🌍 New Publication: Geospatial and Temporal Patterns of Natural and Man-Made (Technological) Disasters (1900–2024): Insights from Different Socio-Economic and Demographic Perspectives 📢
Dear colleagues, We are excited to share that our latest article, „Geospatial and Temporal Patterns of Natural and Man-Made (Technological) Disasters (1900–2024): Insights from Different Socio-Economic and Demographic Perspectives“, has been published in Applied Sciences and is now available online! 📄🔗
🔗 Read the full article here: https://www.mdpi.com/2076-3417/14/18/8129
This research analyzes disaster data over a century, examining the geospatial and temporal distribution of natural and technological disasters across different socio-economic contexts. Our findings shed light on the frequency, location, and severity of disasters worldwide, offering a comparative perspective between high- and low-income countries.
Key insights:
🌍 The results showed a dramatic escalation in both natural and man-made (technological) disasters over the decades, with notable surges in the 1991–2000 and 2001–2010 periods.
📊A total of 25,836 disasters were recorded worldwide, of which 69.41% were natural disasters (16,567) and 30.59% were man-made (technological) disasters (9269).
📊The most significant increase in natural disasters occurred from 1961–1970, while man-made (technological) disasters surged substantially from 1981–1990.
📊Seasonal trends reveal that floods peak in January and July, while storms are most frequent in June and October.
📊Droughts and floods are the most devastating in terms of human lives, while storms and earthquakes cause the highest economic losses.
📊The most substantial economic losses were reported during the 2001–2010 period, driven by catastrophic natural disasters in Asia and North America.
📊Also, Asia was highlighted by our research as the most disaster-prone continent, accounting for 41.75% of global events, with 61.89% of these events being natural disasters.
📊 The Pearson correlation analysis underscores that socio-economic factors, particularly population density and urbanization rate, play a significant role in influencing the distribution and consequences of disasters, including the number of deaths, injuries, and natural disasters. Higher population density is linked to a greater number of individuals affected, while higher urbanization rates and better governance are associated with a reduction in the overall number of disasters, deaths, and injuries. These insights emphasize the importance of considering socio-economic contexts in disaster risk management, highlighting the need for tailored strategies to enhance community resilience.
We hope this study contributes to the ongoing discussions around improving global disaster risk management strategies and socio-economic resilience.
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