- Developing radically-new meanings through the collaboration with radical circles: Slow Food as a platform for envisioning innovative meanings. Companies should collaborate with radicals. Presumably in order to turn them. #resist
- Unraveling agronomic and genetic aspects of runner bean (Phaseolus coccineus L.). At least we know what we don’t know.
- Total leaf crude protein, amino acid composition and elemental content in the USDA-ARS bamboo germplasm collections. If you want to use bamboo as feed, you need to choose among the 100-odd species very carefully.
- The Gene Collection of Autochthonous Wine Grape Varieties at the Institute as a Contribution to the Sustainable Development of Wine Growing and Viticulture in Istria. 3591 seems a hell of a lot, but wow.
- Phage Biodiversity in Artisanal Cheese Wheys Reflects the Complexity of the Fermentation Process. Modern methods kill a lot of phages.
- Setting conservation priorities for Argentina’s pseudocereal crop wild relatives. Go north, young CWR researcher!
- Flowering phenology shifts in response to biodiversity loss. Experimentally decreasing diversity in a California grassland advanced phenology.
- Activity, diversity and function of arbuscular mycorrhizae vary with changes in agricultural management intensity. No-till helps VAM, helps soils.
- Oases in Southern Tunisia: The End or the Renewal of a Clever Human Invention? I’m not hopeful.
- Physiological responses to drought stress in wild relatives of wheat: implications for wheat improvement. 4 species show promise.
- PepperHub, a Pepper Informatics Hub for the chilli pepper research community. Hot off the presses.
- Molecular diversity and phylogenetic analysis of domestic and wild Bactrian camel populations based on the mitochondrial ATP8 and ATP6 genes. The wild species is not the ancestor, and the domesticated species is a geographic mess.
- GenMon-CH: a Web-GIS application for the monitoring of Farm Animal Genetic Resources (FAnGR) in Switzerland. Upload data on your herd or flock, end up with a map of where the breed is most endangered.
- Stealing into the wild: conservation science, plant breeding and the makings of new seed enclosures. Ouch!
- GlobalTreeSearch – the first complete global database of tree species and country distributions. 60,065, about 10% crop wild relatives.
Brainfood: Soil biodiversity maps, VIR wheat, Rice worlds, African maize, Cold rice, Saharan history, Oil palm & CC, GM Cavendish
- Assessing soil biodiversity potentials in Europe. The hotspots are the pastures and grasslands of Ireland, Slovenia and Sweden.
- Into the vault of the Vavilov wheats: old diversity for new alleles. VIR has diversity that’s not in CIMMYT and Australian cultivars. No word on where ICARDA fits in.
- Disembedding grain: Golden Rice, the Green Revolution, and heirloom seeds in the Philippines. There are parallel and competing rice worlds, which differ in how they valorize the local. Or, it could be argued, though not by the authors, demonize the “other.”
- Microsatellite DNA marker for molecular characterization of African maize (Zea mays L.) landraces. The Somali material is weird.
- Genetic architecture of cold tolerance in rice (Oryza sativa) determined through high resolution genome-wide analysis. 42 QTLs. Is that a lot? It seems like a lot.
- Humans as Agents in the Termination of the African Humid Period. Damn livestock. Back to hunting and gathering.
- Future climate effects on suitability for growth of oil palms in Malaysia and Indonesia. Well that’s ironic.
- Golden bananas in the field: elevated fruit pro-vitamin A from the expression of a single banana transgene. Gene from Fe’i biofortifies Cavendish. Now to do something about taste, texture, general suckiness etc etc.
Brainfood: African sorghum, Dying living collections, Safe oats, Faba relative, Monitoring erosion, Driving livestock diversity, Sweet cryo, Wild rice genomes, Indian foxtails, Bonsai cassava, Sahelian food trees
- Assessment of genetic diversity of sorghum [Sorghum bicolor (l.) Moench] germplasm in East and Central Africa. Each country is different.
- A Review of Living Collections with Special Emphasis on Sustainability and Its Impact on Research Across Multiple Disciplines. Crop genebanks are just the tip of the iceberg, but they all have the same problems.
- Why Oats Are Safe and Healthy for Celiac Disease Patients. Because of the avenins.
- 14,000-year-old seeds indicate the Levantine origin of the lost progenitor of faba bean. Eureka!
- Monitoring Changes in Genetic Diversity. Needs genetic data.
- An exploratory analysis on how geographic, socioeconomic, and environmental drivers affect the diversity of livestock breeds worldwide. More animals = more breeds.
- Cryopreservation and evaluations of vegetative growth, microtuber production and genetic stability in regenerants of purple-fleshed potato. Apparently the first time it was done for this colour of sweet potatoes.
- Sequencing of Australian wild rice genomes reveals ancestral relationships with domesticated rice. N. Australia is the centre of diversity of genome A.
- Genetic diversity and variability in Foxtail millet [Setaria italica (L.)] germplasm based on morphological traits. 51 Indian elites form non-geographic groups.
- The Bonsai as an alternative safety duplication system of the world cassava collection preserved at CIAT. So cool.
- Conservation of food tree species in Niger: towards a participatory approach in rural communities. Adansonia, Boscia and Maerua need watching.
Brainfood: Mate diversity, Species recovery, CC & food, Microbial collections, Chickpea roots, African flora, Bitter gourd diversity, Wild yeast, Cryo double
- Genetic and phytochemical analysis to evaluate the diversity and relationships of mate (Ilex paraguariensis A. St.-Hil.) elite genetic resources in a germplasm collection. Some have low caffeine, which makes them especially useless.
- Genetic factors in threatened species recovery plans on three continents. Are ignored more often than you’d think.
- Climate Change and Food Systems Research: Current Trends and Future Directions. Current research on the effects of climate change on food systems doesn’t pay enough attention to the fact that food production is indeed a system, varies regionally and depends on political structures.
- World data centre for microorganisms: an information infrastructure to explore and utilize preserved microbial strains worldwide. All you need to know about 708 culture collections from 72 countries and >368,000 strains on one website.
- Characterising root trait variability in chickpea (Cicer arietinum L.) germplasm. Core collection of 270 reveals 3 main groups based on root architecture in hydroponics.
- RAINBIO: a mega-database of tropical African vascular plants distributions. Who will fillet out the CWR species?
- Genetic Variability for Yield and Nutritional Quality in Yam Bean (Pachyrhizus sp.). Can’t access the high dry matter material? No problem.
- Diversity Among a Wide Asian Collection of Bitter Gourd Landraces and their Genetic Relationships with Commercial Hybrid Cultivars. 114 accessions fall into 5 geographic groups based on SSRs. Commercial cultivars are all very similar.
- Yeast biodiversity from Vitis vinifera L., subsp. sylvestris (Gmelin) Hegi to face up the oenological consequences of climate change. Yeasts from wild grapes will save our wine. Look, I’ll take anything.
- The Potato Cryobank at the International Potato Center (CIP): A Model for Long Term Conservation of Clonal Plant Genetic Resources Collections of the Future. 70% of over 1000 accessions are considered successfully cryoconserved.
- Probabilistic viability calculations for cryopreserving vegetatively propagated collections in genebanks. Were these used in the above?
Brainfood: Truffle diversity, Pig diversity, SDMs
- How the truffle got its mate: insights from genetic structure in spontaneous and planted Mediterranean populations of Tuber melanosporum. More outbreeding in plantations, but strong structure still.
- Comparing genetic diversity of pig populations on the US mainland, Pacific Islands and China: Y chromosome evaluation. 16 breeds, 5 haplotypes, 10 breeds with only 1.
- What we use is not what we know: environmental predictors in plant distribution models. Edaphic factors are being ignored. ‘Twas ever thus.