- Early Neolithic (ca. 5850-4500 cal BC) agricultural diffusion in the Western Mediterranean: An update of archaeobotanical data in SW France. Agriculture came to southern France from southern Italy around 5700 BC, initially focusing on hulled wheats, then transitioned to naked cereals as it moved inland.
- Improved feeding and forages at a crossroads: Farming systems approaches for sustainable livestock development in East Africa. Adoption of tropical forages at scale can make a big difference to livelihoods in East Africa, but will need careful consideration of agroecological and socioeconomic settings. My mother-in-law unavailable for comment.
- Comprehensive 3D phenotyping reveals continuous morphological variation across genetically diverse sorghum inflorescences. Fancy gadgets and maths show that botanical sorghum races overlap more in morphology than genetics.
- Using clear plastic CD cases as low‐cost mini‐rhizotrons to phenotype root traits. Now do roots.
- A 1000-year-old mystery solved: Unlocking the molecular structure for the medieval blue from Chrozophora tinctoria, also known as folium. 6′-hydroxy-4,4′-dimethoxy-1,1′-dimethyl-5′-{[3,4,5-trihydroxy-6-(hydroxymethyl)tetrahydro-2H-pyran-2-yl]oxy}-[3,3′-bipyridine]-2,2′,5,6(1H,1′H)-tetraone, if you must know.
- Generating a rule-based global gridded tillage dataset. The most amazing thing about this is that there are only 6 types of tillage.
- The global cropland-sparing potential of high-yield farming. We could give up 40% of current farmland if yields of 16 major crops were higher. Unclear what all those farmers would do. Or what kind of tillage they would use.
- Local food crop production can fulfil demand for less than one-third of the population. Still going to need global supply chains.
- Regional differences in agricultural and socioeconomic factors associated with farmer household dietary diversity in India. And national supply chains for that matter.
- Influences of Ingredients and Bakers on the Bacteria and Fungi in Sourdough Starters and Bread. Bakers are part of bread.
- Strategies for reducing per‐sample costs in target capture sequencing for phylogenomics and population genomics in plants. Down to $22 per sample, if you play your cards right.
- Evolutionary insights into plant breeding. When you’ve played those cards, target selective sweeps for introgression, among other things. Oh, and gene editing. Here, read these tweets from one of the authors.