Amelie Paszkowski, S. L. Goodbred, Edoardo Borgomeo, M. Shah Alam Khan et al.
Daniel Adshead, Amelie Paszkowski, Sarah S. Gall, Alison Peard et al.
Abstract Climate hazards pose increasing threats to development outcomes across the world’s coastal regions by impacting infrastructure service delivery. Using a high-resolution dataset of 8.2 million households in Bangladesh’s coastal zone, we assess the extent to which infrastructure service disru...
Amelie Paszkowski, Finn Laurien, Reinhard Mechler, Jim W. Hall
Every year, 30–70% of Bangladesh is inundated with flood waters, which combined with erosion, affect between 10 and 70 million people annually. Rural riverine communities in Bangladesh have long been identified as some of the poorest populations, most vulnerable to riverine hazards. However, these c...
Amelie Paszkowski, Timothy Tiggeloven, Edoardo Borgomeo, Jim W. Hall
Natural hazards can impair socio-economic development and disproportionately affect the poorest and most vulnerable. While global and regional studies have quantified population exposure to various natural hazards, they have so far ignored exposure to geomorphic hazards, such as coastal and riverine...
Amelie Paszkowski, Timothy Tiggeloven, Edoardo Borgomeo, Jim W. Hall
Natural hazards can impair socio-economic development. While population exposure to various natural hazards has been quantified, the exposure to hydrogeomorphic hazards – involving water-induced landscape changes – remains unknown. Using high-resolution hydrogeomorphic modelling, combined with popul...
Daniel Adshead, Amelie Paszkowski, Sarah S. Gall, Alison Peard et al.
Daniel Adshead, Amelie Paszkowski, Sarah S. Gall, Alison Peard et al.
Climate hazards pose increased threats to development outcomes across the world’s coastal regions by impacting infrastructure service delivery. Using a high-resolution dataset of 8.2 million households in Bangladesh's coastal zone, we assess the extent to which infrastructure service disruptions, in...
Amelie Paszkowski, Finn Laurien, Reinhard Mechler, Jim W. Hall
Kelly D. Alley, Qiuhong Tang
Large-scale changes are occurring in river systems around the world, and human- and climate-induced alterations are especially salient in the rivers of the Hindu Kush-Karakoram-Himalayan systems and the Tibetan Plateau, together named the Third Pole, High Mountain Asia, or the Asia Water Tower. The ...