- 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.
Brainfood: Genomic data edition
- When more is better: how data sharing would accelerate genomic selection of crop plants. It’s the data sharing, stupid.
- Genomic prediction contributing to a promising global strategy to turbocharge gene banks. See what I mean?
- Conservation of Animal Genetic Resources – A New Tact. Yeah, for animals too.
- Indigenous stocks as treasure troves for sustainable livestock production in the 21st century: Insights from small ruminant genomics. See what I mean?
Brainfood: SE Asia archaeobotany, Avocado cryo, Farm diversity & revenue, DOC cheese, Kenyan agrobiodiversity, Perennial pigeonpea, Algerian sheep diversity, Basil rankings, Wild sunflower
- Rice, beans and trade crops on the early maritime Silk Route in Southeast Asia. At trade crossroads, crops had to audition for inclusion in the local menu.
- Cryopreservation of somatic embryos for avocado germplasm conservation. Still needs work.
- Soil fertility, crop biodiversity, and farmers’ revenues: Evidence from Italy. Diverse farms are more profitable, and can make up for poor soils.
- Native and Non-Native Sheep Breed Differences in Canestrato Pugliese Cheese Quality: a Resource for a Sustainable Pastoral System. Traditional local cheese is better when made with milk from traditional local breeds.
- Agrobiodiversity conservation enhances food security in subsistence-based farming systems of Eastern Kenya. But correlation is not causation.
- Estimating demand for perennial pigeon pea in Malawi using choice experiments. It won’t be liked everywhere.
- Genome-wide analysis highlights genetic dilution in Algerian sheep. Two of the 7 local breeds studied are in trouble due to uncontrolled breeding with a third, but may be doing better in neighbouring countries.
- Multicriteria optimization to evaluate the performance of Ocimum basilicum L. varieties. Fancy maths allows you to pick the best basil variety out of 8.
- The challenges of maintaining a collection of wild sunflower (Helianthus) species. Are many and varied…
Brainfood: Wilderness loss, Indian rice breeding, Wild barley, Korean millet, Jute mallow diversity, Wheat yields, Orange cassava
- Catastrophic Declines in Wilderness Areas Undermine Global Environment Targets. 10% of supposedly remote wilderness areas gone since the early 1990s.
- Genetic diversity trend in Indian rice varieties: an analysis using SSR markers. The diversity of rice varieties released in India has been decreasing, but only of late.
- Genotypic and phenotypic changes in wild barley (Hordeum vulgare subsp. spontaneum) during a period of climate change in Jordan. There were changes in climate on one side and phenotype and genotype on the other, but it was difficult to find a connection between the two.
- EST-SSR Based Genetic Diversity and Population Structure among Korean Landraces of Foxtail Millet (Setaria italica L.). As is often the case, there’s no geographic structure, unless there is.
- Domestication of jute mallow (Corchorus olitorius L.): ethnobotany, production constraints and phenomics of local cultivars in Ghana. Let the breeding begin.
- Similar estimates of temperature impacts on global wheat yield by three independent methods. Down by about 5% for a 1°C global temperature increase, no matter how you slice it.
- Genome-wide association mapping of provitamin A carotenoid content in cassava. SNPs associated with carotenoid content in cassava roots found in vicinity of known gene responsible for increase in accumulation of provitamin A carotenoids in cassava roots.