Cette recherche contribue à la littérature sur le risque de catastrophes, en approfondissant la compréhension de la relation entre la vulnérabilité aux inondations, l'urbanisme et les stratégies d'adaptation locales.
Urban flooding cannot be avoided entirely and in all areas, particularly in coastal cities. Therefore adaptation to the growing risk is necessary. Geographical Information Systems (GIS) based knowledge on risk informs location-based approach to adaptation to climate risk.
On estime à 11,2 milliards de tonnes le volume déchets solides collectés dans le monde entier chaque année.
An estimated 11.2 billion tons of solid waste are collected worldwide every year.
This report addresses Solid Waste Management (SWM) in Dakar (Senegal). It focuses on man-made hazards of poor Solid Waste Management, consequent loss to health and associated secondary hazards.
Building on the special treatment required for biomedical wastes (BMW) due to associated health and environmental risks, this paper examines the historic evolution of legal framework for biomedical wastes management and related health and environmental issues in Dakar, Senegal.
Solid Waste Management in Urban Africa: Methodological Approaches to Data Collection on Vulnerability, Capacity and Loss Assessment in Nairobi, Mombasa and Dakar: Methodological Guidance Notes
This paper examines the availability of data on disaster losses in urban areas in sub-Saharan Africa (SSA) and what this data tells us.
The purpose of this background paper is to describe recent trends in African urban centres, review potential future trajectories of these, and examine their possible implications for risk accumulation and risk reduction.
This paper describes how a large proportion of sub-Saharan Africa’s national (and urban) population lives in urban centres other than large cities and considers what we know about risk in these urban centres. The region has thousands of urban centres with under 20,000 inhabitants and probably ov