- How many different kinds of bread do you think there are ancient Greek words for?
- “As phenomenally important as the USDA [seed banks] and the Svalbard [Global Seed Vault] are, they are repositories for biodiversity, not places we can call up to get seeds to plant five acres of corn.”
- As above, but in India.
- As above, but from a seed company.
- Barbara Schaal on domestication. With video goodness.
- A Food System Dashboard to rule them all: describe, diagnose, decide. Not there yet, but almost. It says here.
Brainfood: Food sustainability, Phenotyping barriers, Andean agrobiodiversity, Mango diversity, Wild Brassica diversity, Domestication database, Future crops, Great Dying, Food supplies, Nutritious ag, Wild olives, Pink cassava, Landrace diversity
- Global map and indicators of food system sustainability. Includes crop diversity, based on Khoury et al.
- Phenotyping and Plant Breeding: Overcoming the Barriers. Mostly comes down to good experimental design.
- The Spatial-Temporal Dynamics of Potato Agrobiodiversity in the Highlands of Central Peru: A Case Study of Smallholder Management across Farming Landscapes. Intensification and upward movement, while maintaining diversity.
- Diversity of a Large Collection of Natural Populations of Mango (Mangifera indica Linn.) Revealed by Agro-Morphological and Quality Traits. Lowish diversity, but not so low as to fail to provide year-round production.
- Intraspecific diversification of the crop wild relative Brassica cretica Lam. using demographic model selection. Diverse populations do not necessarily mean diverse adaptation.
- Crop Origins and Phylo Food: A database and a phylogenetic tree to stimulate comparative analyses on the origins of food crops. When and where current crops were domesticated.
- The climatic challenge: Which plants will people use in the next century? When and where future crops will be domesticated.
- Earth system impacts of the European arrival and Great Dying in the Americas after 1492. 56 million deaths.
- Multidimensional characterization of global food supply from 1961 to 2013. Animal-source foods + sugar up in the East, down in the West. Everybody’s eating their vegetables.
- Exploring solution spaces for nutrition-sensitive agriculture in Kenya and Vietnam. Could grown more, and different, vegetables.
- Evaluation of early vigor traits in wild olive germplasm. Potential as dwarfing rootstocks.
- Agronomic and biochemical evaluation of cassava clones with roots that have pink pulp. 2 of 9 from the Embrapa collection have potential.
- Management Practices and Breeding History of Varieties Strongly Determine the Fine Genetic Structure of Crop Populations: A Case Study Based on European Wheat Populations. Landraces show more intra-sample diversity than modern varieties. Wait, there must be more to it than that…
- High-resolution and bias-corrected CMIP5 projections for climate change impact assessments. 7 TB of data for your delectation, thanks to CGIAR.
Brainfood: AnGR treble, Livestock aDNA, Wild cucurbit gaps, Indian crop diversity, Wild Argentinian spuds, Wild wheat, Tomato domestication, Enset systems, Duckweed collections, Peanut hybrids, Sweet potato leaves, Adaptation pathways, Golden Rice
- Enhancing the functioning of farm animal gene banks in Europe: results of the IMAGE project. Lots going on, but avian species in particular need more work.
- Conservation and Utilization of Livestock Genetic Diversity in the United States of America through Gene Banking. Over 1,000,000 samples from over 55,000 animals, representing 165 livestock and poultry breeds, collected over 60 years, more than 50% of rare breeds.
- Cryoconservation of Animal Genetic Resources in Europe and Two African Countries: A Gap Analysis. Out of the 2949 breeds registered in DAD-IS, 16% have material in genebanks, but only 4% have enough to allow breed reconstitution.
- Unlocking the origins and biology of domestic animals using ancient DNA and paleogenomics. How we got to the above.
- Distributions, conservation status, and abiotic stress tolerance potential of wild cucurbits (Cucurbita L.). 13 out of 16 taxa need in situ and ex situ work.
- Wild potato Genetic Reserves in Protected Areas: prospection notes from Los Cardones National Park, Salta, Argentina. Nice combination of in situ and ex situ.
- Agricultural intensification was associated with crop diversification in India (1947-2014). But only at country level, and not by much. At district level, crop diversity went down in rice/wheat areas and up in the south and west as oilseeds and vegetables replaced millet and sorghum. Doesn’t strike me as positive overall, diversity-wise.
- From population to production: 50 years of scientific literature on how to feed the world. Time for a bit of holism.
- Unlocking the Genetic Diversity and Population Structure of a Wild Gene Source of Wheat, Aegilops biuncialis Vis., and Its Relationship With the Heading Time. 5 ecogeographic clusters, 4 related heading time groups.
- Genomic Evidence for Complex Domestication History of the Cultivated Tomato in Latin America. Domestication of northerly migrating wildish material in Mexico rather than 2-step domestication in S America and then Mexico.
- Enset‐based agricultural systems in Ethiopia: A systematic review of production trends, agronomy, processing and the wider food security applications of a neglected banana relative. Better data needed, for a start.
- Worldwide Genetic Resources of Duckweed: Stock Collections. 36 species, no less. Need more?
- Realizing hybrids between the cultivated peanut (Arachis hypogaea L.) and its distantly related wild species using in situ embryo rescue technique. You need to apply growth substances to the pollinated flowers.
- The remarkable morphological diversity of leaf shape in sweet potato (Ipomoea batatas): the influence of genetics, environment, and G×E. Genetics controls shape, environment size.
- Adaptation and development pathways for different types of farmers. Watch your context, and don’t forget governance.
- Golden Rice and technology adoption theory: A study of seed choice dynamics among rice growers in the Philippines. They forgot context. And governance. But let the author spell it out in a tweet thread.
Brainfood: Bean diversity treble, Edited tomatoes, Breeding strategies, Pseudocereals, American lost crops, Genotyping collections, Apple diversity, Rice domestication, Cotton domestication, Wheat & gluten, Rubus phylogeny, Cassava brown streak, Prices & migration, Edible caterpillars
- Resequencing of 683 common bean genotypes identifies yield component trait associations across a north–south cline. There’s a fairly straightforward way to select for larger beans as a key component of yield.
- Is the USDA core collection of common bean representative of genetic diversity of the species, as assessed by SNP diversity? Not as much as it could be.
- Diversity, use and production of farmers’ varieties of common bean (Phaseolus vulgaris L., Fabaceae) in southwestern and northeastern Ethiopia. There are more varieties per household in places where the overall number of varieties per community was lower.
- Rapid customization of Solanaceae fruit crops for urban agriculture. Gene editing for shorter tomatoes.
- The home field advantage of modern plant breeding. Public breeding programs should go for specialist varieties that perform reliably in narrow environments.
- Thinking Outside of the Cereal Box: Breeding Underutilized (Pseudo)Cereals for Improved Human Nutrition. The next quinoa awaits its 15 minutes.
- Experimental Cultivation of Eastern North America’s Lost Crops: Insights into Agricultural Practice and Yield Potential. There’s life in the old crops yet. And that’s before gene editing.
- Time for a paradigm shift in the use of plant genetic resources. Genotype everything.
- Using whole-genome SNP data to reconstruct a large multi-generation pedigree in apple germplasm. 3 early modern cultivars had a disproportionate impact on modern apples.
- Machine Learning Reveals Spatiotemporal Genome Evolution in Asian Rice Domestication. The indica and japonica sub-species have exchanged a lot of genetic material at different times, and you get different answers to the question of domestication depending on which bits you look at.
- Genetic Analysis of the Transition from Wild to Domesticated Cotton (G. hirsutum L.). There are fibre quality genes in the subgenome from the parent with unspinnable fibre. Go figure.
- A Comparative Study of Modern and Heirloom Wheat on Indicators of Gastrointestinal Health. Not much difference.
- Target Capture Sequencing Unravels Rubus Evolution. The taxonomy needs work. You don’t say.
- Expansion of the cassava brown streak pandemic in Uganda revealed by annual field survey data for 2004 to 2017. The history of a disease outbreak in excruciating detail.
- Crop prices and the individual decision to migrate. Decrease in the price of coffee in Vietnam (but not rice, which is mainly used for household consumption rather than export) resulted in increased chance of migration, but only for individuals of lower education.
- The contribution of ‘chitoumou’, the edible caterpillar Cirina butyrospermi, to the food security of smallholder farmers in southwestern Burkina Faso. It’s significant, but only during the caterpillar season. I guess they don’t keep. I spot an opportunity. Yeah, you guessed it, gene editing.
Brainfood: Potato genebanks, Aichi 11, Taming foxes, Fruit diversity, Polyploidy review, Evaluating quinoa, Into Africa, IPCC review, Desiccation tolerance, Pig diversity, Oolong diversity, Wild millet, Sustainable diets
- Ex Situ Conservation of Potato [Solanum Section Petota (Solanaceae)] Genetic Resources in Genebanks. The only review of the subject you’ll need. Until the next one.
- Editorial Essay: An update on progress towards Aichi Biodiversity Target 11. Not bad, but the difficult stuff remains difficult. One of several interesting papers.
- The History of Farm Foxes Undermines the Animal Domestication Syndrome. Those Russian foxes were already pretty tame. Here’s a Twitter tread from one of the authors that lays it all out.
- Developing fruit tree portfolios that link agriculture more effectively with nutrition and health: a new approach for providing year-round micronutrients to smallholder farmers. 11 species can address micronutrient gaps.
- Plant Polyploidy: Origin, Evolution, and Its Influence on Crop Domestication. Extreme events and disasters drive polyploidy, which drives diversification at various levels, which facilitates domestication.
- Spectral Reflectance Indices and Physiological Parameters in Quinoa under Contrasting Irrigation Regimes. Phenotyping for drought tolerance from space.
- Asian Crop Dispersal in Africa and Late Holocene Human Adaptation to Tropical Environments. Via NE Africa always something new.
- Invited review: Intergovernmental Panel on Climate Change, agriculture, and food — A case of shifting cultivation and history. The IPCC could have done a better job of synthesizing the data on the impact of climate change on crops and livestock.
- Seed comparative genomics in three coffee species identify desiccation tolerance mechanisms in intermediate seeds. Whole bunch of genes involved.
- Capturing genetic diversity – an assessment of the nation’s gene bank in securing Duroc pigs. Genebank doing a pretty good job in this case.
- Genetic diversity of oolong tea (Camellia sinensis) germplasms based on the nanofluidic array of single-nucleotide polymorphism (SNP) markers. It’s not all the same.
- Tapping Pennisetum violaceum, a wild relative of pearl millet (Pennisetum glaucum), for resistance to blast (caused by Magnaporthe grisea) and rust (caused by Puccinia substriata var. indica). Out of 305 accessions, one was resistant to both diseases. IP21711 if you must know. A few more were resistant to one or the other disease.
- Can Diets Be Healthy, Sustainable, and Equitable? No, and they’ll be difficult to change, but the “burden of change should not be solely placed on the consumer’s ability to make healthy choices.”