37 pages., Introduction
The COVID-19 pandemic is the most recent example that global development problems can occur anywhere, rebutting the assumption of a world divided into developed and developing countries. Recent scholarship has coined the term “global development” to capture this changing geography of development problems.
Purpose
Our article contributes to these debates by proposing a novel empirical approach to localize global development problems in country contexts worldwide.
Methods and approach
Our approach rests on a universal understanding of “development.” We identify countries that are particularly relevant for global problem-solving and consider not only the problem dimension but also countries’ capacities to address these problems.
Findings
Our results show that countries with the most severe combinations of problems are as diverse as Afghanistan, Nigeria and the United States. Two thirds of countries with above-average contributions to global problems are authoritarian regimes. We also find that middle-income countries have hardly anything in common apart from their income level.
Policy implications
Our analysis shows that traditional development concepts of a binary world order and of foreign aid as financial transfer to remedy imbalances are not enough to address constellations of global problems and capacity that have long evolved beyond rich and poor.
18 pages, Adaptation of the agricultural sector to climate change is crucial to avoid food insecurity in sub-Saharan Africa. Farmers’ perception of climate change is a crucial element in adaptation process. The aim of this study was (i) to compare farmers’ perception of climate change with actual weather data recorded in central Mali, (ii) to identify changes in agricultural practices implemented by farmers to adapt to climate change, and (iii) to investigate the link between farmers’ perception of climate change and implementation of adaptation practices. Focus group discussions and individual surveys were conducted to identify climate-related changes perceived by farmers and agricultural adaptation strategies they consider relevant to cope with these changes. A majority (>50%) of farmers perceived an increase in temperature, decrease in rainfall, shortening of growing season, early cessation of rainfall, and increase in the frequency of dry spells at the beginning of the growing season. In line with farmers’ perception, analysis of climate data indicated (i) an increase in mean annual temperature and minimum growing season temperature and (ii) a decrease in total rainfall. Farmers’ perception of early cessation of rainfall and more-frequent drought periods were not detected by climate data analysis. To cope with the decrease in rainfall and late start of the growing season, farmers used drought-tolerant cultivars and implemented water-saving technologies. Despite a perceived warming, no specific adaptation to heat stress was mentioned by farmers. We found evidence of a link between farmers’ perception of climate change and the implementation of some adaptation options. Our study highlights the need for a dialogue between farmers and researchers to develop new strategies to compensate for the expected negative impacts of heat stress on agricultural productivity.