- A very British baked bean.
- Hopefully it will prevent the sort of malnutrition for which there is archaeological evidence from Romano-British times.
- Although they did have lots of nice meat.
- “…differences in height by season of birth may not be due to climate-related fluctuations in nutrition or infections…” after all. No, not in Roman Britain.
- Recovering Israeli wheat landraces.
- Recovering a lost beer-snack radish.
- Will traditional Mongolian herding ever recover?
- New Zealand’s genebank in the news.
- The cool uses of potato wild relatives. And wheat too.
Brainfood: Old seeds, Anthropocene, Apple polyphenols, Maize adaptation, Maize adoption, Biodiversity designs, Early millet, Asian populations, Japanese catalogue, Legacy data, PVP, Synthetic wheat double
- Unlocking the secrets of extreme seed longevity: the relevance of historic botanical collections to modern research. Claims that very old seeds are still alive are probably exaggerated. Except from genebanks, of course.
- Archaeological assessment reveals Earth’s early transformation through land use. We had transformed the world globally by 3000 years ago.
- Genome-wide association studies in apple reveal loci of large effect controlling apple polyphenols. It should be surprisingly easy to breed really healthy apples. No word on adaptation.
- Identifying loci with breeding potential across temperate and tropical adaptation via EigenGWAS and EnvGWAS. 13 genomic regions under ecological selection in maize. No word on nutrition.
- The maize frontier in rural South India: Exploring the everyday dynamics of the contemporary food regime. Adoption is being driven both top-down and bottom-up.
- Simple study designs in ecology produce inaccurate estimates of biodiversity responses. Complexity in experimental design is worth it.
- Early integration of pastoralism and millet cultivation in Bronze Age Eurasia. In southeastern Kazakhstan, ca 2700 BC, mobile pastoralists winter foddered their sheep and goat with the region’s earliest cultivated millet, which came from China.
- The formation of human populations in South and Central Asia. People and crops moved together, both east and west. Oh, and are the above the Yanmaya?
- Lost Grains and Forgotten Vegetables from Japan: the Seikei Zusetsu Agricultural Catalog (1793–1804). Fewer than half of the 109 species illustrated are still grown in Japan.
- Soil legacy data rescue via GlobalSoilMap and other international and national initiatives. Should do the same with genebank data too.
- Insights into deployment of DNA markers in plant variety protection and registration. Will increasingly be used in support of DUS, apparently.
- Genetic Contribution of Synthetic Hexaploid Wheat to CIMMYT’s Spring Bread Wheat Breeding Germplasm. 20% of the lines in international yield trials were synthetic-derived with an average genetic contribution from the D genome wild relative of 15.6%.
- Genetic diversity and population structure analysis of synthetic and bread wheat accessions in Western Siberia. The Japanese synthetics are something else.
Brainfood: Nutrient availability, Afghani wheat, Poverty reduction, Tanzania ag development, Fish refuges, Gender, Cerrado conversion, Rice origins, Global erosion, Food perceptions, Ag & health, Mongolian Allium, Bean disease, Tropical legumes
- Combining the effects of increased atmospheric carbon dioxide on protein, iron, and zinc availability and projected climate change on global diets: a modelling study. Global net availability to decrease by 15-20% by 2050, mostly where it’s already low.
- Tracking the adoption of bread wheat varieties in Afghanistan using DNA fingerprinting. 75% of samples were varieties released after 2000, landraces are being replaced, and farmers name varieties correctly about 50% of the times.
- Pathways from research on improved staple crop germplasm to poverty reduction for smallholder farmers. Land, land, land.
- “Modern” farming and the transformation of livelihoods in rural Tanzania. Small is still beautiful.
- Analyzing drivers of fish biomass and biodiversity within community fish refuges in Cambodia. Governance, governance, governance.
- The Role of Women in Production and Management of RTB Crops in Rwanda and Burundi: Do Men Decide, and Women Work? Guess. I bet you’re wrong.
- Soy expansion in Brazil’s Cerrado. Forget the Amazon.
- Genomic history and ecology of the geographic spread of rice. Yangtze Valley –> global cooling –> temperate + tropical japonica –> SE Asia –> diversification. Indica is more complicated.
- Estimated six per cent loss of genetic variation in wild populations since the industrial revolution. The new 75%.
- Eating Healthy or Feeling Empty? How the “Healthy = Less Filling” Intuition Influences Satiety. Healthier food is perceived as less filling, unless it’s described as nutritions. People are strange.
- What is the cost of integration? Evidence from an integrated health and agriculture project to improve nutrition outcomes in Western Kenya. Not insignificant, but worth it.
- Traditional utilization and management of wild Allium plants in Inner Mongolia. 38 species, no less; many uses, much threatened.
- Haplotypes at the Phg-2 Locus Are Determining Pathotype-Specificity of Angular Leaf Spot Resistance in Common Bean. Good use being made of the CIAT genebank.
- A decade of Tropical Legumes projects: Development and adoption of improved varieties, creation of market‐demand to benefit smallholder farmers and empowerment of national programmes in sub‐Saharan Africa and South Asia. US$ 67 million in from Gates Foundation, US$ 3.2 billion out in certified seed alone. Read the whole special issue for more. All starts with genebanks, though, doesn’t it. Doesn’t it? Hello? Is there anyone out there? Is this thing on?
Brainfood: Creole cattle, Wattle diversity, Olive death, Cucurbit diversity, Child nutrition, Seed systems, N efficiency, Black Sigatoka, Ag oils, Sharing double, Cow sharing, Horse phenotyping, Nutrients & CC
- The genetic ancestry of American Creole cattle inferred from uniparental and autosomal genetic markers. Out of Africa…
- Tracing the genetic origin of two Acacia mearnsii seed orchards in South Africa. For one of the orchards, the origin is unknown, but it’s distinct to all the other, known provenances.
- Genetic Characterization of Apulian Olive Germplasm as Potential Source in New Breeding Programs. Ok, but unclear what all this means for Xylella resistance, which presumably was the main reason for doing the work?
- Whole-genome resequencing of Cucurbita pepo morphotypes to discover genomic variants associated with morphology and horticulturally valuable traits. The two subspecies were domesticated and evolved independently.
- Mapping the effects of drought on child stunting. Lower precipitation is bad for kids.
- Governing Seeds in East Africa in the Face of Climate Change: Assessing Political and Social Outcomes. Wealthier, more food secure households are more likely to grow maize hybrids. Cause? Effect? But in any case the commercialization agenda has left sorghum behind.
- Exploiting genetic variation in nitrogen use efficiency for cereal crop improvement. Back to the genebank. Just one of a whole issue on genetic variation in physiological traits.
- Black Sigatoka in bananas: Ecoclimatic suitability and disease pressure assessments. The high yield areas are most at threat.
- Fats of the Land: New Histories of Agricultural Oils. Hidden histories are the best histories.
- Food Provisioning Services Via Homegardens and Communal Sharing in Satoyama Socio-ecological Production Landscapes on Japan’s Noto Peninsula. Sharing promotes diversity. Kinda beautiful.
- Cow Sharing and Alpine Ecosystems: A Comparative Case Study of Sharing Practices and Property Rights. The jury is out on whether it contributes to conservation, but it still seems pretty cool.
- Horse phenotyping based on video image analysis of jumping performance for conservation breeding. Judges don’t know what they’re talking about.
- Preserving the nutritional quality of crop plants under a changing climate: importance and strategies. Mainly due to eCO2. Need to breed for it under the new conditions. Or try other crops.
Brainfood: Clean vines, Wild maize diversity, Heirloom beans, Domestication, Cryptic variation, African rice evaluation, Fall armyworm, Food prices, Human pathogens, Farm biodiversity, Microbiome, Infographics, Tea diversity, Mekong dietary diversity, Women & NUS
- Efficiency of insect‐proof net tunnels in reducing virus‐related seed degeneration in sweet potato. “Seed” meaning vines. And yes, those tunnels work.
- Divergence with gene flow is driven by local adaptation to temperature and soil phosphorus concentration in teosinte subspecies (Zea mays parviglumis and Zea mays mexicana). Genetic differences between the two subspecies is maintained by adaptive divergence despite gene flow.
- Agronomic Performance and Nitrogen Fixation of Heirloom and Conventional Dry Bean Varieties Under Low-Nitrogen Field Conditions. Not much difference, which is actually interesting.
- Evolutionary Insights into the Nature of Plant Domestication. It’s a long process, in which natural selection and interspecific hybridization play an important part, involving many of the same genes across species.
- Cryptic genetic variation accelerates evolution by opening access to diverse adaptive peaks. Add to the above? Ah no, only in bacteria so far.
- Screening African rice (Oryza glaberrima) for tolerance to abiotic stresses: III Flooding. From a collection of >2,000 to 11 better than Asian rice. You’re wondering about I and II, aren’t you?
- Understanding the factors influencing fall armyworm (Spodoptera frugiperda J.E. Smith) damage in African smallholder maize fields and quantifying its impact on yield. A case study in Eastern Zimbabwe. Differences among maize varieties, but weeding, tillage and intercropping also have an effect. Have yield losses been overestimated, though? Maybe.
- Natural selection contributed to immunological differences between hunter-gatherers and agriculturalists. But the evidence seems to be that the pathogen burden was higher for the hunter-gatherers, which goes counter to everything we’ve been taught by Jared Diamond.
- Increasing crop heterogeneity enhances multitrophic diversity across agricultural regions. More crops means more biodiversity in general.
- More Than the Sum of Its Parts: Microbiome Biodiversity as a Driver of Plant Growth and Soil Health. More microbes mean better plant growth.
- Science–graphic art partnerships to increase research impact. Free your inner artist.
- Genetic diversity, linkage disequilibrium, and population structure analysis of the tea plant (Camellia sinensis) from an origin center, Guizhou plateau, using genome-wide SNPs developed by genotyping-by-sequencing. Four groups: pure wild type, admixed wild type, ancient landraces and modern landraces.
- The Relative Caloric Prices of Healthy and Unhealthy Foods Differ Systematically across Income Levels and Continents. …and at least partially explain differences in undernutrition and overweight in adults. Here’s the infographic.
- Household-level drivers of dietary diversity in transitioning agricultural systems: Evidence from the Greater Mekong Subregion. It’s complicated and context-specific, but dietary diversity seems to generally increase with agricultural “development,” i.e. market orientation, specialisation, and intensification. Somewhat surprising? I’ve lost track, frankly.
- Potential role of neglected and underutilized plant species in improving women’s empowerment and nutrition in areas of sub-Saharan Africa. So is increasing cultivation of orphan crops a driver or a consequence of agricultural development? See what I mean? Anyway, useful review.