- Seeing nature as a ‘universal store of genes’: How biological diversity became ‘genetic resources’, 1890–1940. “Beyond the space-time of Neo-mendelian and Morganian laboratory genetics, genes became understood though a geographical gaze at a planetary scale.”
- Harnessing the potential of germplasm collections. Start with diverse germplasm, then edit in domestication genes.
- Spatial proximity determines post-speciation introgression in Solanum. But said introgression is not that important, in the grand evolutionary scheme of things, at least for these wild tomatoes.
- Understanding Grass Domestication through Maize Mutants. It’s not straightforward, because domestication genes work differently in maize, because of differences in regulation.
- May innovation on plant varieties share agricultural land with nature, or spare land for it? It may do both, under certain conditions. If I understand the economics jargon correctly.
- Photoperiod Response of Annual Wild Cicer Species and Cultivated Chickpea on Phenology, Growth, and Yield Traits. They need 15-18h to flower.
- China’s Legal Issues in the Access and Benefit-sharing of the Genetic Resources. …need addressing urgently.
- Insights from genomes into the evolutionary importance and prevalence of hybridization in nature. It’s everywhere, but whether it’s adaptive is hard to prove. One crop example: common bean.
- Incorporating basic needs to reconcile poverty and ecosystem services. Complicated but workable methodology to identify the win-win solution space.
- Flax latitudinal adaptation at LuTFL1 altered architecture and promoted fiber production. Flax became a fibre crop when it was carried north into Europe as a result of adaptation to higher latitudes, including by introgression from local wild species.
- A method for generating virus-free cassava plants to combat viral disease epidemics in Africa. Chemo- and thermotherapy in tissue culture.