5 research outputs found
Integrated Water Hazards Engineering Based on Mapping, Nature-Based and Technical Solutions
Climate change is expected to alter average temperature and precipitation values and to increase the variability of precipitation events, which may lead to even more intense and frequent water hazards. Water hazards engineering is the branch of engineering concerned with the application of scientific and engineering principles for protection of human populations from the effects of water hazards; protection of environments, both local and global, from the potentially deleterious effects of water hazards; and improvement of environmental quality for mitigating the negative effects of water hazards. An integrated approach of water hazards engineering based on mapping, nature-based and technical solutions will constitute a feasible solution in the process of adapting to challenges generated by climate changes worldwide. This paper will debate this concept also providing some examples from several European countries.publishedVersio
Education for Resilience: How a Combination of Systemic and Bottom-Up Changes in Educational Services Can Empower Dryland Communities in Africa and Central Asia
We examined existing problems relevant for education in global drylands and discuss their potential solutions in four fields, crucial for properly functioning educational systems: (a) response to low population densities, (b) governance, (c) language of instruction and (d) mismatch between education and the labour market. Our analysis leads us to the formulation of nine policy recommendations that may help create an educational system that strengthens resilience of dryland communities in the face of ongoing climate change. Our recommendations underline the necessity to combine systemic solutions with bottom-up ideas and extrinsic help coming from involvement of diaspora and non-governmental organizations.Language Use in Past and Presen