- Genetic Cryopreservation of Rare Breeds of Domesticated North American Livestock: Smithsonian & SVF Biodiversity Preservation Project. 106,109 “units of germplasm” from 39 breeds.
- Interspecific hybridization facilitates niche adaptation in beer yeast. Chimerization is not a word I thought I would ever see in a beer context. Anyway, thank goodness for feral yeasts and their propensity for miscegenation.
- Predicted climate shifts within terrestrial protected areas worldwide. PAs in temperate and northern high-latitude will have high area proportions of novel climate conditions by the end of the century.
- Crop Genomics Goes Beyond a Single Reference Genome. Looks like we’ll always need another genome.
- Morphometric approaches to promote the use of exotic germplasm for improved food security and resilience to climate change: A kura clover example. Fancy maths used to describe the hell out of a small collection of an underused clover.
- Global distribution of earthworm diversity. Peaks at higher latitudes, but higher overall in the tropics.
- Natural genetic variation in photosynthesis: an untapped resource to increase crop yield potential? Sounds like it.
- Increasing Photosynthesis: Unlikely Solution For World Food Problem. Ok, maybe not.
- What role should randomized control trials play in providing the evidence base for conservation? A bigger role that currently, but watch out.
- Brown Rice, a Diet Rich in Health Promoting Properties. Mill less.
- Loss of diversity and accumulation of genetic load in doubled-haploid lines from European maize landrace. DH not a panacea.
- Maize agro-food systems to ensure food and nutrition security in reference to the Sustainable Development Goals.
- Using phenotypic distribution models to predict livestock performance. Niche models + performance.
Nibbles: ISF & SDGs, Nutrition report, Plant blindness, Cowpea, Chefs, Ancient baking, Rotations, Blue maize, Forests & poverty, Food miles
- International Seed Federation secretary-general in podcast on seeds and the SDGs.
- Country nutrition profiles. Sobering.
- Share your plant stories on Herbaria 3.0.
- The secret history of the cowpea, from a chef: “Our peas were tiny little texts, and we didn’t even know it.”
- Speaking of chefs…
- More on that 4000-year-old baking yeast story.
- The economics of rotations.
- The economics of blue maize.
- Mapping the evidence base for the link between forests and poverty alleviation.
- Speaking of maps, here’s how food moves around the USA.
Brainfood: Neolithic dairy, Wheat phenology, Carob origin, Malawi diets, Maize evolution, Bean domestication, Human evolution & diets, Chickpea pre-breeding, Food trade, Scaling up conservation, Apple leaves, Winged bean nutrition, White clover pedigrees, Bushmeat
- Milk of ruminants in ceramic baby bottles from prehistoric child graves. Neolithic sippy cups. Cute.
- Heat and Drought Stress Advanced Global Wheat Harvest Timing from 1981–2014. 2.5 days per decade.
- A strong east–west Mediterranean divergence supports a new phylogeographic history of the carob tree (Ceratonia siliqua, Leguminosae) and multiple domestications from native populations. No evidence of an eastern refugium.
- Value chains to improve diets: Diagnostics to support intervention design in Malawi. You can modify existing social protection interventions to optimize diets (including increasing diet diversity) by enhancing public- and private-sector linkages.
- Contemporary evolution of maize landraces and their wild relatives influenced by gene flow with modern maize varieties. Landrace genetic diversity actually increased due to introgression from modern varieties.
- Ancient genomes reveal early Andean farmers selected common beans while preserving diversity. Because they applied weak selection. Can breeders learn from this? Also, is it similar for maize?
- Reconstruction of nine thousand years of agriculture-based diet and impact on human genetic diversity in Asia. Changes in diet through domestication and processing have left signatures on the human genome.
- Transgressive segregations for agronomic improvement using interspecific crosses between C. arietinum L. x C. reticulatum Ladiz. and C. arietinum L. x C. echinospermum Davis species. For things like pod number, earliness and tolerance to cold.
- Linking global crop and livestock consumption to local production hotspots. China is the largest consumer of primary crops, and the third largest consumer of livestock. The Corn Belt, cerrado, Europe and E. China feeds it, and the world.
- How conservation initiatives go to scale. With great difficulty.
- Morphometrics Reveals Complex and Heritable Apple Leaf Shapes. It’s mainly about aspect ratio.
- Nutrient and Antinutrient Composition of Winged Bean (Psophocarpus tetragonolobus (L.) DC.) Seeds and Tubers. The best, and worst, among 50 accessions. Spoiler alert: it depends on the nutrient, and on whether you prefer the seeds or tubers.
- Identification of Founding Accessions and Patterns of Relatedness and Inbreeding Derived from Historical Pedigree Data in a White Clover Germplasm Collection in New Zealand. 15,000 accessions trace to about 175 founders.
- Poverty not taste drives the consumption of protected species in Madagascar. Let them eat domestic livestock meat.
Wheat diversity for health
The objective of this conference is bringing the Wheat researchers and the Human Health community together to exchange information and discuss strategies for improving the health benefits of wheat by exploiting diverse genetic resources, modern breeding, genomics, and sustainable production and processing technologies.
You had me at Weißbier.
Brainfood: Diversification, Wheat genomics, Historical tom, Crop mapping, African crops & CC, Trans CWR, Fish nutrition, Seed storage, Indian rice, Food Neighbourhoods, Diet sustainability, Onion evaluation, Aussie wild rice, Rice evaluation
- To diversify or not to diversify, that is the question. Pursuing agricultural development for smallholder farmers in marginal areas of Ghana. Diversify.
- Improving grain yield, stress resilience and quality of bread wheat using large-scale genomics. A genotype –> phenotype map at last. I guess that means breeders are superfluous.
- The earliest recorded tomato in Britain, in Wales. In 1590, no less.
- Biotechnology of the sweetpotato: ensuring global food and nutrition security in the face of climate change. A whole special issue. Our troubles are over.
- Probabilistic global maps of crop-specific areas from 1961 to 2014. A new, different, cooler algorithm provides somewhat different results to older, less cool algorithms.
- Potential adaptive strategies for 29 sub-Saharan crops under future climate change. Climatic conditions not currently experienced by these crops will spread, but CWRs and diversity from outside Africa might help.
- Trans Situ Conservation of Crop Wild Relatives. Just means properly integrated in and ex situ.
- Criar y Dejarse Criar: Trans-Situ Crop Conservation and Indigenous Landscape Management through a Network of Global Food Neighborhoods. See what it means? Scaling up the Parque de la Papa.
- Harnessing global fisheries to tackle micronutrient deficiencies. Small fish from the tropics could be really good for nutrition in some countries. Namibia, I’m looking at you.
- Artificial seed aging reveals the invisible fraction: Implications for evolution experiments using the resurrection approach. Store your seeds properly.
- Status of Rice (Oryza sativa L.) Genepool Collected from Western Ghats Region of India: Gap Analysis and Diversity Distribution Mapping using GIS Tools. Out of 678 rice landraces from this region, 43 have been used in crop improvement.
- Advancing an Integrative Framework to Evaluate Sustainability in National Dietary Guidelines. In 32 sub-dimensions, no less. Important.
- Assembly and characterisation of a unique onion diversity set identifies resistance to Fusarium basal rot and improved seedling vigour. Group according to local daylength.
- Australian wild rice populations: a key resource for global food security. Because they’ve been isolated from the crop.
- Novel method for evaluation of anaerobic germination in rice and its application to diverse genetic collections. No word on whether it’s applicable to Aussie wild species, but I bet it is.