Feeding the world’s steadily growing population while respecting the planetary boundaries will be a key challenge for humanity in the future. Prevailing production and consumption patterns are leading to a loss of natural resources and destroying ecosystems and their functions. More than 820 million people were affected by malnutrition in 2017. Climate change is exacerbating this development and pushing natural ecosystems to their limits, something that is having far-reaching consequences for the environment, the economy and humanity.
La population mondiale atteindra probablement les neuf milliards de personnes d’ici le milieu du siècle. Selon les estimations de l’Organisation des Nations unies pour l’alimentation et l’agriculture (FAO), il faudrait augmenter la production alimentaire de 60 pour cent pour les nourrir. Ces produits alimentaires supplémentaires devraient dans l’idéal être produits là où ils sont censés être consommés, c’està-dire dans les pays en développement. Pour y parvenir, ces pays doivent augmenter sensiblement leur production.
The project’s overall objective is to improve the rural population’s resilience to food insecurity by increasing their income through Castor oil plant, Honey, Beans and Goat value chains. GIZ is contributing to the Androy, Anosy and Atsimo- Antsinanana regions’ economic development and aims to integrate mainly vulnerable households in these chains, especially households run by a woman. GIZ has selected high potential sectors and wants to make sure that they can adapt to climate change.
L’objectif général du projet est d’améliorer la résilience de la population rurale face à l’insécurité alimentaire en augmentant leur revenu à travers la promotion des chaînes de valeur. La GIZ contribue au développement économique dans les régions Androy, Anosy et Atsimo Atsinanana et vise surtout à intégrer des ménages vulnérables dans ces chaînes, notamment les ménages dirigés par les femmes. La GIZ sélectionne des filières à haut potentiel et souhaite les adapter aux changements climatiques.
Many countries are facing growing levels of food insecurity, reversing years of development gains, and threatening the achievement of Sustainable Development Goals by 2030. Even before COVID-19 reduced incomes and disrupted supply chains, chronic and acute hunger were on the rise due to various factors, including conflict, socio-economic conditions, natural hazards, climate change and pests.
Responding to global food crisis, such as imposed by climate change, requires resilient food systems that are able to respond to shocks. Resilience thinking, as an approach to agriculture development, focuses on enhancing the capacity of both the human and ecological systems inter alia. In this paper, the concept of resilience is approached from the perspective of socio-ecological systems dynamics. In particular, the study examined the contribution of farmers to research towards enhanced resilience of traditional African vegetable production systems in northern Ghana.
ICARDA scientists along with CGIAR LIVESTOCK developed a cloud-based genetic database platform to boost breed improvement programs in community-based livestock breeding programs in Ethiopia.
Genetic improvement on local breeds kept by small farmers in developing countries is challenging. Even though good pedigree and performance recording is crucial and an important component of breeding programs, it remain difficult or next to impossible under conditions of subsistence livestock farming. This means that standard genetic evaluations, as well as selection and planning of mating based on estimates of the animals' genotypes, cannot be done at any level in the population of the target breed or genetic group.
Breeding programs for local breeds kept by small farmers in developing countries are a major challenge. Animal recording of pedigree and performance under conditions of subsistence livestock farming is remain difficult or next to impossible. This means that standard genetic evaluations, as well as selection and planning of mating based on estimates of the animals' genotypes, cannot be done at any level in the population of the target breed or genetic group.
- Lack of automated data capture systems affects timely feedback and accuracy of information for breeding decisions.
- CGIAR researchers and national research partners have adopted a digital genetic database, Dtreo, that is enhancing genetic improvement by providing timely and accurate animal ranking information to communities.
- Dtreo is a digital genetic database that is flexible and easy to use, that allows users to capture and save data offline. Data is uploaded to the database once an internet connection has been established.