- Duration of agriculture and distance from the steppe predict the evolution of large-scale human societies in Afro-Eurasia. Large, complex human societies arise where there is a long history of agriculture and war; and not, interestingly, where potential productivity is highest.
- Diet, Mobility, Technology, and Lithics: Neolithization on the Andean Altiplano, 7.0–3.5 ka. It seems the rise of large, complex societies arose in the Andes is associated with the change in projectile technology from atlatl to archery.
- Three-dimensional X-ray-computed tomography of 3300- to 6000-year-old Citrullus seeds from Libya and Egypt compared to extant seeds throws doubts on species assignments. Meanwhile, across the Atlantic, people were snacking on watermelon seeds.
- From the earliest farmers to the first urban centres: a socio-economic analysis of underground storage practices in north-eastern Iberia. You can track socioeconomic changes in ancient Iberian cultures (c. 5600–50 BC) via the size and morphology of their grain silos. No word on projectile technologies nor watermelons though.
- Re-evaluating Scythian lifeways: Isotopic analysis of diet and mobility in Iron Age Ukraine. Meanwhile, back on those steppes, 700-200 BC, some people were relatively settled, with their agro-pastoralism and millet agriculture, while others moved. So much for warlike nomads. Must have had watermelons by then, surely.
- Why were New World rabbits not domesticated? Because they’re solitary, dispersed and there’s too many different types. Most North American evidence of management comes from Teotihuacan, ~AD 1–550.
- Estimating the age of domestic fowl (Gallus gallus domesticus L. 1758) cockerels through spur development. In Britain, Iron Age and Roman cockerels died way too old to have been kept for meat, and were thus probably also used for rituals and cockfighting. No word on the Killer Rabbit of Caerbannog.
- The earliest water buffalo in the Caucasus: shifting animals and people in the medieval Islamic world. The water buffalo came to Azerbaijan with Islam in the 7-9th centuries.
- Collagen fingerprinting traces the introduction of caprines to island Eastern Africa. Goats from the 7th century CE, sheep a couple hundred years later. No word on water buffaloes.
- An illustrated review on manifestation of pome fruit germplasm in the historic miniatures of ancient Persia. 14-18th century Persian artists had a thing for pears, quinces and apples, and drew them very accurately.
Nibbles: Black sheep, Salty rice, Spanish melons, Olive diversity, Food sculpture, Seed art, Navajo peaches, Grain amaranth, PNG yams, Avocado recipes, Abbasid cooking
- Just back from a nice holiday, and greeted by Jeremy’s latest newsletter, which includes, among many delights, a post from Old European Culture on black sheep in the Balkans.
- Traditional salt-tolerant rice varieties making a comeback in India.
- Traditional melon varieties exhibited by genebank in Spain.
- Trying to make the most of traditional olive varieties.
- Traditional foods are depicted in stone on Seville’s cathedral.
- And more recent attempts to celebrate biodiversity in art.
- I guess one could call traditional these old peaches that used to be grown by the Navajo. Have blogged about them before, check it out.
- No doubt that amaranth is a traditional crop in Central America. I doubt that it will “feed the world,” but it can certainly feed a whole bunch more people. Thanks to people like Roxanne Swentzell.
- There’s nothing more traditional than yams in Papua New Guinea. For 50,000 years.
- How to remix a traditional food like stuffed avocado.
- How many of the traditional recipes in these Abbasid and later Arab cookbooks have been remixed, I wonder?
Brainfood: Genetic diversity, Germplasm exchange, Genomic selection, New varieties, Maya agriculture, AnGR, Diverse planted forests, Vermont seeds, Wine appellation, Roots & tubers, Late blight, Nordic barley landraces
- The long-standing significance of genetic diversity in conservation. I suppose it does need to be repeated.
- Germplasm exchange is critical to conservation of biodiversity and global food security. Yes, indeed it does look like it needs to be repeated.
- From gene banks to farmer’s fields: using genomic selection to identify donors for a breeding program in rice to close the yield gap on smallholder farms. A prime example of why it should not need to be repeated.
- Large potential for crop production adaptation depends on available future varieties. 39% of global cropland could require new crop varieties to avoid yield loss from climate change by the end of the century? You don’t say. Bears repeating.
- More than Maize, Bananas, and Coffee: The Inter– and Intraspecific Diversity of Edible Plants of the Huastec Mayan Landscape Mosaics in Mexico. Looks like we don’t need to repeat it to the Maya.
- Monitoring and Progress in the Implementation of the Global Plan of Action on Animal Genetic Resources. Significant progress, but correlated with per capita GDP. So some people are listening to the endless repetition; but not enough.
- For the sake of resilience and multifunctionality, let’s diversify planted forests! Yes, it needs to be repeated for forests too.
- Motivations for maintaining crop diversity: Evidence from Vermont’s seed systems. Yes, repeat by all means, but with variation.
- How big is the “lemons” problem? Historical evidence from French wines. Quality certification schemes can support the market value of products. And of course they can be good for genetic diversity too.
- Crop resistance and household resilience – The case of cassava and sweetpotato during super-typhoon Ompong in the Philippines. Root and tuber crops are good for household resilience in typhoon-affected areas. Not exactly genetic diversity, but still bears repeating.
- Global historic pandemics caused by the FAM-1 genotype of Phytophthora infestans on six continents. Why genetic diversity is necessary for root and tuber crops too. As if it needed repeating.
- Genetic Diversity in 19th Century Barley (Hordeum vulgare) Reflects Differing Agricultural Practices and Seed Trade in Jämtland, Sweden. What causes all that genetic diversity we’ve been repeating endlessly about.
Hasta luego, Tom!
Today we’re wishing Tom Payne a very long and happy retirement after over 30 years at CIMMYT, many of the later ones running the wheat genebank.
There’s a nice conversation with him on the WHEAT website.
What is one way we can ensure long-term conservation of staple crops around the world?
In the past few years, several internationally renowned germplasm collections have been destroyed due to civil conflicts, natural disasters and fires — for example in Aleppo, Cape Town and Sao Paulo. Each time, we hear what a shame it was that the destroyed heritage was lost, that it was irreplaceable and beyond value. When a genebank loses an accession, the ancestral lineage extending hundreds of generations becomes permanently extinct. Genebank managers recognize this threat, and hence duplicate samples of all accessions are now slowly being sent to the Global Seed Vault in Svalbard for long-term preservation.
A fond farewell today to Tom Payne, currently the Head of the Wheat Germplasm Collection as he retires after 33+ years at @CIMMYT. Steadfast commitment to & promotion of the many forms of diversity in crops & people globally. Read his recent reflections: https://t.co/CaAhqGRT2J pic.twitter.com/OmzaqUhkPe
— Alison Bentley (@AlisonRBentley) July 21, 2021
If you wanted a nice summary Tom’s legacy you could do worse than look at the recent paper Germplasm Acquisition and Distribution by CGIAR Genebanks, which is now part of a handsome, freely downloadable volume.
Nibbles: Eat like a Roman, Diverse palate, Sustainable diet myths, Trees
- Wanna eat like an ancient Roman?
- But was ancient Rome’s food system geographically diversified?
- And how healthy and sustainable were their diets anyway?
- Well, I bet they had agroforestry.