Rainfall intensification amplifies exposure of American Southwest to conditions that trigger postfire debris flows

The use of satellite imagery for surface deformation monitoring has been steadily increasing. However, the study of extracting deformation slopes from deformation data requires further advancement. This limitation not only poses challenges for subsequent studies but also restricts the potential for deeper exploration and utilization of deformation data. The LT-1 satellite, China’s largest L-band synthetic aperture radar satellite, offers a new perspective for monitoring. In this study, we extracted deformation slopes in Chongqing and its surrounding areas of China based on deformation data generated by LT-1. Twelve factors were selected to analyze their influence on slope deformation, including elevation, topographic position, slope, landcover, soil, lithology, relief, average rainfall intensity, and distances to rivers, roads, railways, and active faults. A total of 5863 deformation slopes were identified, covering an area of 140 km2, mainly concentrated in the central part of the study area, with the highest area density reaching 0.22%. Among these factors, average rainfall intensity was found to have the greatest impact on deformation slope. These findings provide valuable information for geological disaster early warning and management in Chongqing and surrounding areas, while also demonstrating the practical value of the LT-1 satellite in deformation monitoring.

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Fractally Organized Humanitarian Units May Increase Their Effectiveness in Protracted Crises

Kaźmierczak,

Kowalkowski,

Wrzosek

2024

Advances in Information Security, Privacy, and Ethics

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Although every protracted crisis is unique, they often share several characteristics: long duration, conflict, weak governance or public administration structures, unsustainable livelihood systems, poor food security outcomes, and breakdown of local institutions. The Directorate-General for European Civil Protection and Humanitarian Aid Operations reports difficulties in cooperating with national and local authorities and the existence of double coordination structures. This chapter discusses the need for humanitarian units in national DRM structures, consisting of the representatives of all sectors providing security to citizens—police, social services, healthcare, border guards, fire service, armed forces, NGOs, local governors, and fellow citizens—would ensure higher effectiveness due to their fractal structures. Advantages include accurate decision-making, assigning tasks and assets to proper personnel, supporting multi-actor teams in action, communicating with international organizations and avoiding task duplication, and interoperability across teams and flexible response.

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Rainfall intensification amplifies exposure of American Southwest to conditions that trigger postfire debris flows

Cited by 3 publications

References 78 publications

Advances in the study of natural disasters induced by the "23.7" extreme rainfall event in North China

Advances in the study of natural disasters induced by the "23.7" extreme rainfall event in North China

Deformation Slope Extraction and Influencing Factor Analysis Using LT-1 Satellite Data: A Case Study of Chongqing and Surrounding Areas, China

Fractally Organized Humanitarian Units May Increase Their Effectiveness in Protracted Crises

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