- Triangulation supports agricultural spread of the Transeurasian languages. People speaking the precursor of Japonic, Koreanic, Tungusic, Mongolic and Turkic languages started out around the West Liao River and then spread with their Panicum millet farming, mixing with other populations and picking up rice and wheat along the way.
- Artificial selection in the expansion of rice cultivation. They managed to get to Hokkaido with that rice because of a couple of genes. Rice genes, that is.
- Pip shape echoes grapevine domestication history. If they had carried grapevines, we’d be able to say which varieties.
- Shaping the biology of citrus: I. Genomic determinants of evolution. They maybe had a role in citrus domestication, but a lot of the hard work was done by the prior adaptive radiation of the group. The citrus group, that is. Quick summary of both papers here if you can get access to it.
- Yak Domestication: A Review of Linguistic, Archaeological, and Genetic Evidence. They weren’t involved in yak domestication, though, I don’t think.
- The Evolutionary History of Wild, Domesticated, and Feral Brassica oleracea (Brassicaceae). Nor that of Brassica oleracea, whose closest wild relative turns out to be half a world away on Crete.
- Coffee: Genetic Diversity, Erosion, Conservation, and Utilization. Ok, stay with me here. Brassica oleracea is related to Brassica carinata, which originated in Ethiopia, which is also where arabica coffee comes from.
- Surveying Grassland Islands: the genetics and performance of Appalachian switchgrass (Panicum virgatum L.) collections. If you can find a close connection between coffee and switchgrass you get a prize. Ah no wait, there are 2 ploidy levels, just like in Coffea. Yeah, I know it’s tenuous.
- Agrobiodiversity-Oriented Food Systems between Public Policies and Private Action: A Socio-Ecological Model for Sustainable Territorial Development. These guys really know their onions. And think they can use their conservation as a spur to local development. In Italy, but who’s to say it couldn’t work in Ethiopia as well.
- Putting diverse farming households’ preferences and needs at the centre of seed system development. Imagine.
Brainfood: Chickpea genomes, DIIVA, Maize evolution, Malting barley, Wild gluten, Cucurbit review, Coconut genome double, USDA rice collection, CIAT bean collection, PGRFA data integration, USA cattle diversity, PGRFA history
- A chickpea genetic variation map based on the sequencing of 3,366 genomes. Where the good and the bad alleles are. Even The Economist is impressed.
- Crop Wild Relatives Crosses: Multi-Location Assessment in Durum Wheat, Barley, and Lentil. There are lots of good alleles in the wild relatives.
- The arches and spandrels of maize domestication, adaptation, and improvement. Some alleles are good by accident, and that’s ok.
- Malting Quality of ICARDA Elite Winter Barley (Hordeum vulgare L.) Germplasm Grown in Moroccan Middle Atlas. Here are some alleles for good beer.
- High molecular weight glutenin gene diversity in Aegilops tauschii demonstrates unique origin of superior wheat quality. And here are some alleles for good gluten. In a wild relative from unexpected place, as it turns out. More in the press release.
- Genetic resources of bottle gourd (Lagenaria siceraria (Molina) Standl.] and citron watermelon (Citrullus lanatus var. citroides (L.H. Bailey) Mansf. ex Greb.): implications for genetic improvement, product development and commercialization: a review. Not just good as rootstocks, and lots of alleles to play with.
- Coconut genome assembly enables evolutionary analysis of palms and highlights signaling pathways involved in salt tolerance. Looks like coconut might have lost a lot of good alleles at the end of the Pleistocene glaciations.
- High-quality reference genome sequences of two coconut cultivars provide insights into evolution of monocot chromosomes and differentiation of fiber content and plant height. The same gene controls height in coconuts as in maize and rice.
- Enhancing the searchability, breeding utility, and efficient management of germplasm accessions in the USDA−ARS rice collection. And now you can look for rice germplasm with the good height allele you want.
- History and impact of a bean (Phaseolus spp., Leguminosae, Phaseoleae) collection. Hopefully will be able to do the same for this bean collection soon.
- Integrating Genomic and Phenomic Approaches to Support Plant Genetic Resources Conservation and Use. The above, summarized.
- Gene Bank Collection Strategies Based Upon Geographic and Environmental Indicators for Beef Breeds in the United States of America. The above, plus environmental data, for cattle.
- History of Global Germplasm Conservation System. The above, writ large.
Brainfood: Healthy diets, Healthy foods, Nature dependence, Farm size, Climate-smart ag, Monitoring diversity, Pollinators double, Intensification, WTP, Mexican booze
- Actions in global nutrition initiatives to promote sustainable healthy diets. Focus more on food choice.
- Food Compass is a nutrient profiling system using expanded characteristics for assessing healthfulness of foods. I suppose this might help with making good choices. Maybe.
- Nature-dependent people: Mapping human direct use of nature for basic needs across the tropics. 1.2 billion people in tropical countries are kinda forced to choose nature.
- Small farms and development in sub-Saharan Africa: Farming for food, for income or for lack of better options? Not really a choice: it depends on population density, farm size, market access and agroecological potential.
- The future of farming: Who will produce our food? Whoever chooses to run small, diverse farms. Maybe.
- Building a framework towards climate-smart agriculture in the Yangambi landscape, Democratic Republic of Congo (DRC). Not much choice for these farmers.
- Varietal Threat Index for Monitoring Crop Diversity on Farms in Five Agro-Ecological Regions in India. How to measure the diversity farmers choose to grow, and lose.
- Widespread vulnerability of flowering plant seed production to pollinator declines. A third of flowering plants have no choice and would not set seeds without pollinators…
- Honeybee pollination benefits could inform solar park business cases, planning decisions and environmental sustainability targets. …so choose to put beehives in solar parks.
- Agricultural intensification erodes taxonomic and functional diversity in Mediterranean olive groves by filtering out rare species. Choose management practices wisely to maintain biodiversity in olive groves.
- Policy implications of willingness to pay for sustainable development of a world agricultural heritage site: The role of stakeholders’ sustainable intelligence, support, and behavioral intention. Why people might choose to pay for biodiversity-friendly management practices and crop diversity.
- Traditional Fermented Beverages of Mexico: A Biocultural Unseen Foodscape. So much choice…
Nibbles: Green FAO, Veggie breeding, TABLE debate, Better seeds
- There’s an FAO Global Conference on Green Development of Seed Industries this Thursday and Friday. Includes sessions on genebanks.
- I hope it will cover the breeding of weird — and not-so-weird — vegetables as well as this Food Programme episode did.
- And debate the issues as effectively as was done by Pat Mooney and Charles Godfray at this TABLE event.
- Meanwhile, in Malawi and the Philippines…
- All we are saying…
Nibbles: Crop change, Chinese chocolate, Food system, Eating local, Heritage wheat, NTFPs, Distinguished ethnobotanist, Pumpkins, Garum recipe, Fermentation, Archaea, NBPGR interview
- IFAD says farmers might need to change crops. Farmers unavailable for comment as presumably they’re too busy changing crops.
- Case in point: China moves into cacao.
- The food system is at the centre of all our ills. But I’m not sure switching from maize to sorghum is going to cut it.
- And neither will watching those food miles, alas.
- Example of a farmer changing crops, watching food miles and diversifying the food system.
- I suppose we could also just eat more trees?
- We’ll need ethnobotanists for that.
- And there’s clearly plenty of pumpkins out there.
- Maybe garum would go well with some of those NTFPs, and pumpkins.
- Do they teach garum at Fermentation School?
- Whoa, I did not realize archaea in the vertebrate gut feed on bacterial fermentation products.
- And let’s not forget to put everything in genebanks before it’s too late so we have a chance to do all of the above.