- And…we’re back!
- Nice new infographics derived from that classic paper “Increasing homogeneity in global food supplies and the implications for food security.”
- Video on a millet community seedbank in India.
- I hope all these healthy Indian rices are in seedbanks somewhere, community or otherwise.
- Kazakhstan is getting a new genebank, and I don’t mean a community one.
- yeah but genebanks are not enough: enter INCREASE.
- Wait, there’s a World Localization Day?
- Looks like white sage might need less localization and more seedbanks.
- I see your Mexican white sage and raise you the Calabrian white olive.
- The Telangana equivalent of white sage is probably safe, though, if this collecting programme is anything to go by.
- IFAD pushes nature-based farmers. White sage unavailable for comment.
- The localization narrative meets Italian food. And yes, spoiler alert, Italian food does exist. Despite the increasing homogeneity in global food supplies. And it doesn’t need white olives either.
- Let the hand-wringing about the Italian-ness (Italianity?) of citrons commence. But not until I’ve left the room.
- Ah, but is there such a thing as Indian food? I mean, if there’s quinoa in it. I look forward to the eventual quinoa community seedbanks.
- All those crops are not being locally grown for food anyway.
- Have a happy new globalizing, localizing year, everyone.
Brainfood: Neolithic microbiomes, Transeurasian languages, Rice history, Chinese Neolithic, Indo-European origins, Chalcolithic stews, Indus Valley hydrology, Bronze Age opium, Cassava storage
- Ancient oral microbiomes support gradual Neolithic dietary shifts towards agriculture. The adoption of agriculture was gradual.
- Triangulation supports agricultural spread of the Transeurasian languages. The ancestors of the speakers of 98 related languages — including Japanese, Korean, Tungusic, Mongolic and Turkic — were the first millet farmers gradually spreading across Northeast Asia.
- Modelling the chronology and dynamics of the spread of Asian rice from ca. 8000 BCE to 1000 CE. Deep breath. Rice domestication originated in eastern China (7430 BCE) and northeastern South Asia (6460 BCE). Then gradually spread in 2 waves: (1) in the 4th-3rd millennia BCE to the rest of China and SE Asia, associated with millet cultivation (Transeurasian speakers?), and (2) in 1st BCE-1st CE to Liao River region, Central Asia, and Africa.
- Plant foods consumed at the Neolithic site of Qujialing (ca. 5800-4200 BP) in Jianghan Plain of the middle catchment of Yangtze River, China. Not just rice and millets but also job’s tears, lotus roots, yam, acorns and beans.
- Indo-European cereal terminology suggests a Northwest Pontic homeland for the core Indo-European languages. The speakers of Proto-Indo-European, on the other hand, gradually making their way from the steppes, were not farmers.
- Revealing invisible stews: new results of organic residue analyses of Beveled Rim Bowls from the Late Chalcolithic site of Shakhi Kora, Kurdistan Region of Iraq. Not by bread alone… Iconic, hastily-made, throw-away pottery bowls from 3500 BCE were not bread moulds but rather held tasty stews. No job’s tears and lotus roots, alas, though.
- Phytoliths as indicators of plant water availability: The case of millets cultivation in the Indus Valley civilization. Sorghum and millets were growing under water stress at several Mature Harappan (2500–1900 BCE) sites. But they could take it.
- Opium trade and use during the Late Bronze Age: Organic residue analysis of ceramic vessels from the burials of Tel Yehud, Israel. People were getting high in the 14th century BCE. And who can blame them, after millennia of domesticating plants and gradually spreading around the world.
- Adaptations of Pre-Columbian Manioc Storage Techniques as Strategies to Adapt to Extreme Climatic Events in Amazonian Floodplains. Some current agricultural practices can be seen in the archaeological record. And not just getting high on opium.
- See you in the new year, everyone!
Nibbles: Fancy fungus, Fancy CWR book, Fancy dataset, Fancy food, Fancy wheat collection, Fancy diet, Fancy seeds, Fancy agriculture
- Symbiotic fungus can help plants and detoxify methylmercury.
- Very attractive book on the wild tomatoes of Peru. I wonder if any of them eat heavy metals.
- There’s a new dataset on the world’s terrestrial ecosystems. I’d like to know which one has the most crop wild relative species per unit area. Has anyone done that calculation? They must have.
- Iran sets up a saffron genebank. Could have sworn they already had one.
- The Natural History Museum digs up some old wheat samples, the BBC goes a bit crazy with it.
- Paleolithic diets included plants. Maybe not wheat or saffron though.
- Community seedbanks are all the rage in Odisha.
- Seeds bring UK and South Africa closer together. Seeds in seedbanks. Not community seedbanks, perhaps, but one can hope.
- Can any of the above make agriculture any more nutrition-sensitive? I’d like to think yes. Maybe except for the mercury-eating fungus, though you never know…
Nibbles: Old olive, Silphion, Heirloom watermelon, Calabrian chili, ICARDA genebank, Jamaica genebank, Tamil community seedbank, Forestry seeds
- Really old olive tree in the gardens of the mosque-cathedral of Cordoba is a lost variety.
- Long extinct medicinal spice plant not extinct after all?
- The next nearly extinct heirloom on our list is a watermelon from Virginia. Who knows, it may originally have been grown in Cordoba or Cyrenaica…
- And moving in the opposite direction, a really hot Calabrian chili pepper beats the heat.
- The ICARDA genebank is trying to find stuff that will beat the heat too.
- Jamaica is looking to beat the heat by establishing some new genebanks.
- Tamil Nadu going the community seedbank route, and why not? Jamaica please take note.
- An alliance of forestry outfits is pushing for a global seedbank infrastructure to support woodland restoration. Nothing if not ambitious. And much needed.
Brainfood: Wild scarlet runner beans, Wild coffee, Mexican vanilla, Hybrid barley, Zea genus, Wild maize gene, N-fixing xylem microbiota, Drone phenotyping, Wild tomato, Potato breeding, Wild potato, Wheat evaluation, Rice breeding returns
- The genomic signature of wild-to-crop introgression during the domestication of scarlet runner bean (Phaseolus coccineus L.). The wild Mexican genepool is helping to counteract the effects of the domestication bottleneck.
- Genetic variation in wild and cultivated Arabica coffee (Coffea arabica L.): Evolutionary origin, global distribution, and its effect on fungal disease incidence in Southwest Ethiopia. Domesticated disease-resistant cultivars are threatening the genetic integrity of the wild genepool. You win some, you lose some.
- Uncovering haplotype diversity in cultivated Mexican vanilla species. Plenty of evidence of past hybridization events in cultivated vanilla in Mexico. Maybe it can swap stories with scarlet runner bean.
- Six-rowed wild-growing barleys are hybrids of diverse origins. In the case of barley, the wild-cultivated hybrids even got a separate Latin binomial.
- Portrait of a genus: genome sequencing reveals evidence of adaptive variation in Zea. Lots of variation in interesting adaptive traits in the wild relatives of maize. Did they, or will they, make their way into the crop, I wonder?
- An adaptive teosinte mexicana introgression modulates phosphatidylcholine levels and is associated with maize flowering time. This one did.
- A highly conserved core bacterial microbiota with nitrogen-fixation capacity inhabits the xylem sap in maize plants. Its wild relatives are not the only wild organisms maize benefits from.
- Phenomic data-facilitated rust and senescence prediction in maize using machine learning algorithms. Drones and fancy maths can be used to predict and document southern rust infection in maize. Maybe in wild relatives too one day, who knows.
- A Solanum lycopersicoides reference genome facilitates insights into tomato specialized metabolism and immunity. A tomato wild relative has a gene for resistance to bacterial speck disease, so of course they had to sequence its genome.
- Genetic gains in potato breeding as measured by field testing of cultivars released during the last 200 years in the Nordic Region of Europe. Genetic gains for yield (measured in non-target environments) were not that great and contributed about half of productivity gains. Results for other traits were even worse, mainly because of stringent market demands. So no chance of using wild relatives I suppose.
- Genotypic Response and Selection of Potato Germplasm Under Heat Stress. Not so fast…
- Dataset of historic and modern bread and durum wheat cultivar performance under conventional and reduced tillage with full and reduced irrigation. I wonder to what extent wild relatives contributed to the differences.
- Assessing returns to research investments in rice varietal development: Evidence from the Philippines and Bangladesh. Net returns from collaboration in rice breeding between IRRI and national partners are still strong in the Philippines and Bangladesh, but declining, and faster in the former than the latter. Plenty of genes from wild relatives in IRRI lines of course. Maybe there could be more?