- Economic benefits from plant species diversity in intensively managed grasslands. More species means more milk, more money and less risk.
- Community structure of soil fungi in a novel perennial crop monoculture, annual agriculture, and native prairie reconstruction. Perennial monoculture not unlike native prairie.
- Origins and insights into the historic Judean date palm based on genetic analysis of germinated ancient seeds and morphometric studies. Ancient Judean dates may have come from further east.
- Genetic diversity and traditional uses of aboriginal grape (Vitis vinifera L.) varieties from the main viticultural regions of Armenia. 71 genotypes, no less.
- Mapping tree species vulnerability to multiple threats as a guide to restoration and conservation of tropical dry forests. About 50% of the distribution of 50 trees in northwestern Peru and southern Ecuador is vulnerable.
- Canine olfactory detection of a vectored phytobacterial pathogen, Liberibacter asiaticus, and integration with disease control. Dogs can sniff out a nasty citrus disease.
- The Rural Household Multiple Indicator Survey, data from 13,310 farm households in 21 countries. 758 variables, no less.
- Local Solutions for Sustainable Food Systems: The Contribution of Orphan Crops and Wild Edible Species. Increasing dietary diversity, more market opportunities for smallholders, and more attention to biodiversity conservation. Do orphan crops feature among the 758 variables above?
- Breeder friendly phenotyping. Focused, rapid and precise. Much like me, then?
- Genomics of sorghum local adaptation to a parasitic plant. Why we need on-farm conservation.
- Mapping patterns of abiotic and biotic stress resilience uncovers conservation gaps and breeding potential of Vigna wild relatives. Sources of resistance to biotic stresses are more common than to abiotic stresses, in terms of the number of species that have them.
- Archaeobotanical evidence of food plants in Northern Italy during the Roman period. Nice take-homes from Dr Lisa Lodwick on Twitter.
- The environmental consequences of climate-driven agricultural frontiers. Areas newly suitable for one or more crops store a lot of C, cover a lot of important watersheds and are home to a lot of biodiversity.