Your search keyword '"Emergency management"' showing total 165 results

1. Pets are family, keep them safe: A review of emergency animal management in remote First Nations communities

Author

Smart, Chelsea, Nou, Tida, and Lassa, Jonatan

Published

2024

2. Bushfire risk, messaging and older people: Setting a research agenda

Author

Clarke, Beverley, Sutton, Zoei, Tram-Phan, Cecilia, Dodd, Melinda M, and Ross, Kirstin

Published

2024

3. Developing an Australian dust early warning system

Author

Clark, Tegan and Strong, Craig

Published

2024

4. Descriptive epidemiological study assessing emergency department presentations associated with the Hawkesbury- Nepean flood plain

Author

Daneshjoo, Sam, Truman, George, and Carey, Victor

Published

2024

5. Improving the response to disasters by enhancing the incident command system

Author

Bradley-Smith, Karen, Tippet, Vivienne, and Fitzgerald, Gerard

Published

2024

6. Natural hazards: The future of learning is already here

Author

Cook, Margaret

Published

2024

7. Characterization of extreme rainfall changes and response to temperature changes in Guizhou Province, China.

Author

Tan, Hongmei, He, Zhonghua, Yu, Huan, Yang, Shuping, Wang, Maoqiang, Gu, Xiaolin, and Xu, Mingjin

Subjects

*GLOBAL warming, *CLIMATE extremes, *METEOROLOGICAL stations, *RAINFALL, *METEOROLOGICAL observations, *EMERGENCY management

Abstract

Different geographical zones have regional heterogeneity in underlying earth surface structure and microclimate which result in different evolution trends and their response to climate change varies in extreme rainfalls in these zones. In the Guizhou province of China, there are complex landforms, which lead to spatial redistribution of rainfall, frequent extreme rainfall, and disasters high risk of geologic disasters. Research on extreme climate in Guizhou mostly paid attention to its spatio-temporal characteristics and modeling, but lack of analysis on its characteristics of extreme rainfall variability and response to temperature changes under different subsurface conditions. This study investigated the characteristics of the extreme rainfall spatiotemporal and recurrence periods in Guizhou province and discussed the relationship between the response of extreme rainfall to temperature change. Daily rainfall data from 1990 to 2020 and 2021–2100 at 31 meteorological observation stations throughout the province were collected to calculate extreme precipitation. This research had the following results. (1) Both historical and future periods show an upward trend in extreme rainfall in Guizhou province, with a spatial distribution pattern of "high in the south and low in the north, high in the east and low in the west" and "high in the southeast and low in the northwest", respectively; the spatial distribution of extreme rainfall under each recurrence period is consistent with the non-recurrence period. (2) Both historical and future periods show an upward trend in temperature in Guizhou province, with a spatial distribution consistent with that of the extreme rainfall in the corresponding period. (3) The change in extreme rainfall intensity with increasing temperature is almost always greater than the C–C rate for different periods and underlying earth surface structure; Extreme rainfall has a Hook response structure to temperature change, and the climate response structure shifts to the right with climate warming. The results of the study can provide a basis for decision-making on regional disaster prevention and mitigation in the context of temperature change. [ABSTRACT FROM AUTHOR]

Published

2024

8. Assessing geological hazard susceptibility and impacts of climate factors in the eastern Himalayan syntaxis region.

Author

Yao, Jiaming, Wang, Yanbing, Wang, Teng, Zhang, Beibei, Wu, Yuming, Yao, Xin, Zhao, Zheng, and Zhu, Shu

Subjects

*EMERGENCY management, *RANDOM forest algorithms, *RAINFALL, *CLIMATE change, *DEBYE temperatures, *LANDSLIDES

Abstract

The eastern Himalayan syntaxis (EHS) region is characterized by steep topography, strong tectonic activity, and strong disaster activity, and the disaster activity has a temporal correlation with the change of seasonal climate factors. Different from other disaster-prone areas, the disasters in the EHS area are more destructive and more susceptible to changes in climate factors. However, previous studies on disaster susceptibility in the region mainly focused on geohazard samples, regional topography, and geological conditions and seldom considered the characteristics of disaster activity and the characteristics of seasonal temperature and rainfall changes, which often led to an underestimation of disaster susceptibility in this region. Therefore, in this study, SBAS-InSAR technology and the GEE (Google Earth Engine) platform were used to identify 317 geological disasters and construct the spatial–temporal motion field and spatial-temporal background information of disasters in the last 5 years. Based on the random forest and optimized evaluation data model, the disaster susceptibility in the EHS area was quantitatively evaluated. The AUC value of the model was 0.89, indicating that the results have high reliability. The results showed that the high-susceptibility areas were mainly distributed in the riverbank and high-altitude areas. The SHAP model revealed that the factors of temperature, precipitation, slope, and elevation in the EHS area had a great negative influence on the disaster. The quantitative results of the influence of seasonal temperature and precipitation on disaster susceptibility showed that the area of susceptibility in summer was significantly higher than that in winter, and the area of high and very high susceptibility increased by about 13%. Finally, the dynamic failure process of typical landslide and glacier disasters in highly susceptible areas was quantitatively predicted, which provides a scientific basis for disaster prevention. [ABSTRACT FROM AUTHOR]

Published

2024

9. Socioeconomic Impact on Urban Resilience against Flood Damage.

Author

Park, Hyung Jun, Song, Su Min, Kim, Dong Hyun, and Lee, Seung Oh

Subjects

FLOOD damage, EMERGENCY management, CLIMATE change, CITY dwellers, SOCIAL systems, DISASTER resilience, REDUNDANCY in engineering

Abstract

While urban populations are rapidly increasing around the world, floods have been frequently and seriously occurring due to the climate crisis. As existing disaster prevention facilities have specific limitations in completely protecting against flood damages, the concept of resilience, which emphasizes the ability to recover after becoming injured and harmed by a flood, is necessary to mitigate such damages. However, there is still a scarcity of studies that quantitatively show the relationship between the resilience and the socioeconomic costs, even though a variety of evaluation methods exist in the literature. This study aims to quantitively analyze the socioeconomic impact of flooding on the urban environment based on the concept of resilience. A method of evaluating four properties of resilience (redundancy, rapidity, resourcefulness, and robustness) through damage function and network analysis was used to measure changes in resilience against flood damages. In addition, to determine the socioeconomic impact of flooding, the costs incurred due to transportation delays and the lack of labor participation were evaluated. Differences in structural and social systems have led to variations in resilience and socioeconomic costs. As a future study, if the circumstances after flood events based on risk-based recovery can be evaluated, more effective urban flooding defense decisions would be expected. [ABSTRACT FROM AUTHOR]

Published

2024

10. A Comparative Study on 2015 and 2023 Chennai Flooding: A Multifactorial Perspective.

Author

Radhakrishnan, Selvakumar, Duraisamy Rajasekaran, Sakthi Kiran, Sujatha, Evangelin Ramani, and Neelakantan, T. R.

Subjects

EL Nino, EMERGENCY management, FLOOD risk, REMOTE-sensing images, REGRESSION trees, FLOOD warning systems

Abstract

Floods are highly destructive natural disasters. Climate change and urbanization greatly impact their severity and frequency. Understanding flood causes in urban areas is essential due to significant economic and social impacts. Hydrological data and satellite imagery are critical for assessing and managing flood effects. This study uses satellite images, climate anomalies, reservoir data, and cyclonic activity to examine the 2015 and 2023 floods in Chennai, Kanchipuram, and Thiruvallur districts, Tamil Nadu. Synthetic-aperture radar (SAR) satellite data were used to delineate flood extents, and this information was integrated with reservoir data to understand the hydrological dynamics of floods. The classification and regression tree (CART) model delineates flood zones in Chennai, Kanchipuram, and Thiruvallur during the flood years. The study region is highly susceptible to climatic events such as monsoons and cyclones, leading to recurrent flooding. The region's reservoirs discharged floodwaters exceeding 35,000 cubic meters per second in 2015 and 15,000 cubic meters per second in 2023. Further, the study examines the roles of the Indian Ocean Dipole (IOD), which reached its peak values of 0.33 and 3.96 (positive IOD), and El Niño in causing floods here. The complex network of waterways and large reservoirs poses challenges for flood management. This research offers valuable insights for improving the region's flood preparedness, response strategies, and overall disaster management. [ABSTRACT FROM AUTHOR]

Published

2024

11. Invited perspectives: Fostering interoperability of data, models, communication and governance for disaster resilience through transdisciplinary knowledge co-production.

Author

Schröter, Kai, Schweizer, Pia-Johanna, Gräler, Benedikt, Cumiskey, Lydia, Bharwani, Sukaina, Parviainen, Janne, Kropf, Chahan, Hakansson, Viktor Wattin, Drews, Martin, Irvine, Tracy, Dondi, Clarissa, Apel, Heiko, Löhrlein, Jana, Hochrainer-Stigler, Stefan, Bagli, Stefano, Huszti, Levente, Genillard, Christopher, Unguendoli, Silvia, and Steinhausen, Max

Subjects

CLIMATE change adaptation, EMERGENCY management, EXTREME weather, STAKEHOLDER analysis, CLIMATE change, DISASTER resilience

Abstract

Despite considerable efforts and progress in increasing resilience to natural hazards, the adverse socio-economic impacts of extreme weather events continue to increase globally. As climate change progresses, disaster risk management needs alignment with adaptation measures. In this perspective paper, we discuss emerging complications in disaster risk management during recent events from an interoperability perspective. We argue that a lack of interoperability between data and models, information and communication, and governance are barriers to successful integrated disaster risk management and climate adaptation. On this basis, we take a detailed look at the challenges involved and suggest that trans-disciplinary knowledge co-production is key to promoting interoperability between these components. Finally, we outline a framework for enabling knowledge co-production to enhance risk governance by improving ways of facilitating trans-disciplinary stakeholder engagement and draft a novel open-source federated data infrastructure, which allows stakeholders to consolidate and connect relevant data sources, models and information products. [ABSTRACT FROM AUTHOR]

Published

2024

12. Brief Communication: Rapid high-resolution flood impact-based early warning is possible with RIM2D: a showcase for the 2023 pluvial flood in Braunschweig.

Author

Bin Ghomash, Shahin Khosh, Apel, Heiko, Schröter, Kai, and Steinhausen, Max

Subjects

RAINFALL, EMERGENCY management, FLOOD forecasting, CITIES & towns, CLIMATE change, FLOOD warning systems

Abstract

In recent years, urban areas have been increasingly affected by more frequent and severe pluvial floods, attributed to climate change and urbanization. This trend is expected to continue in the future, underscoring the critical importance of flood warning and disaster management. However, pluvial flood forecasts on a communal level do not exist in practice, mainly due to the high computational run-times of high-resolution flood simulation models. Here, we showcase the capability of the hydrodynamic model RIM2D (Rapid Inundation Model 2D) to deliver highly detailed and localized insights into expected flood extent and impacts in very short computational processing times, enabling operational flood warnings. We demonstrate these capabilities using the case of the June 2023 torrential rain and resulting flood event in the city of Braunschweig, located in Lower Saxony, Germany. During this event, the city experienced intense rainfall of 60 liters per square meter within a short timeframe, resulting in widespread inundation, significant disruption to the residents' daily life, and substantial economic costs to the city. This study serves as a clear indication that different dimensions of flood consequences can be simulated at very high resolutions in extremely short computational times and that models such as RIM2D, along with the necessary hardware for their operation, have reached a level of maturity suitable for integration into operational early warning systems and impact-based forecasting systems for such floods. [ABSTRACT FROM AUTHOR]

Published

2024

13. Automatic Methodology for Forest Fire Mapping with SuperDove Imagery.

Author

Rodríguez-Esparragón, Dionisio, Gamba, Paolo, and Marcello, Javier

Subjects

*EMERGENCY management, *VEGETATION mapping, *FOREST mapping, *CLIMATE change, *METEOROLOGICAL charts, *FOREST fires, *WILDFIRES

Abstract

The global increase in wildfires due to climate change highlights the need for accurate wildfire mapping. This study performs a proof of concept on the usefulness of SuperDove imagery for wildfire mapping. To address this topic, we present an automatic methodology that combines the use of various vegetation indices with clustering algorithms (bisecting k-means and k-means) to analyze images before and after fires, with the aim of improving the precision of the burned area and severity assessments. The results demonstrate the potential of using this PlanetScope sensor, showing that the methodology effectively delineates burned areas and classifies them by severity level, in comparison with data from the Copernicus Emergency Management Service (CEMS). Thus, the potential of the SuperDove satellite sensor constellation for fire monitoring is highlighted, despite its limitations regarding radiometric distortion and the absence of Short-Wave Infrared (SWIR) bands, suggesting that the methodology could contribute to better fire management strategies. [ABSTRACT FROM AUTHOR]

Published

2024

14. Polycentric governance, epistocracy and the limits of policing knowledge in preparing for the climate crisis.

Author

Malik, Ali and Berg, J.

Subjects

*CLIMATE change, *EMERGENCY management, *EXTREME weather, *POLITICAL knowledge, *POLICE services

Abstract

The last two decades have seen an increase in the intensity and frequency of extreme weather events, placing complex demands on police and emergency services in the UK. Despite the growing recognition of the cascading and multidimensional threats, there is limited understanding of how policing and local governance actors are preparing for the climate crisis. In this paper, we argue that polycentric governance approaches, such as the Local Resilience Forums (LRFs), provide an essential focal point for emergency planning and disaster response activity that is rooted in localised contexts. However, while the LRFs are designed to benefit from the inclusion of a broad range of actors, dominant mentalities, knowledge hierarchies and powerful actors may limit their epistemic potential. We propose that a pathway towards a resilient and adaptive policing agenda for the Anthropocene necessitates acknowledging the limits of policing knowledge, expertise and traditional command-and-control mentalities. We draw on the notion of epistocracy to propose a policy and research agenda for police and partner agencies to harness the epistemic potential of LRFs. By adopting approaches to leverage pluralised forms of knowledge and identifying strategies for co-opting community-based actors in emergency planning and response activities, police and partner agencies can strengthen local capacity-building and better promote local resilience and adaptation efforts. [ABSTRACT FROM AUTHOR]

Published

2024

15. The importance of geography in forecasting future fire patterns under climate change.

Author

Syphard, Alexandra D., Elías Velazco, Santiago José, Brooke Rose, Miranda, Franklin, Janet, and Regan, Helen M.

Subjects

*CALIFORNIA wildfires, *WILDLAND-urban interface, *VAPOR pressure, *EMERGENCY management, *VEGETATION patterns, *FIRE management, *WILDFIRE prevention

Abstract

An increasing amount of California's landscape has burned in wildfires in recent decades, in conjunction with increasing temperatures and vapor pressure deficit due to climate change. As the wildland-urban interface expands, more people are exposed to and harmed by these extensive wildfires, which are also eroding the resilience of terrestrial ecosystems. With future wildfire activity expected to increase, there is an urgent demand for solutions that sustain healthy ecosystems and wildfire-resilient human communities. Those who manage disaster response, landscapes, and biodiversity rely on mapped projections of how fire activity may respond to climate change and other human factors. California wildfire is complex, however, and climate-fire relationships vary across the state. Given known geographical variability in drivers of fire activity, we asked whether the geographical extent of fire models used to create these projections may alter the interpretation of predictions. We compared models of fire occurrence spanning the entire state of California to models developed for individual ecoregions and then projected end-of-century future fire patterns under climate change scenarios. We trained a Maximum Entropy model with fire records and hydroclimatological variables from recent decades (1981 to 2010) as well as topographic and human infrastructure predictors. Results showed substantial variation in predictors of fire probability and mapped future projections of fire depending upon geographical extents of model boundaries. Only the ecoregion models, accounting for the unique patterns of vegetation, climate, and human infrastructure, projected an increase in fire in most forested regions of the state, congruent with predictions from other studies. [ABSTRACT FROM AUTHOR]

Published

2024

16. Essential competencies of nurses for climate change response in Saudi Arabia: A rapid literature review.

Author

Mani, Zakaria A., Naylor, Katarzyna, and Goniewicz, Krzysztof

Subjects

*LITERATURE reviews, *CLIMATE change & health, *MEDICAL care research, *CORE competencies, *EMERGENCY management

Abstract

Aim Design Method Findings Conclusion Amidst the mounting challenges posed by climate change, the healthcare sector emerges as a vital frontliner, with nurses standing as its linchpins. This review delves into the pivotal role of nurses in combatting the health consequences of climatic alterations, particularly within the nuanced environment of Saudi Arabia.A rapid literature review.Drawing from a rigorous analysis of 53 studies, our exploration revolves around the preparedness strategies formulated in response to Saudi Arabia's changing climate. The variables analysed included study design, sample size, focus area, geographical coverage and key findings related to nurse competencies. Data were collected using a structured data extraction form and analysed using thematic content analysis. Employing content analysis, we discerned essential domains: from grasping the health impacts of climate change to customizing care for the most susceptible populations and championing advocacy initiatives.Salient findings highlight nurses' profound understanding of both direct and secondary health implications of climate shifts. Additionally, the results emphasize the tailored interventions needed for vulnerable groups, capacity building and disaster readiness. Crucially, our findings spotlight the significance of weaving cultural, ethical and regional threads into nursing strategies. By painting a comprehensive picture, we showcase the delicate balance of environmental evolution, healthcare dynamics and the unique socio‐cultural tapestry of Saudi Arabia.The results of our analysis revealed key competencies required for nurses, including the ability to address immediate health impacts, provide tailored care for vulnerable populations and engage in advocacy and policy formulation. In summation, nurses' multifaceted roles—from immediate medical care to research, advocacy and strategizing—underscore their invaluable contribution to confronting the health adversities sparked by climate change. Our review accentuates the essential contributions of nurses in tackling climate‐related health hurdles and calls for more nuanced research, policy adjustments and proactive measures attuned to Saudi Arabia's distinct backdrop. [ABSTRACT FROM AUTHOR]

Published

2024

17. State of Wildfires 2023–2024.

Author

Jones, Matthew W., Kelley, Douglas I., Burton, Chantelle A., Di Giuseppe, Francesca, Barbosa, Maria Lucia F., Brambleby, Esther, Hartley, Andrew J., Lombardi, Anna, Mataveli, Guilherme, McNorton, Joe R., Spuler, Fiona R., Wessel, Jakob B., Abatzoglou, John T., Anderson, Liana O., Andela, Niels, Archibald, Sally, Armenteras, Dolors, Burke, Eleanor, Carmenta, Rachel, and Chuvieco, Emilio

Subjects

*CLIMATE change, *EFFECT of human beings on climate change, *FIRE weather, *WEATHER forecasting, *EMERGENCY management, *DISASTER resilience, *WILDFIRES, *FOREST fires

Abstract

Climate change contributes to the increased frequency and intensity of wildfires globally, with significant impacts on society and the environment. However, our understanding of the global distribution of extreme fires remains skewed, primarily influenced by media coverage and regionalised research efforts. This inaugural State of Wildfires report systematically analyses fire activity worldwide, identifying extreme events from the March 2023–February 2024 fire season. We assess the causes, predictability, and attribution of these events to climate change and land use and forecast future risks under different climate scenarios. During the 2023–2024 fire season, 3.9×106 km 2 burned globally, slightly below the average of previous seasons, but fire carbon (C) emissions were 16 % above average, totalling 2.4 Pg C. Global fire C emissions were increased by record emissions in Canadian boreal forests (over 9 times the average) and reduced by low emissions from African savannahs. Notable events included record-breaking fire extent and emissions in Canada, the largest recorded wildfire in the European Union (Greece), drought-driven fires in western Amazonia and northern parts of South America, and deadly fires in Hawaii (100 deaths) and Chile (131 deaths). Over 232 000 people were evacuated in Canada alone, highlighting the severity of human impact. Our analyses revealed that multiple drivers were needed to cause areas of extreme fire activity. In Canada and Greece, a combination of high fire weather and an abundance of dry fuels increased the probability of fires, whereas burned area anomalies were weaker in regions with lower fuel loads and higher direct suppression, particularly in Canada. Fire weather prediction in Canada showed a mild anomalous signal 1 to 2 months in advance, whereas events in Greece and Amazonia had shorter predictability horizons. Attribution analyses indicated that modelled anomalies in burned area were up to 40 %, 18 %, and 50 % higher due to climate change in Canada, Greece, and western Amazonia during the 2023–2024 fire season, respectively. Meanwhile, the probability of extreme fire seasons of these magnitudes has increased significantly due to anthropogenic climate change, with a 2.9–3.6-fold increase in likelihood of high fire weather in Canada and a 20.0–28.5-fold increase in Amazonia. By the end of the century, events of similar magnitude to 2023 in Canada are projected to occur 6.3–10.8 times more frequently under a medium–high emission scenario (SSP370). This report represents our first annual effort to catalogue extreme wildfire events, explain their occurrence, and predict future risks. By consolidating state-of-the-art wildfire science and delivering key insights relevant to policymakers, disaster management services, firefighting agencies, and land managers, we aim to enhance society's resilience to wildfires and promote advances in preparedness, mitigation, and adaptation. New datasets presented in this work are available from 10.5281/zenodo.11400539 (Jones et al., 2024) and 10.5281/zenodo.11420742 (Kelley et al., 2024a). [ABSTRACT FROM AUTHOR]

Published

2024

18. Spatiotemporal Patterns of Typhoon-Induced Extreme Precipitation in Hainan Island, China, 2000–2020, Using Satellite-Derived Precipitation Data.

Author

Xu, Mengyu, Tan, Yunxiang, Shi, Chenxiao, Xing, Yihang, Shang, Ming, Wu, Jing, Yang, Yue, Du, Jianhua, and Bai, Lei

Subjects

*EMERGENCY management, *OCEAN temperature, *TROPICAL cyclones, *CYCLONE tracking, *ATMOSPHERIC circulation, *TYPHOONS

Abstract

Extreme precipitation events induced by tropical cyclones have increased frequency and intensity, significantly impacting human socioeconomic activities and ecological environments. This study systematically examines the spatiotemporal characteristics of these events across Hainan Island and their influencing factors using GsMAP satellite precipitation data and tropical cyclone track data. The results indicate that while the frequency of typhoon events in Hainan decreased by 0.3 events decade−1 from 1949 to 2020, extreme precipitation events have increased significantly since 2000, especially in the eastern and central regions. Different typhoon tracks have distinct impacts on the island, with Track 1 (Northeastern track) and Track 2 (Central track) primarily affecting the western and central regions and Track 3 (Southern track) impacting the western region. The impact of typhoon precipitation on extreme events increased over time, being the greatest in the eastern region, followed by the central and western regions. Incorporating typhoon precipitation data shortened the recurrence interval of extreme precipitation in the central and eastern regions. Diurnal peaks occur in the early morning and late evening, primarily affecting coastal areas. Typhoon duration (CC_max = 0.850) and wind speed (CC_max = 0.369) positively correlated with extreme precipitation, while the pressure was negatively correlated. High sea surface temperature areas were closely associated with extreme precipitation events. The atmospheric circulation indices showed a significant negative correlation with extreme precipitation, particularly in the western and central regions. ENSO events, especially sea surface temperature changes in the Niño 1 + 2 region (−0.340 to −0.406), have significantly influenced typhoon precipitation characteristics. These findings can inform region-specific disaster prevention and mitigation strategies for Hainan Island. [ABSTRACT FROM AUTHOR]

Published

2024

19. Assessing framework of rainfall-induced landslide hazard considering spatiotemporal asymmetry in extreme precipitation indices under climate change.

Author

Yan, Chun and Gong, Dapeng

Subjects

*LANDSLIDE prediction, *CLIMATE extremes, *EMERGENCY management, *RAINFALL, *SUPPORT vector machines, *LANDSLIDES, *LANDSLIDE hazard analysis, *NATURAL disaster warning systems

Abstract

Landslides triggered by extreme rainfall events often cause losses of life, property damage, and environmental alterations. While past studies have assessed landslide hazards using various indices, how to select rainfall indices in rainfall-induced landslide hazard assessment is still a challenge due to the spatiotemporal asymmetry of rainfall indices. In this study, we employed three machine-learning models, namely the Random forest (RF), Support vector machine (SVM), and logistics regression models, and developed an extreme rainfall index-based model to evaluate rainfall-induced landslide hazards. To eliminate the effect of spatiotemporal asymmetry in indices, we selected six extreme rainfall indices that are highly correlated with rainfall-induced landslides and tested 63 combinations. Over the past four decades, extreme rainfall events have become more frequent and intense. Both the number and type of rainfall indices affected the assessment results of landslides in the study area. The RF model showed a better accuracy in landslide hazard assessments than did the other two models. To better predict rainfall-induced landslide hazards, an optimal model based on three extreme rainfall indices, i.e., PSSPTOT, R25mm, and Rx5day, was proposed for the study area. With climate change, the study area may encounter more intense rainfall events and experience high levels of rainfall-induced landslide hazards. Compared to the baseline, landslide hazards in the study area are projected to increase by 9.9% and 11.9% in the 2030s (2021–2050). Areas with high- and very high- levels of landslide hazards will account for more than 50% of the study area and will be mainly distributed in the central and eastern parts of the study area. This study suggested an optimal combination of extreme precipitation indicies and provided scientific information about rainfall-induced landslide hazard management under climate change. [ABSTRACT FROM AUTHOR]

Published

2024

20. Futurities Rethought: On the Political Imminences of Runaway Nature.

Author

Petryna, Adriana, Beneduce, Roberto, Boyer, Dominic, Fuentes, Agustin, Grant, Silas, Hoag, Colin, Kelly, Ann H., Ulturgasheva, Olga, and Vilaça, Aparecida

Subjects

*EMERGENCY management, *CLIMATE change, *OCCUPATIONAL hazards, *ACTIVISM, *CRISIS management

Abstract

The impacts of climate change are accelerating worldwide, but emergency agencies and political bodies are not always equipped to anticipate where, when, or how severe the next unnatural disaster will be. Amid megafire seasons, for example, scientists are revising models of fire behavior that were calibrated to natures that increasingly diverge from known baselines and trends. Emergency responders' trust in patterns has become an occupational hazard. At these edges of knowledge, struggles to maintain responsive capacity in disrupted ecologies are at play; a larger reckoning with runaway climate change as a relational problem space is in order. Rather than making me resort to despair about the world's "end," such labors redirect my attention toward horizons of expectation in which knowledges are still actionable, not obsolete, and where capacities for future interventions are viable and not denied. These activities, enmeshed in a rubric of horizon work, shift expert authority and promote critical realignments across political, activist, and Indigenous spheres. [ABSTRACT FROM AUTHOR]

Published

2024

21. The Gaps Between Institutional and Practical Disaster Risk Management Measures on Coastal Flood Risks in South Korea's Coastal Communities.

Author

Park, Hyejeong, Nam, Kihun, and Egawa, Shinichi

Subjects

EMERGENCY management, RAINFALL, RISK perception, FLOOD risk, CLIMATE change, TYPHOONS, DISASTER resilience

Abstract

Global warming and climate change significantly increase the frequency of coastal floods caused by sea level rise (SLR) as a permanent factor and hydrometeorological hazards as tentative factors. The combined risks will affect coastal communities. South Korea is gradually facing SLR risks, mainly in its southern coastal regions; however, disaster risk reduction (DRR) in coastal regions remains fragmented. This study aimed to investigate the status of DRR for coastal communities in South Korea by looking at government practices and testimonies from residents. This study reviewed DRR-related regulations and documents and collected data from interviews with local government officials, field visits, and informal conversations with residents in six coastal communities. The findings show that the coastal communities were less resilient to coastal floods than to other hazards, such as typhoons and heavy rains, and the potential consequences could be expanded due to demographic challenges, fragmented institutional systems, and low risk awareness. Moreover, this study emphasized the necessity of an integrated approach to reducing the impact of coastal floods caused by both SLR and other factors. It also highlighted the importance of coastal community engagement in local DRR activities through increasing risk awareness and adapting to environmental change based on appropriate risk information disclosure by the government. The impacts of coastal floods triggered by SLR and other hazard factors can be reduced by aligning practical regulatory measures with adaptive strategies and enhancing the disaster resilience of coastal communities. [ABSTRACT FROM AUTHOR]

Published

2024

22. Characterizing Spatiotemporal Patterns of Disasters and Climates to Evaluate Hazards to Crop Production in Taiwan.

Author

Su, Yuan-Chih, Wu, Chun-Yi, and Kuo, Bo-Jein

Subjects

EXTREME weather, WEATHER hazards, EMERGENCY management, TROPICAL storms, PRINCIPAL components analysis, HAZARD mitigation

Abstract

Climate change causes frequent and severe disasters. A comprehensive assessment of disaster hazards is thus crucial to understanding variations in disaster patterns and planning mitigation and adaptation strategies. This study obtained information from a crop disaster dataset of Taiwan covering the period from 2003 to 2022. Additionally, principal component analysis and K-means clustering were used to create climate clusters to evaluate the effect of climate patterns on disaster hazards. The results revealed that tropical storm frequency substantially decreased, whereas rain disasters exhibited an increasing trend. The four regions of Taiwan exhibited variations in terms of hazards of various disasters. The cold wave hazard showed a significant upward trend in the central region. An upward trend of rain disaster hazards was only detected in the southern region. However, a downward trend in tropical storm hazards was detected across all regions. A distinct climate pattern was identified over the study period. After 2012, high temperature and dry climate were the primary climate patterns. These patterns exhibited a high hazard value for cold waves, droughts, and rain disasters. Hence, the present study's findings indicate that managing cold waves and rain disasters is crucial to protecting crop production in Taiwan. [ABSTRACT FROM AUTHOR]

Published

2024

23. Climate hazards and psychological health among coastal communities in the Asia-Pacific region: a systematic review of quantitative and qualitative evidence.

Author

Kabir, Sajjad, Newnham, Elizabeth A., Dewan, Ashraf, Kok, Keegan Qi Xian, and Hamamura, Takeshi

Subjects

*POOR communities, *EMERGENCY management, *PSYCHOLOGICAL vulnerability, *ABSOLUTE sea level change, *COASTAL changes

Abstract

This systematic review assesses the relationship between climate induced coastal hazards and psychological well-being of communities in the Asia-Pacific region. The review synthesises findings from 13 peer-reviewed articles published between 2007 and 2020, encompassing data from seven countries: Bangladesh, India, Indonesia, Philippines, Solomon Islands, Tuvalu, and Vietnam. Results reveals a robust negative association between exposure to coastal hazards and psychological outcomes, notably stress, depression, anxiety, and distress. Most of the studies (77%) corroborate negative impacts of coastal hazards on psychological health. Additionally, 69% of the reviewed articles suggest a correlation between coastal hazards and negative outcomes for community livelihoods and essential resources. The review highlights increased psychological vulnerability among marginalised subpopulations, such as economically disadvantaged communities, a trend supported by 92% of the examined articles. The findings indicates that factors such as environmental vulnerability, resource availability, community traits, and coping methods are important in determining whether a community can effectively handle coastal hazards or face increased psychological health risks. This research aligns with international health frameworks, including the World Health Organization’s Health Emergency and Disaster Risk Management guidelines. However, a notable research gap emerges – the absence of studies that specifically explore psychological responses of communities to ongoing climate-related coastal hazards, such as sea-level rise. These findings emphasise an urgent need for targeted research to guide comprehensive, multidisciplinary policy interventions aimed at mitigating the psychological and socio-economic repercussions of climate-related coastal hazards. [ABSTRACT FROM AUTHOR]

Published

2024

24. Rainfall projections under different climate scenarios over the Kaduna River Basin, Nigeria.

Author

Okafor, Gloria Chinwendu, Ogbu, Kingsley N., Agyekum, Jacob, Limantol, Andrew Manoba, and Larbi, Isaac

Subjects

WATERSHEDS, GREENHOUSE gases, EMERGENCY management, RAINFALL, ATMOSPHERIC models, CLIMATE change

Abstract

This research aimed to assess changes in mean and extreme rainfall within the Kaduna River Basin (KRB), specifically examining the implications of two Representative Concentration Pathways (RCPs)—4.5 and 8.5 scenarios. Employing a quantile mapping technique, this study corrected inherent biases in four Regional Climate Models, enabling the examination of mean precipitation and six indices capturing extreme precipitation events for the 2050s. These findings were compared against a historical reference period spanning from 1981 to 2010, considering the basin's upstream and downstream segments. Results revealed an average annual rainfall reduction under scenarios 4.5 (21.39%) and 8.5 (20.51%) across the basin. This decline exhibited a more pronounced impact on monthly rainfall during the wet season (April to October) compared to the dry season (November to March). Notably, a substantial decrement in wet indices, excluding consecutive wet days (CWD), was foreseen in both seasons for the upstream and downstream areas, signalling an impending drier climate. The anticipated rise in consecutive dry days (CDD) is poised to manifest prominently downstream attributed to global warming-induced climate change brought on by increased anthropogenic emissions of greenhouse gases. These findings accentuate a heterogeneous distribution of extreme rainfall, potentially leading to water scarcity issues throughout the KRB, especially impacting upstream users. Moreover, the projections hint at an increased risk of flash floods during intense wet periods. Consequently, this study advocates the implementation of targeted disaster risk management strategies within the KRB to address these foreseeable challenges. [ABSTRACT FROM AUTHOR]

Published

2024

25. Winter Storm Severity Index in Alaska: Understanding the Usefulness for Impact-Based Winter Weather Severity Forecast Information.

Author

Semmens, Kathryn, Carr, Rachel Hogan, Montz, Burrell, Maxfield, Keri, Tobin, Dana M., Kastman, Joshua, Nelson, James A., Harnos, Kirstin, Beetstra, Margaret, and Painter, Patrick

Subjects

*WEATHER forecasting, *SOCIAL science research, *EMERGENCY management, *CLIMATE change, *STORMS, *WINTER storms

Abstract

There is growing interest in impact-based decision support services to address complex decision-making, especially for winter storm forecasting. Understanding users' needs for winter storm forecast information is necessary to make such impact-based winter forecasts relevant and useful to the diverse regions affected. A mixed-method social science research study investigated extending the winter storm severity index (WSSI) [operational for the contiguous United States (CONUS)] to Alaska, with consideration of the distinct needs of Alaskan stakeholders and the Alaskan climate. Data availability differences suggest the need for an Alaska-specific WSSI, calling for user feedback to inform the direction of product modifications. Focus groups and surveys in six regions of Alaska provided information on how the WSSI components, definitions, and categorization of impacts could align with stakeholder expectations and led to recommendations for the Weather Prediction Center to consider in developing the WSSI Alaska product. Overall, wind (strength and direction) and precipitation are key components to include. Air travel is a critical concern requiring wind and visibility information, while road travel is less emphasized (contrasting with CONUS needs). Special Weather Statements and Winter Storm Warnings are highly valued, and storm trajectory and transition (between precipitation types) information are the important contexts for decision-makers. Alaska is accustomed to and prepared for winter impacts but being able to understand how components (wind, snow, and ice) contribute to overall impact enhances the ability to respond and mitigate damage effectively. The WSSI adapted for Alaska can help address regional forecast needs, particularly valuable as the climate changes and typical winter conditions become more variable. Significance Statement: Impact-based support services can assist decision-makers in prioritizing preparedness and mitigation actions related to winter storm events. The winter storm severity index adapted for specific considerations in Alaska (such as including wind and visibility components) can extend winter weather impact-based forecasting's utility. Additionally, lessons learned from the process of adapting a national product to specific regional needs may inform best practices for gathering stakeholder input and feedback. [ABSTRACT FROM AUTHOR]

Published

2024

26. İklim Değişikliğinin ve Kentleşmenin Etkilerini Akarsu Kıyısı Yerleşim Alanlarında Sel Felaketi Üzerinden Tartışmak.

Author

Özdemir, Zeynep and Yolcu, Merve Özkaynak

Subjects

EMERGENCY management, FORESTS & forestry, RAINFALL, FLOOD risk, BUILT environment, NATURAL disasters

Abstract

Copyright of Journal of Natural Hazards & Environment (JNHE) / Doğal Afetler ve Çevre Dergisi (DACD) is the property of Artvin Coruh University and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

27. Geospatial Analysis of Flood Susceptibility in Nigeria's Vulnerable Coastal States: A Detailed Assessment and Mitigation Strategy Proposal.

Author

Bello, Muhammad, Singh, Saurabh, Singh, Suraj Kumar, Pandey, Vikas, Kumar, Pankaj, Meraj, Gowhar, Kanga, Shruti, and Sajan, Bhartendu

Subjects

EMERGENCY management, CLIMATE change models, COASTAL changes, GEOGRAPHIC information systems, GEOSPATIAL data, HAZARD mitigation, DISASTER resilience, FLOOD risk

Abstract

This study employs advanced geospatial analytical techniques to evaluate the vulnerability of Nigeria's coastal states and their constituent local government areas to flood hazards, which represent a critical and escalating risk within the coastal hazard paradigm intensified by climate change phenomena. The study's objective is to utilize geospatial data to delineate and quantify the intensity and distribution of flood susceptibility, thus establishing a foundational framework for developing comprehensive disaster management strategies in response to the challenges posed by climate variability. The research uses satellite imagery and geographic information system (GIS)-based hydrological modeling to delineate regions susceptible to flooding, synthesizing topographical and hydrological data to stratify areas into discrete flood susceptibility categories. The findings indicate that the Delta coastal State of Nigeria contains extensive medium to high-risk flood zones spanning 8304.57 km2. While the Bayelsa coastal State of Nigeria presents critical areas at high to very high flood risk, encompassing 5506.61 km2 at high risk and 1826.88 km2 at very high risk, this highlights the urgent necessity for immediate and strategic mitigation measures. This research highlights the critical importance of geospatial technology in shaping disaster management and enhancing community resilience against increasing flood frequencies. As Nigeria's coastal regions face escalating flood susceptibility, advanced geospatial methods are vital for assessing and mitigating these climate-induced threats, contributing to climate-resilient planning and aligning with Sustainable Development Goal 13: Climate Action. The study's geospatial approach delivers precise flood risk evaluations and guides targeted mitigation efforts, marking significant progress in managing coastal hazards in a changing climate. [ABSTRACT FROM AUTHOR]

Published

2024

28. Assessing and Comparing Smallholders' Vulnerability to Climate Change Among Countries in the Pan-Third Pole Region.

Author

Xiangbo, Xu, Ce, Xu, Chang, Li, Chao, Fu, and Yunqiao, Zhou

Subjects

CLIMATE change, FARMERS, NEPAL Earthquake, 2015, EMERGENCY management, DRINKING water, FOREIGN investments

Abstract

A comprehensive assessment of climate change vulnerability is imperative for formulating effective adaptation strategies and advancing sustainable development goals. As one of the most climate-vulnerable regions globally, the Pan-Third Pole area lacks transnational vulnerability assessments, which poses a significant obstacle to efficient climate adaptation. This study conducted transnational comparisons based on primary micro-survey data collected uniformly across Nepal, Cambodia, Thailand, and Myanmar, which are all located in the Pan-Third Pole region. Evaluating and comparing the vulnerabilities employed an extended framework of climate change indicators. The findings reveal substantial variations in vulnerability among the countries, with Cambodia exhibiting the highest vulnerability, followed by Thailand, Myanmar, and Nepal in descending order, primarily due to differences in exposure. Household exposure to climate change also varied significantly. Sensitivity scores decreased in the order of Nepal > Cambodia > Thailand > Myanmar, with demographic factors, tap water accessibility, and land being the major contributors and sources of differentiation among the countries. Regarding adaptability, Thailand demonstrated the highest adaptability, with human and financial capital as the key differentiators. The outcomes underscore the need for tailored policy measures addressing the diverse vulnerabilities, including enhancing household disaster prevention and capital protection. Furthermore, targeted international investments are crucial for improving adaptability among smallholders in this unique region. [ABSTRACT FROM AUTHOR]

Published

2024

29. President and Commonwealth Secretary Discuss Climate Challenges.

Subjects

CLIMATE change, EMERGENCY management, HOUSE plants, WEATHER, MANGROVE plants

Abstract

President Asif Ali Zardari met with Commonwealth Secretary-General Patricia Scotland to discuss climate change, education, parliamentary exchanges, and disaster preparedness. President Zardari highlighted the impact of erratic weather patterns on Pakistan, particularly the damage caused by the 2022 floods. Ms. Scotland acknowledged Pakistan's vulnerability to climate change and praised the country's support for the Commonwealth's efforts. The president called for increased interactions among parliamentary bodies, youth leaders, and students to strengthen ties with Commonwealth member states. [Extracted from the article]

Published

2024

30. Taming wildfires in the context of climate change: The case of Greece.

Subjects

WILDFIRES, CLIMATE change, WILDFIRE prevention, WILDFIRE risk, WILDLAND-urban interface, EMERGENCY management

Published

2024

31. Flood risk mapping under changing climate in Lower Tapi river basin, India.

Author

Chandole, Vishal, Joshi, Geeta S., and Srivastava, Vijay Kumar

Subjects

*FLOOD risk, *WATERSHEDS, *GEOGRAPHIC information systems, *ANALYTIC hierarchy process, *CLIMATE change, *EMERGENCY management, *LAND cover

Abstract

Now a days, assessment of flood risk is a significant concern worldwide, particularly in regions experiencing rapid urbanization and climate change. This study utilizes the analytic hierarchy process and Geographic Information Systems to assess flood risk under changing climate in the Lower Tapi river basin (LTRB) in India. The objective is to develop flood hazard and flood vulnerability maps and subsequently to create a flood risk map by integrating them in LTRB in a Base and Advance scenario, i.e., under changing climate. The change point study to identify Advance scenario has been employed to distinguish the year from which sudden change in the data emerge out. The flood risk contributing factors are included in this study are Elevation, Distance from river, Average annual rainfall, Drainage density, Normalized Difference Vegetation Index, Slope, Clay percentage, Topographic Wetness Index, Population density, Average Crop production, Land use Land cover, and Road River intersection. The developed flood risk map has been separated into five zones of the level of risk, namely very high, high, moderate, low, and very low-risk zones. The flood risk maps developed in Base scenario and in Advance scenario are compared to investigate the impact of changing climate in Lower Tapi river basin. It is revealed that the high and very high-risk zone area proliferated, and very low and moderate risk area condensed in the Advance scenario. The developed flood risk maps in Base and Advance scenario can aid in effective disaster management and planning for the region under changing climate. [ABSTRACT FROM AUTHOR]

Published

2024

32. The Impact of Climate Change on the Spatiotemporal Distribution of Early Frost in Maize Due to the Northeast Cold Vortex.

Author

Chu, Zheng, Jiang, Lixia, Duan, Juqi, Gong, Jingjin, Wang, Qiujing, Ji, Yanghui, and Lv, Jiajia

Subjects

*EXTREME weather, *FROST, *CLIMATE change, *WEATHER, *EMERGENCY management

Abstract

Agro-meteorological disasters are a significant cause of crop yield reduction. Northeast China is a major base for commodity grain production and is also highly sensitive to climate change. Early frost is one of the most significant meteorological disasters in Northeast China. The typical weather system serves as the primary meteorological cause of the occurrence of early frost. The Northeast Cold Vortex is a cyclonic system of certain intensity located in Northeast China, which has the potential to induce severe weather conditions such as extreme low temperatures and intense convection. Despite extensive research on the first occurrence of frost in Northeast China, the evolutionary characteristics under the combined influence of climate change and the Northeast Cold Vortex remain unclear. This limitation hinders the development of effective monitoring and early warning systems for early frost, as well as the formulation of disaster prevention and mitigation plans for crop production. Therefore, this study aims to objectively document the occurrence of early frost in maize crops in Northeast China from 1961 to 2021 under the influence of the Northeast Cold Vortex. It seeks to unveil the climatic characteristics and evolutionary patterns of early frost events in maize crops within this region, considering the impact of the Northeast Cold Vortex. Additionally, it endeavors to analyze the factors contributing to varying degrees of early frost caused by the Northeast Cold Vortex. The results showed that the occurrence of both early frost and frost influenced by the Northeast Cold Vortex exhibited a declining trend. Furthermore, there was also a decreasing proportion of initial frost attributed to the Northeast Cold Vortex, with a decline rate of 2% per decade, indicating a diminishing dominance of initial frost caused by this weather system. The onset date for the early frost under the influence of the Northeast Cold Vortex progressively advanced from southeast to northwest, occurring 4 days earlier than during the period from 1961 to 1990 between 1991 and 2021. While early frost displayed an increasing spatial distribution from southeast to northwest, it is noteworthy that the majority concentration of the Northeast Cold Vortex was observed in central regions, highlighting its predominant role in causing early frost in Northeast China. [ABSTRACT FROM AUTHOR]

Published

2024

33. Preparedness for recurrent drought disaster: insights from the Sudano-Sahelian zone of Cameroon.

Author

Ntali, Yeluma Mary and Lyimo, James G.

Subjects

*DROUGHT management, *SCIENTIFIC knowledge, *DROUGHTS, *EMERGENCY management, *PREPAREDNESS, *TRADITIONAL knowledge, *NATURAL disasters, *CLIMATE change

Abstract

This study examined the drought preparedness of drought-prone communities in the Sudano-Sahelian zone of Cameroon. The study employed a mixed-method approach, using qualitative and quantitative data collection methods, including interviews, household surveys, focus group discussions, and field observations. The data were then analysed using SPSS for quantitative data and content analysis for qualitative data. The results reveal that the respondents primarily rely on their personal and community abilities to prepare for droughts. A significant proportion (χ2 = 11.676, P = 0.020) of the respondents depend on community leaders for drought information, while others rely on family and friends. They also use indigenous knowledge and construct boreholes/wells to prepare for droughts. However, limited government support, inadequate extension/scientific support services, and insufficient formal training limited drought preparedness. Age, household size, and income significantly influenced perceived preparedness for drought. Based on the findings, the study concludes that informal/locally-driven strategies are important in drought preparedness and should be strengthened. The study recommends the establishment of drought management committees at the grassroots level and the effective use of indigenous knowledge in combination with scientific knowledge for drought planning and adaptation. Given the geographical variation in climatic stressors, a focus on a specific event such as drought has enhanced the understanding of drought disaster preparedness at the community level for effective planning and policy interventions. This study contributes to the literature in the disaster preparedness discipline with a lens on community drought preparedness. [ABSTRACT FROM AUTHOR]

Published

2024

34. Escalation of tropical cyclone impacts on the northwestern Bay of Bengal over the past decade.

Author

Wu, Dijia, Ju, Xia, Sun, Jia, Hu, Xiaomin, and Xiong, Xuejun

Subjects

*VERTICAL wind shear, *STORMS, *EMERGENCY management, *WEATHER, *OCEAN temperature, *TROPICAL cyclones

Abstract

Tropical cyclones have resulted in casualties and economic losses in the areas surrounding the Bay of Bengal (BoB). Thus, a comprehensive investigation of these tropical cyclones holds vital implications for disaster preparedness and mitigation. This paper compares the occurrence of storms in the last two decades, i.e., 2002–2011 and 2012–2021, and results reveal that such storms exhibited predominantly a northwesterly track towards the northwestern BoB, with a severer intensity but equal total storm frequencies. Over the past decade, a southeast-northwest pathway (SNP) was identified, demonstrating a higher incidence of severe tropical cyclones (STC, with lifetime maximum intensity ≥ 64 knots) over the BoB. Further analysis of the changes in the environmental conditions between these two decades indicates that a southeasterly anomaly in the steering flow contributed to the formation of the SNP. During the same period, the more favorable oceanic conditions during the last decade, including higher sea surface temperatures, a greater upper ocean heat content, a thicker warm water layer, and a thicker barrier layer beneath the SNP, favored the development of these storms by providing more heat energy to the storms. The atmospheric conditions, including increased air-sea heat fluxes, moisture, and instability within the lower troposphere, as well as reduced vertical wind shear, facilitated the development of convection within these storm systems. These favorable conditions improved the potential for storm development into STCs and elevated the risk of the northwestern BoB being impacted by more destructive storms. [ABSTRACT FROM AUTHOR]

Published

2024

35. "Emergency Decisions": The Choice of a Simulated Emergency Scenario to Reproduce a Decision-Making Condition in an Emergency Context as Close to Reality as Possible.

Author

D'Alessio, Ivan

Subjects

DECISION making, CRISIS management, EMERGENCY management, EMOTIONS, CLIMATE change

Abstract

Decisions are a crucial aspect of human life, especially when made in emergency contexts. This research involved 348 subjects, evaluating the relationship between socio-demographic variables and the choice of one of the proposed emergency scenarios suitable for reproducing a decision-making condition in an emergency. Three scenarios were presented: one on climate change, one on pandemics, and one on seismic events. The survey captured individuals' perceptions of the scenarios for dimensions such as realism (present, past, and future), emotions, risk, worry, emergency, catastrophe, immediate choice, and immediate decision. The results suggest that age, gender, education, and previous experience are predictive factors for subjects' preferences regarding the chosen scenario and their evaluation of the related dimensions. To optimize decisions in emergencies by institutional decision makers and crisis managers, it is useful to expand knowledge and have data relevant to this area. This research provides a basis in terms of data and tools for designing future research and studies on decision making in emergency contexts. [ABSTRACT FROM AUTHOR]

Published

2024

36. Media and Natural Disasters: Organising Storytelling in the Age of Climate Change.

Author

Buoncompagni, Giacomo

Subjects

NATURAL disasters, EMERGENCY management, CLIMATE change, HAZARD mitigation, STORYTELLING, LOCAL mass media

Abstract

Starting on 2 November 2023, some territories in the Region of Tuscany in Italy were hit by exceptionally intense meteorological and calamitous events. The Region of Tuscany's government was immediately at the forefront of relief, assisting the population, and aiding restoration. On 3 November, a national state of emergency was declared due to flooding. Journalistic communication is an essential aspect of disaster mitigation, preparedness, response and recovery. In terms of protecting people and reducing damage, journalists and the media have an important role to play. This article reports an Italian case study analysing the behaviour of local media in cases of natural disaster. Nine focus groups were conducted with local journalists covering the flood emergency. The results highlight the role of social and institutional mediation, rather than mere dissemination, played by the local press in emergency situations, a central element in the construction of a community bond, precisely in moments of insecurity and disorientation. The narration of a disaster from the inside seems to have allowed the emergence and representation of hitherto unknown social realities in Tuscany. The goal of the news coverage was widened, making it possible to respond better to the diverse interests of the reading public and to satisfy in a short time and exhaustively the information needs of individual communities in difficulty. [ABSTRACT FROM AUTHOR]

Published

2024

37. ESTUDI DELS INSTRUMENTS DE PLANIFICACIÓ HIDROLÒGICA EN UN CONTEXT D'ESCASSETAT I SEQUERA PEL CANVI CLIMÀTIC.

Author

Pallarès Serrano, Anna

Subjects

EMERGENCY management, CLIMATE change, URBANIZATION, WATER management, SCARCITY, DROUGHTS

Abstract

Copyright of Revista Catalana de Dret Públic is the property of Revista Catalana de Dret Public and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

38. Quantifying the Regulation Capacity of the Three Gorges Reservoir on Extreme Hydrological Events and Its Impact on Flow Regime in a Changing Climate.

Author

Cheng, Han, Wang, Taihua, and Yang, Dawen

Subjects

WATER management, MACHINE learning, EMERGENCY management, WATERSHED management, GORGES, CLIMATE change, DROUGHTS

Abstract

The Three Gorges Reservoir (TGR) is one of the world's largest hydropower projects and plays an important role in water resources management in the Yangtze River. For the sake of disaster prevention and catchment management, it is crucial to understand the regulation capacity of the TGR on extreme hydrological events and its impact on flow regime in a changing climate. This study obtains historical inflows of the TGR from 1961 to 2019 and uses a distributed hydrological model to simulate the future inflows from 2021 to 2070. These data are adopted to drive a machine learning‐based TGR operation model to obtain the simulated outflow with TGR operation, which are then compared with the natural flow without TGR operation to assess the impact of TGR. The results indicate that the average flood peaks and total flooding days in the historical period could have been reduced by 29.2% and 53.4% with the operation of TGR. The relative declines in drought indicators including duration and intensity were generally less than 10%. Faced with more severe extreme hydrological events in the future, the TGR is still expected to alleviate floods and droughts, but cannot bring them down to historical levels. The impact of TGR operation on flow regime will also evolve in a changing climate, potentially altering the habitats of river ecosystems. This study proposes feasible methods for simulating the operation of large reservoirs and quantifying the impact on flow regime, and provides insights for integrated watershed management in the upper Yangtze River basin. Plain Language Summary: The Three Gorges Reservoir (TGR) is located in the upper Yangtze River basin and is one of the world's largest hydropower projects. This study combines hydrological modeling and machine learning methods to quantify the effects of TGR operation on flow regime in the historical and future periods. The results indicate that the operation of TGR could play an important role in mitigating historical droughts and floods. Specifically, the flood peak in 1998 could have been reduced by 24.7% if the TGR was in operation. In the future, the extreme hydrological events will become more severe. While the TGR will continue to play a significant role, it cannot fully control floods and droughts to the same extent as it did in the historical period. In a changing climate, the Yangtze River basin will still face higher flood and drought risks with the operation of TGR. Under future climate scenarios, the operation of TGR will also alter the flow regime metrics and have new implications on the river ecosystem environment. Key Points: An ensemble learning model based on two neural networks is constructed to simulate Three Gorges Reservoir (TGR) operationsTGR can mitigate floods and droughts, but this capability might be weakened by more severe future extreme eventsTGR can offset most flow regime changes caused by climate change, but adaptive operation strategies are still needed [ABSTRACT FROM AUTHOR]

Published

2024

39. Weekly Green Tide Mapping in the Yellow Sea with Deep Learning: Integrating Optical and SAR Ocean Imagery.

Author

Gao, Le, Guo, Yuan, and Li, Xiaofeng

Subjects

*MODIS (Spectroradiometer), *SYNTHETIC aperture radar, *MICROWAVE imaging, *DEEP learning, *SHIPWRECKS, *EMERGENCY management, *CLIMATE change

Abstract

Since 2008, the Yellow Sea has experienced a world's largest-scale marine disasters, known as the green tide, marked by the rapid proliferation and accumulation of large floating algae. Leveraging advanced AI models, namely AlgaeNet and GANet, this study comprehensively extracted and analyzed green tide occurrences using optical Moderate Resolution Imaging Spectroradiometer (MODIS) images and microwave Sentinel-1 Synthetic Aperture Radar (SAR) images. Most importantly, this study presents a continuous and seamless weekly average green tide coverage dataset with the resolution of 500 m, by integrating high precise daily optical and SAR data during each week during the green tide breakout. The uncertainty assessment of this weekly product shows it is completely consistent with the overall direct average of the daily product (R2=1 and RMSE=0). Additionally, the individual case verification in 2019 also shows that the weekly product conforms to the life pattern of green tide outbreaks and exhibits parabolic curve-like characteristics, with an low uncertainty (R2=0.89 and RMSE=275 km2).This weekly dataset offers reliable long-term data spanning 15 years, facilitating research in forecasting, climate change analysis, numerical simulation and disaster prevention planning in the Yellow Sea. The dataset is accessible through the Oceanographic Data Center, Chinese Academy of Sciences (CASODC), along with comprehensive reuse instructions provided at http://dx.doi.org/10.12157/IOCAS.20240410.002 (Gao et al., 2024). [ABSTRACT FROM AUTHOR]

Published

2024

40. 中国城市洪涝问题: 现状、 成因与挑战.

Author

宋晓猛, 徐楠涛, 张建云, and 贺瑞敏

Subjects

*EMERGENCY management, *CLIMATE change, *HAZARD mitigation, *URBAN planning, *PUBLIC safety

Abstract

Urban flooding has become an extremely serious disaster in China due to global climate change and rapid urbanization, resulting in a prominent bottleneck that affects urban public safety and high-quality development. This paper provides an overview of the types and characteristics of urban floods, based on existing literature, disaster records, and statistical yearbooks. It also summarizes the current status and development trends of urban flooding in China. Moreover, this review discusses the main causes of urban flooding in China from multidisciplinary perspectives, including the changes in precipitation patterns, rainfall- runoff relationships, drainage networks, and urban planning and management. Finally, this work describes the primary challenges and potential future developments related to urban flooding. It is necessary to focus on the theoretical and practical exploration of data monitoring and information sharing, theoretical analysis and mechanism research, cause- driven and quantitative identification, early warning and forecasting, risk assessment and management for urban flooding in the future, which can provide the support to improve urban disaster prevention and mitigation, as well as the integrated management of urban flooding in a changing environment. [ABSTRACT FROM AUTHOR]

Published

2024

41. Risk Assessment of Agrometeorological Disasters in North China Under Warming Environment I: Agricultural Drought Risk Assessment and Adaptation Countermeasures Based on Comprehensive Index System Method.

Author

ZHU Jun, WANG Jin-chen, ZHANG Qi, HUANG Shao-feng, and YANG Zai-qiang

Subjects

*DROUGHT management, *FARM risks, *DROUGHTS, *RISK assessment, *EMERGENCY management, *HAZARD mitigation, *CLIMATE change

Abstract

Droughts are increasing in frequency and intensity as the global climate changes. Risk assessment for agricultural drought disasters is an important approach for disaster prevention and mitigation. Based on the formation mechanism of natural disaster risk, the index system model of agricultural drought risk assessment in North China was constructed, and the robustness of the established risk assessment model was tested by using the internal test method. Then based on the characteristics of agricultural drought risk formation in North China, the paper proposes corresponding risk prevention recommendations. The conclusions were as follows: when adjusting the indices and methods in the risk assessment model, the range of changes in the agricultural drought risk ranking for each city was mostly 1-2.5 places, and the model was relatively robust. With the exception of Beijing and Tianjin, which had the highest disaster prevention and mitigation capacity, central and northern China had the highest agricultural drought risk, which was previously linked to the high risk and vulnerability of these regions. The agricultural drought risk in northern Henan and southern Shandong is low, mainly due to the low risk. The 34 cities in North China can be divided into 6 agricultural drought risk clusters, which are not dispersed in space and cross-city distribution, and have good aggregation. Cluster 4, located in the northernmost mountainous areas, has the highest risk of drought, which is associated with high environmental vulnerability and low capacity for disaster prevention and mitigation, so agricultural areas should be reduced and agricultural input should be increased. Clusters 2, 5 and 6, located in the central and southern regions, have higher grain acreage and yields due to drought, so agricultural drought risk can be further reduced by increasing agricultural input and improving irrigation guarantee rate. [ABSTRACT FROM AUTHOR]

Published

2024

42. Managing menstruation during natural disasters: menstruation hygiene management during "super floods" in Sindh province of Pakistan.

Author

Sadique, Salma, Ali, Inayat, and Ali, Shahbaz

Subjects

*CHILDREN'S health, *MENSTRUAL cycle, *MENSTRUATION, *WELL-being, *WOMEN'S cycling, *EMERGENCY management, *NATURAL disasters

Abstract

Menstruation is part of women's normal life, which requires basic hygienic practices. Managing hygiene can be affected by several factors and situations such as natural disasters. Focusing on 'super flooding' in Pakistan's Sindh Province, we pay attention to how this 'natural disaster' has affected hygienic practices of menstrual cycle of women. The study meticulously examines the dynamics of menstrual hygiene management, encompassing the nuanced encounters with feelings of shame and embarrassment among girls and women situated in flood camps, schools, and community shelters. It also intends to highlight women's challenge and embarrassment to participate in the distribution process of essential resources such as pads. The insights garnered from this study hold potential relevance for various stakeholders, including policymakers, healthcare practitioners, and researchers, offering a nuanced comprehension of the intersection of menstrual hygiene, climate change, and well-being of women. [ABSTRACT FROM AUTHOR]

Published

2024

43. Use of Soil Moisture as an Indicator of Climate Change in the SUPer System.

Author

Galvincio, Josicleda Domiciano, de Queiroga Miranda, Rodrigo, and da Luz, Gabrielly Gregorio

Subjects

SOIL moisture, WATERLOGGING (Soils), LANDSLIDES, FLOOD risk, CLIMATE change, EMERGENCY management, RAINFALL

Abstract

Soil moisture can be an important indicator of climate change in humid and semi-arid areas. This indicator can more efficiently propose different public policies related to climate change than just using precipitation and temperature data. Given the above, the objective of this study is to evaluate changes in soil moisture in the state of Pernambuco during the period 1961–2021, using the System of Hydrological Response Units for Pernambuco. In this study, two river basins in the state of Pernambuco that represent the different climatic conditions of the state were chosen. The results show that in the coastal region there is a tendency towards more saturated soils, and in the semi-arid region there is a tendency towards drier soils. With these results, it is possible to conclude that public policy decisions for the economy, environment, and society must consider this vital water balance variable. Leveraging soil moisture and precipitation data makes it possible to differentiate between flood risks and landslide vulnerabilities, particularly in regions characterized by higher levels of rainfall. Monitoring soil water content in humid and semi-arid areas can significantly enhance early warning systems, thereby preventing loss of life and minimizing the socio-economic impacts of such natural events. As such, this study provides a holistic understanding of the relationship between climatic patterns, soil moisture dynamics, and the occurrence of droughts and floods, ultimately contributing to more effective disaster preparedness and response measures in Pernambuco and similar regions. [ABSTRACT FROM AUTHOR]

Published

2024

44. People's Perception of Climate Change Impacts on Subtropical Climatic Region: A Case Study of Upper Indus, Pakistan.

Author

Ahmad, Bashir, Nadeem, Muhammad Umar, Hussain, Saddam, Hussain, Abid, Virik, Zeeshan Tahir, Jamil, Khalid, Raza, Nelufar, Kamran, Ali, and Dogar, Salar Saeed

Subjects

CONSCIOUSNESS raising, WOMEN'S empowerment, EMERGENCY management, CLIMATE change, SOCIOECONOMIC factors, RAINFALL

Abstract

In developing countries like Pakistan, the preservation of the environment, as well as people's economies, agriculture, and way of life, are believed to be hampered by climate change. Understanding how people perceive climate change and its signs is essential for creating a variety of adaptation solutions. In this study, we aim to bridge the gap in current research within this area, which predominantly relies on satellite data, by integrating qualitative assessments of people's perceptions of climate change, thereby providing valuable ground-based observations of climate variability and its impacts on local communities. Field-based data were collected at different altitudes (upstream (US), midstream (MS), and downstream (DS)) of the Upper Indus Basin using both quantitative and qualitative assessments in 2017. The result shows that these altitudes are highly variable in many contexts: socioeconomic indicators of education, agriculture, income, women empowerment, health, access to basic resources, and livelihood diversifications are highly variable in the Indus Basin. The inhabitants of the Indus Basin perceive the climate changing around them and report impacts of this change as increase in overall temperatures (US 96.9%, MS 97%, DS 93.6%) and erratic rainfall patterns (US 44.1%, MS 73.3%, DS 51.0%) resulting in increased water availability for crops (US 38.6%, MS 39.7%, DS 54.8%) but also increasing number of dry days (US 56.7%, MS 85.5%, DS 67.1%). Communities at these altitudes said that agriculture was their primary source of income, making them particularly vulnerable to the effects of climate change and the dangers that go along with it. The insights are useful for determining what information and actions are required to support local climate-related hazard management in subtropical climate regions. Moreover, it is vital to launch a campaign to raise awareness of potential hazards, as well as to provide training and an early warning system. [ABSTRACT FROM AUTHOR]

Published

2024

45. Methods for Constructing a Refined Early-Warning Model for Rainstorm-Induced Waterlogging in Historic and Cultural Districts.

Author

Wu, Jing, Li, Junqi, Wang, Xiufang, Xu, Lei, Li, Yuanqing, Li, Jing, Zhang, Yao, and Xie, Tianchen

Subjects

CULTURAL districts, HISTORIC districts, RAINSTORMS, FLOOD warning systems, CLIMATE change, RAINFALL, CULTURAL property

Abstract

Against the backdrop of increasingly severe global climate change, the risk of rainstorm-induced waterlogging has become the primary threat to the safety of historic and cultural districts worldwide. This paper focuses on the historic and cultural districts of Beijing, China, and explores techniques and methods for identifying extreme rainstorm warnings in cultural heritage areas. Refined warning and forecasting have become important non-engineering measures to enhance these districts' waterlogging prevention control and emergency management capabilities. This paper constructs a rainstorm-induced waterlogging risk warning model tailored for Beijing's historical and cultural districts. This model system encompasses three sets of models: a building waterlogging early-warning model, a road waterlogging early-warning model, and a public evacuation early-warning model. During the construction of the model, the core concepts and determination methods of "1 h rainfall intensity water logging index" and "the waterlogging risk index in historical and cultural districts" were proposed. The construction and application of the three models take into full account the correlation between rainfall intensity and rainwater accumulation, while incorporating the characteristics of flood resilience in buildings, roads, and the society in districts. This allows for a precise grading of warning levels, leading to the formulation of corresponding warning response measures. Empirical tests have shown that the construction method proposed in this paper is reliable. The innovative results not only provide a new perspective and method for the early-warning of rainstorm-induced waterlogging, but also offer scientific support for emergency planning and response in historical and cultural districts. [ABSTRACT FROM AUTHOR]

Published

2024

46. Climate change and ecological sustainability in Zimbabwe: Interrogating the role of Higher Education Institutions in disaster management.

Author

Macheka, Mavis Thokozile

Subjects

EMERGENCY management, SUSTAINABILITY, CLIMATE change adaptation, UNIVERSITIES & colleges, CLIMATE change, TRADITIONAL ecological knowledge, ENVIRONMENTAL disasters, ECOLOGICAL modernization

Abstract

Zimbabwe has been hit by a number of cyclones in the last two decades, namely Cyclone Eline in 2000, Cyclone Japhet in 2003, Cyclone Dineo in 2017, Cyclone Idai in 2019, Tropical Storm Chalane in 2020, Cyclone Eloise in 2021, Cyclone Ana in 2022 and Cyclone Freddy in 2023. Resultantly, the issue of ecological sustainability becomes a key priority issue in the country, and thus, all key stakeholders' participation becomes imperative. Against this background, the study interrogates the level of participation and inclusion of Higher Education Institutions (HEIs) in climate change and disaster management in Zimbabwe. This qualitative research adopted a mixed research approach where data were gathered and generated through self‐administered and online questionnaires, focus group discussions, key informant interviews and document review. Findings revealed that the available laws, structures and mechanisms for climate change management and disaster prevention do not have provision for the participation of HEIs. The study further established mixed views among the participants regarding the efforts by HEIs in climate change and disaster management. On one hand, academics and students highlighted roles of HEIs in climate change management, and these include material donations, knowledge creation, training community on climate mainstreaming, awareness campaigns, leading climate change adaptation projects, leading climate change mitigation projects and testing and deployment of innovative practices. On the other, communities voiced their concern on the low level of participation by HEIs. Results illustrate that HEIs do not fully participate in ecological sustainability outside the academia realm. Therefore, the study concludes that in order to realize ecological sustainability, these policy gaps and inconsistences and failures could be bridged by allowing HEIs as centres of knowledge creation to be key players in climate change and disaster management. The 'business as usual' approach to environmental challenges could be changed to being key players in addressing climate change issues. [ABSTRACT FROM AUTHOR]

Published

2024

47. Rising to the Climate Challenge: Better Understanding the Rural Rainstorm Flooding Disaster Risk Management Using Practical Insights from China.

Author

Kong, Feng

Subjects

RAINSTORMS, CLIMATE change, WATER conservation projects, DISASTER relief, FLOOD risk, EXTREME weather, NATURAL disasters

Abstract

In light of the challenges posed by climate change and rural revitalization, high-quality construction in rural areas is facing significant obstacles from rainstorm flooding. This study adopts a regional disaster system analysis framework and examines the characteristics of rural rainstorm flooding disasters, including the instability of the breeding environment, the hazard characteristics, and the vulnerability of the exposure. Using this framework, we explore the various causes of rainstorm flooding in rural China, assess the effectiveness of responses to these disasters, and examine the differences between urban and rural responses. Our analysis reveals that the increase in rainstorm flooding in rural China is a complex result of multiple factors, including increased risk, instability, and vulnerability. While rural areas have made some progress in monitoring and responding to rainstorm flooding disasters, they remain weaker than cities in terms of governance and disaster management systems. To address these challenges, we recommend increased attention to rural flood control and disaster reduction, stronger preparation for disaster prevention and reduction plans, enhanced rural disaster infrastructure defense, increased financial support for water conservancy projects, and stronger professional emergency response teams, disaster relief equipment, and materials. Additionally, we recommend strengthening disaster prevention and reduction education and publicity among rural residents to promote the ability to self-rescue and mutual rescue. The disastrous impact of climate change and resulting extreme weather events on rural areas has become increasingly evident in recent years. China's vast rural areas have been particularly affected by frequent rainstorm flooding disasters. This paper identifies the increase in rainstorms, the instability of the disaster breeding environment in rural areas, and the increased vulnerability of exposures in these areas as the main reasons behind the intensification of rural rainstorm flooding. To mitigate the impact of these disasters, attention should be paid to natural disaster risk management, normalized flood control, and disaster reduction in rural areas. This requires overall coordination of rural disaster prevention and reduction planning, emphasis on improving the defense capacity of rural areas, increasing financial support for defensive water conservancy projects, promoting the construction of professional emergency rescue teams in rural areas, scientifically distributing flood prevention and disaster relief equipment and materials, strengthening publicity and education on disaster prevention and reduction, and enhancing rural disaster prevention awareness and self-rescue and mutual rescue capabilities. [ABSTRACT FROM AUTHOR]

Published

2024

48. SACRIFICE ZONES.

Author

Rosenbloom, Jonathan

Subjects

CLIMATE change, HABITATS, ENVIRONMENTAL justice, HEAT waves (Meteorology), EMERGENCY management

Abstract

Thousands of acres of land have been lost to climate change. Additional thousands, if not millions, of acres will become uninhabitable because of floods, droughts, heatwaves, wildfires, and a host of other known and unknown climate impacts. Yet people continue to build in such areas, adding homes, businesses, infrastructure, and so on, guaranteeing that state and local governments will be perpetually engaged in emergency management and salvage operations into the indefinite future. From a climate change perspective, such construction reduces our resiliency while it increases our vulnerability to the demands of climate change. To prevent this extremely dangerous and expensive future, this Article proposes a new land use approach to regulate highly at-risk areas. Applying several existing zoning tools in new ways, such as overlay zones and floating zones, and one newer zoning tool, called environmental justice zones, this Article proposes "Sacrifice Zones." A Sacrifice Zone identifies areas where new and existing construction will exacerbate already dangerous climate conditions. Within these areas, certain regulations apply, such as a moratorium on building, the relocation of existing residents, and regenerative tools to limit dangerous and expensive development while building adaptive capacities. Designating a Sacrifice Zone can help enhance, restore, and regenerate ever-decreasing biodiversity and wildlife habitats, while moving toward a more sustainable and environmentally safe future. [ABSTRACT FROM AUTHOR]

Published

2024

49. Climate crisis risks to elderly health: strategies for effective promotion and response.

Author

Hosseini, Mahsa Madani, Zargoush, Manaf, and Ghazalbash, Somayeh

Subjects

*ELDER care, *ENVIRONMENTAL health, *PSYCHOLOGICAL resilience, *GOVERNMENT policy, *WILDFIRES, *GREENHOUSE effect, *INTERPROFESSIONAL relations, *SELF-efficacy, *CLIMATE change, *MEDICAL care, *RISK management in business, *BENCHMARKING (Management), *CRISIS intervention (Mental health services), *STRATEGIC planning, *WORLD health, *VECTOR-borne diseases, *ROOT cause analysis, *EXTREME weather, *POLLUTION, *CONCEPTUAL structures, *GEOGRAPHIC information systems, *HEALTH promotion, *HEALTH equity, *EMERGENCY management, *NATURAL disasters, *PSYCHOLOGICAL vulnerability, *OLD age

Abstract

The climate crisis significantly impacts the health and well-being of older adults, both directly and indirectly. This issue is of growing concern in Canada due to the country's rapidly accelerating warming trend and expanding elderly population. This article serves a threefold purpose: (i) outlining the impacts of the climate crisis on older adults, (ii) providing a descriptive review of existing policies with a specific focus on the Canadian context, and (iii) promoting actionable recommendations. Our review reveals the application of current strategies, including early warning systems, enhanced infrastructure, sustainable urban planning, healthcare access, social support systems, and community engagement, in enhancing resilience and reducing health consequences among older adults. Within the Canadian context, we then emphasize the importance of establishing robust risk metrics and evaluation methods to prepare for and manage the impacts of the climate crisis efficiently. We underscore the value of vulnerability mapping, utilizing geographic information to identify regions where older adults are most at risk. This allows for targeted interventions and resource allocation. We recommend employing a root cause analysis approach to tailor risk response strategies, along with a focus on promoting awareness, readiness, physician training, and fostering collaboration and benchmarking. These suggestions aim to enhance disaster risk management for the well-being and resilience of older adults in the face of the climate crisis. [ABSTRACT FROM AUTHOR]

Published

2024

50. Rapid review of the impacts of climate change on the health system workforce and implications for action

Author

Kiera Tsakonas, Simi Badyal, Tim Takaro, and Chris G. Buse

Subjects

Health system workforce, Climate change, Adaptation, Climate emergency, Emergency management, Public aspects of medicine, RA1-1270, Meteorology. Climatology, QC851-999

Abstract

Introduction: The cascading impacts of climate change have significant implications for public health and healthcare delivery globally. This review explores how climate change impacts the health system workforce (both public health and healthcare service delivery), and what adaptation strategies are being deployed to mitigate against extreme climate events. Methods: The review draws from English language peer-reviewed articles published between 2003 and 2023, that forefront experiences and adaptations to climate change events as they relate to the health system workforce. Out of 1662 articles, upon completing title and abstract review, two reviewers completed full-text review of 130 articles, removing 92 for not meeting inclusion criteria, resulting in 38 articles. Articles were analyzed in relation to the World Health Organization Climate Resilient Health Systems Framework. Results: Emergent themes highlight occupational health impacts such as physical hazards, burn out and psychosocial impacts. Adaptive strategies to address these impacts include bolstering transformative leadership praxis, psychosocial support provision, emergency preparedness and planning, and scaling up climate-related emergency preparedness through the development of climate change core competencies and multi-sectoral collaboration strategies. Conclusions: Our review illustrates the limitations and opportunities of current adaptive strategies being utilized to support the healthcare workforce around the world, highlights the need for immediate emissions reductions that will reduce future hazards, and provides recommendations for how these findings can be applied to better prepare the health workforce for a range of climate futures.

Published

2024