URL originale : https://books.openedition.org/irdeditions/58123

Custodians of agricultural diversity
p. 200-201
Résumé
In the 1960s, the advent of intensive farming triggered an unprecedented rescue operation. The objective was to prevent the genetic resources of cultivated species and their wild relatives from being lost.
Texte intégral
1The “green revolution” was active from the 1950s to the 1980s: improved plants, selected for their high yield, took over the fields. As reduced crop diversity sparked fears of an irreversible erosion of genetic resources, the FAO asked international organisations, including Orstom, to participate in sampling operations and develop collections, the purpose of which was to safeguard the genetic diversity of crops and their ability to evolve.
Cryopreservation of seeds.

© IRD/A. Rival
••• Seed collections act as a solution to the erosion of genetic diversity among cultivated plants •••
2From 1966, researchers went on field trips to Ethiopia to sample wild forms of the Arabica coffee plant. From 1970 to 1990, rice species were collected in West Africa and Madagascar, while millet and sorghum surveys, cereals found in arid regions, were conducted in Sahelian countries. Other species (yam, cassava, cowpea, okra) were also surveyed.
Wild and hybrid millet, Niger.

© IRD / M.-N. Favier
3Cereals produce seeds which can be preserved perfectly in cold storage rooms but must be regenerated every 20 to 30 years. For other species which do not produce seeds, or with seeds which are difficult to preserve, alternative solutions were sought. This is why field collections were set up and biotechnologies (micropropagation, meristem culture) were developed, as was the liquid nitrogen storage technique (cryopreservation).
Coffee plant flowers, Côte d’Ivoire.

© IRD/J. Louarn
4The emergence of molecular biology in the 1990s shed light on the organisation of diversity, giving rise to new management strategies. IRD researchers developed the “Core Collection” principle, making it possible to dramatically reduce the number of duplicates.
5In the early 2000s, genome sequencing options opened up new opportunities, notably with regard to adaptation to climate change. A genome comparison between millet sampled in 1973 and in 2003 helped researchers identify a major gene involved in drought resistance. Studying the rice genome helps understand the genome of other cereals. Similarly, the sequencing of the Robusta coffee plant, an African species, enhances the understanding of the extraordinary diversity of Malagasy species.
“The programmes implemented by IRD and its partners in the Global South contributed to safeguarding the genetic diversity of numerous species while defining the methods used to collect and utilise genetic resources. They were also dedicated to informing, training and raising the awareness of scientists, farmers and policy-makers of the importance of using genetic resources to contribute to improving agricultural productivity in light of global changes.”
Ndjido Kané, Senegalese Institute of Agricultural Research


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Science and sustainable development
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