- High-resolution silkworm pan-genome provides genetic insights into artificial selection and ecological adaptation. The silkworm was domesticated 5000 years ago in the middle Yellow River (along with millets?), but was improved independently and in different directions in China and Japan.
- The genomic history and global expansion of domestic donkeys. The donkey was domesticated in the Horn of Africa 7000 years ago and then developed in different directions in Africa and Eurasia. Covered in the NY Times, no less.
- Your horse is a donkey! Identifying domesticated equids from Western Iberia using collagen fingerprinting. Turns out you can tell horses and donkeys apart easily and cheaply from ancient collagen in archaeological remains.
- Genetics of randomly bred cats support the cradle of cat domestication being in the Near East. Humans were domesticated by cats in the eastern Mediterranean basin about 12,000 years ago.
- The history of the domestic cat in Central Europe. Wait, the Near Eastern wildcat, from which all domestic cats are derived, could have been in central Europe before the Neolithic.
- Missing puzzle piece for the origins of domestic chickens. Recent dating of chicken domestication from archaeological remains in Thailand at 1650–1250 BC underestimates the timescale. By a lot.
- Was the Fishing Village of Lepenski Vir Built by Europe’s First Farmers? And did they have cats?
- Shamanism at the transition from foraging to farming in Southwest Asia: sacra, ritual, and performance at Neolithic WF16 (southern Jordan). You need shamans to help you cope with all that animal domestication.
- Contributions of black locust (Robinia pseudoacacia L.) to livelihoods of peri-urban dwellers in the Free State Province of South Africa. Wait, black locusts are not animals? Hmm, they do seem to have some things in common with cats though.
Nibbles: Svalbard Global Seed Vault, Hemp collection, Community seedbank, Turkish national genebank, Olive park, Pillas, CIMMYT genebank
- A Canadian take on Svalbard.
- A Texas take on hemp conservation.
- A Zimbabwean take on community seedbanks.
- A Turkish take on genebanks.
- An Italian take on olive conservation.
- A Cornish take on heirloom oats.
- A Chinese take on the CIMMYT genebank.
Brainfood: Genetic erosion, Ecosystem services, Cereal mixtures, Natural enemies, Soil microbiome double
- Genetic diversity loss in the Anthropocene. Don’t get excited, I don’t think the method translates to cultivated species, but fancy maths says we’ve lost on average 10% of the genetic diversity within species.
- A graphical causal model for resolving species identity effects and biodiversity–ecosystem function correlations. Yeah, but don’t forget that species level diversity is important too. Or rather, diversity of functional traits among species.
- Cereal species mixtures: an ancient practice with potential for climate resilience. A review. Species level diversity in the same farmer’s field is being forgotten, and that’s bad.
- Microbiomes in agroecosystem: Diversity, function and assembly mechanisms. Even soil microbial diversity is important…
- Association analyses of host genetics, root-colonizing microbes, and plant phenotypes under different nitrogen conditions in maize. …but the effects of soil microbial diversity can get quite complicated, and interact with the genetic diversity of crop plants. Which we may or may not have lost an average 10% of.
- Direct and indirect effects of management and landscape on biological pest control and crop pest infestation in apple orchards. Yeah, but species diversity can be bad too.
Pulse evaluation set to INCREASE
As we’ve noted a couple of times here, the INCREASE project (Intelligent Collections of Food Legumes Genetic Resources for European Agrofood Systems) includes a fantastic citizen science component. If you’re interested in taking part, registration for the third phase opens in a few days.
Brainfood: Coconut in vitro, Clean cryo, Chickpea & lentil collections, Genebank data history, Eurisco update, Mining genebank data, TIK, Sampling strategy, Drones, GIS, Mexican CWR, Post-2020 biodiversity framework
- Thiamine improves in vitro propagation of sweetpotato [Ipomoea batatas (L.) Lam.] – confirmed with a wide range of genotypes. Getting there, keep tweaking…
- Minimizing the deleterious effects of endophytes in plant shoot tip cryopreservation. Something else to tweak.
- Ex Situ Conservation of Plant Genetic Resources: An Overview of Chickpea (Cicer arietinum L.) and Lentil (Lens culinaris Medik.) Worldwide Collections. Thankfully not much in vitro and cryo involved. The main tweak necessary is to share more characterization data with breeders.
- Data, Duplication, and Decentralisation: Gene Bank Management in the 1980s and 1990s. Ah, but do calls for more data also reflect attempts to cut costs and build political bridges? And would that be so bad?
- EURISCO update 2023: the European Search Catalogue for Plant Genetic Resources, a pillar for documentation of genebank material. Arguably, Eurisco tries to do all of the above, and pretty well.
- Bioinformatic Extraction of Functional Genetic Diversity from Heterogeneous Germplasm Collections for Crop Improvement. You need fancy maths to make sense of all that data. And use it.
- Research Status and Trends of Agrobiodiversity and Traditional Knowledge Based on Bibliometric Analysis (1992–Mid-2022). Not much traditional knowledge in those databases, though, eh? That would be one hell of a tweak.
- Species-tailored sampling guidelines remain an efficient method to conserve genetic diversity ex situ: A study on threatened oaks. Meanwhile, some people are still trying to figure out the best way to tweak sampling strategies to add diversity to genebanks. Spoiler alert: you need data on individual species.
- Collecting critically endangered cliff plants using a drone-based sampling manipulator. You also need drones.
- Application of Geographical Information System for PGR Management. One thing you can do with all that data is map stuff. So at least the drones know where to go.
- Incorporating evolutionary and threat processes into crop wild relatives conservation. The only thing that’s missing from this is traditional knowledge. And maybe drones.
- Conserving species’ evolutionary potential and history: opportunities under the new post-2020 global biodiversity framework. All these data will allow us to measure how well we’re doing. And whether we can ask for cryotanks, drones, and better databases.