climate change influence climate and energy policies and guide individual mitigation and adaptation behaviors. Over the last decade, as scientific certainty about the causes and impacts of, and solutions to the climate crisis has increased, cities, states, and regions in the United States have pursued diverse policy strategies. Yet, our understanding of how Americans’ climate views are changing remains largely limited to national trends. Here we use a large US survey dataset ( N = 27 075 ) to estimate dynamic, state-level changes in 16 climate change beliefs, risk perceptions, and policy preferences over 13 years (2008–2020). We find increases in global warming issue importance and perceived harm in every state. Policy support, however, increased in more liberal states like California and New York, but remained stable elsewhere. Year-by-year estimates of state-level climate opinions can be used to support sub-national mitigation and adaptation efforts that depend on public support and engagement. 

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3. A multiscale analysis of heatwaves and urban heat islands in the western U.S. during the summer of 2021

   https://doi.org/10.1038/s41598-023-35621-7  

   Chen, Kaiyu; Boomsma, Jacob; Holmes, Heather A. (June 2023, Scientific Reports)

   Abstract Extreme heat events are occurring more frequently and with greater intensity due to climate change. They result in increased heat stress to populations causing human health impacts and heat-related deaths. The urban environment can also exacerbate heat stress because of man-made materials and increased population density. Here we investigate the extreme heatwaves in the western U.S. during the summer of 2021. We show the atmospheric scale interactions and spatiotemporal dynamics that contribute to increased temperatures across the region for both urban and rural environments. In 2021, daytime maximum temperatures during heat events in eight major cities were 10–20 °C higher than the 10-year average maximum temperature. We discuss the temperature impacts associated with processes across scales: climate or long-term change, the El Niño–Southern Oscillation, synoptic high-pressure systems, mesoscale ocean/lake breezes, and urban climate (i.e., urban heat islands). Our findings demonstrate the importance of scale interactions impacting extreme heat and the need for holistic approaches in heat mitigation strategies. 

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4. Sea Grant Programs Build Resilience to Coastal Climate Hazards

   https://doi.org/10.5670/oceanog.2024.221  

   Miller, Ian; Collins, Mary; Covi, Michelle; Gassett, Parker; Abeels, Holly; Alvarez, Karina; Barrett, Juliana; Barry, Savanna; Behl, Mona; Collini, Renee; et al (January 2024, Oceanography)

   Sea Grant programs across the United States and its territories are working with coastal communities to enhance their resilience to hazards and weather extremes exacerbated by climate change. Drawing on the expertise of the authors, many of whom have multiple years or decades of experience in the Sea Grant network, the article identifies five key strategies that Sea Grant programs employ to support the process of coastal hazards and extreme weather adaptation and resilience-building. The application of these strategies, most of which have their roots in the historical legacy of extension, are then illustrated through summaries of current Sea Grant activities and projects, showcasing how they have been applied in real-world situations. These strategies allow Sea Grant programs to fill a unique and valuable niche in national efforts to enhance coastal resilience. The article concludes with a discussion of emerging challenges and recommendations for strengthening Sea Grant’s capacity to support adaptation in coastal communities into the future. 

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5. Twenty-first century hydroclimate: A continually changing baseline, with more frequent extremes

   https://doi.org/10.1073/pnas.2108124119  

   Stevenson, Samantha; Coats, Sloan; Touma, Danielle; Cole, Julia; Lehner, Flavio; Fasullo, John; Otto-Bliesner, Bette (March 2022, Proceedings of the National Academy of Sciences)

   Variability in hydroclimate impacts natural and human systems worldwide. In particular, both decadal variability and extreme precipitation events have substantial effects and are anticipated to be strongly influenced by climate change. From a practical perspective, these impacts will be felt relative to the continuously evolving background climate. Removing the underlying forced trend is therefore necessary to assess the relative impacts, but to date, the small size of most climate model ensembles has made it difficult to do this. Here we use an archive of large ensembles run under a high-emissions scenario to determine how decadal “megadrought” and “megapluvial” events—and shorter-term precipitation extremes—will vary relative to that changing baseline. When the trend is retained, mean state changes dominate: In fact, soil moisture changes are so large in some regions that conditions that would be considered a megadrought or pluvial event today are projected to become average. Time-of-emergence calculations suggest that in some regions including Europe and western North America, this shift may have already taken place and could be imminent elsewhere: Emergence of drought/pluvial conditions occurs over 61% of the global land surface (excluding Antarctica) by 2080. Relative to the changing baseline, megadrought/megapluvial risk either will not change or is slightly reduced. However, the increased frequency and intensity of both extreme wet and dry precipitation events will likely present adaptation challenges beyond anything currently experienced. In many regions, resilience against future hazards will require adapting to an ever-changing “normal,” characterized by unprecedented aridification/wetting punctuated by more severe extremes. 

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