- Seed security response during COVID-19: building on evidence and orienting to the future. First and foremost, support farmers save their seeds.
- Blended finance for agriculture: exploring the constraints and possibilities of combining financial instruments for sustainable transitions. How about supporting farmers save their seeds?
- Dynamic conservation of genetic resources: Rematriation of the maize landrace Jala. Genebanks helping farmers save their seeds.
- Molecular Parallelism Underlies Convergent Highland Adaptation of Maize Landraces. Early farmers saving their maize seeds in the Mexican highlands eventually helped out farmers in the Andean highlands. With GIF goodness.
- Open access to genetic sequence data maximizes value to scientists, farmers, and society. How will it help farmers save their seeds?
- Applying Knowledge of Southern Seed Savers to Community-Based Agricultural Biodiversity Conservation Practice. The people saving and swapping seeds in the Ozarks respond to films, need how-to manuals, and could be a tad more diverse. I suspect this is not just true in Arkansas.
- Characterization of wheat germplasm conserved in the Indian National Genebank and establishment of a composite core collection. Farmers trying to save their seeds rejoice.
- Heritable epigenetic diversity for conservation and utilization of epigenetic germplasm resources of clonal East African Highland banana (EAHB) accessions. Hey, it’s not just seeds. Methylation patterns follow geography but not morphology in a genetically uniform group of vegetatively propagated cultivars.
- Blind spots in global soil biodiversity and ecosystem function research. Not now, soil biodiversity, I’m too busy dealing with seeds.
- Narrow genetic base shapes population structure and linkage disequilibrium in an industrial oilseed crop, Brassica carinata A. Braun. Landraces of Ethiopian mustard and improved lines cluster in separate groups, but overall diversity is low. Not enough seeds saved, perhaps?
- High-Throughput Genome-Wide Genotyping To Optimize the Use of Natural Genetic Resources in the Grassland Species Perennial Ryegrass (Lolium perenne L.). Only possible because of saved seeds.
- Presence of resveratrol in wild Arachis species adds new value to this overlooked genetic resource. I hope we’ve saved enough seeds.
- Main Challenges and Actions Needed to Improve Conservation and Sustainable Use of Our Crop Wild Relatives. It’s quite difficult — and insufficient — to save the seeds of wild species, but we should do it nevertheless.
- Influence of diversity and intensification level on vulnerability, resilience and robustness of agricultural systems. Why we should all save seeds.
Agriculture on the steppe
I’ve been sitting on a couple of linked press releases from the Max Planck Institute for the Science of Human History for a few months now and it’s about time I did something about them. So here goes. The releases summarize two papers deriving from the analytical work of Dr Shevan Wilkin and her colleagues on skeletal remains previously excavated from Mongolian archaeological sites spanning a wide range of dates back to 5000 year ago.
The first paper focuses on dairy proteins from dental plaque to suggest that steppe pastoralists in what is now Mongolia started consuming ruminant milk at least 5000 years ago. Horse milk came in about 3000 years ago, coinciding with the first evidence of horse bridling and riding, and was mainly fermented. Finally, camel milk started to be consumed during the Mongol Empire, 800 years ago. How lactose intolerant populations dealt with this is still unknown, but may have involved changes in the gut microbiome.
Next, looking at the N and C isotopes in dental enamel and rib collagen enabled the researchers to investigate the wider dietscape. In particular, they found evidence of increased millet (Panicum miliaceum and/or Setaria italica) ((You can’t tell which because they’re both C4 grasses, and the method just detects the presence of C4 material in the diet.)), consumption around 2000 years ago, but only in some individuals, mainly living close to the heartland of the polity (the Xiongnu Empire) which developed at that time.
Clearly, some ancient Mongolians did not completely conform to the nomadic herder stereotype of popular imagination.
LATER: Speaking of broomcorn millet (Panicum miliaceum), here’s a paper that just came out that dates its arrival in Europe to the 16th century BC, and its rapid spread during the subsequent two centuries, i.e. during the Bronze Age. So, having been domesticated 8000 years ago in NE China, it was being widely consumed in Europe before Mongolia. And here’s one we prepared earlier…
Brainfood: Global Food Security, Neutral diversity, Bottlenecks, Slovenian lettuce, Swedish apples, Mungbean diversity, Crop suitability, Breeding graph, Herding diet, Cool shit, Seed storage double, Wild quinoa, Mighty wind
- A research vision for food systems in the 2020s: Defying the status quo. Research is necessary but not sufficient.
- Dismantling a dogma: the inflated significance of neutral genetic diversity in conservation genetics. Not all genetic diversity is created equal.
- A re‐evaluation of the domestication bottleneck from archaeogenomic evidence. Not so much a single bottleneck “event” on domestication, as serial bottlenecks post-domestication. Another dogma dismantled?
- Morphological and genetic diversity of Slovene lettuce landrace ‘Ljubljanska ledenka’ (Lactuca sativa L.). Not all iceberg is created equal.
- Genetic Status of the Swedish Central collection of heirloom apple cultivars. Neutral diversity is not completely useless, though?
- Understanding genetic variability in the mungbean (Vigna radiata L.) genepool. It may not be neutral variation, but it’s not associated with geography. If you see what I mean.
- A Land Evaluation Framework for Agricultural Diversification. Soil and climate data –> fancy maths –> pretty good prediction of where you find a crop.
- A unifying concept of animal breeding programs. You can describe any breeding programme by using graph theory. But would it help?
- Molecular and isotopic evidence for milk, meat, and plants in prehistoric eastern African herder food systems. Chemical and isotope analysis of lipids on ceramic shards shows early herding societies had a pretty diverse diet.
- Pre-Clovis occupation of the Americas identified by human fecal biomarkers in coprolites from Paisley Caves, Oregon. Lipids again, this time at the other end of the process, and of the world.
- Identification of novel seed longevity genes related to oxidative stress and seed coat by genome‐wide association studies and reverse genetics. Seeds need to take their antioxidants.
- Evaluation of genetic integrity of pearl millet seeds during aging by genomic-SSR markers. Loss of viability leads to loss of diversity.
- Geographical distribution of quinoa crop wild relatives in the Peruvian Andes: a participatory mapping initiative. Cultivated land is as important as more “natural” ecosystems for quinoa wild relatives.
- Global wind patterns and the vulnerability of wind-dispersed species to climate change. In the tropics, and in the lee of mountains, wind-dispersed species will find it more difficult to reach places with suitable future climates.
Brainfood: Perennial favourites, Feral grapevines, Silky cat, Damaged yams, Maize vs sorghum, Sunflower ecotypes, Fungal diversity, Pacific voyaging, Vitamin seeds, Biogeoinformatics, Natural language, Evaluation, Aquaculture
- Perennial vegetables: A neglected resource for biodiversity, carbon sequestration, and nutrition. Over 600 perennial veggies on 6% of global vegetable cropland.
- Genomic Evidences Support an Independent History of Grapevine Domestication in the Levant. Separate from what happened in the Caucasus, that is.
- Distribution, prevalence and severity of damages caused by nematodes on yam (Dioscorea rotundata) in Nigeria. A quarter of tubers and half of heaps showed nematode symptoms.
- Maize long-term genetic progress explains current dominance over sorghum in Argentina. Follow the money.
- Phenotypic and physiological responses to salt exposure in Sorghum reveal diversity among domesticated landraces. Salinity tolerance was acquired early but then lost in some geographic regions where it wasn’t needed. See what happens when you invest in a crop?
- Massive haplotypes underlie ecotypic differentiation in sunflowers. It’s the recombination-suppressing inversions, stupid.
- GlobalFungi, a global database of fungal occurrences from high-throughput-sequencing metabarcoding studies. Cool. Do landraces of a crop next.
- The earliest domestic cat on the Silk Road. Coincided with rapid urbanization in the 9th century.
- Native American gene flow into Polynesia predating Easter Island settlement. Yeah, but did Americans go west of their own accord or in Polynesian boats? And did they have sweetpotatoes with them? And cats?
- Genetic markers associated with seed longevity and vitamin E in diverse Aus rice varieties. 5 markers on 4 chromosomes.
- Biogeoinformatics for the management of Farm Animal Genetic Resources (FAnGR). Software for monitoring erosion and detecting locally adapted genotypes. Plus preserve traditional practices.
- Computing on Phenotypic Descriptions for Candidate Gene Discovery and Crop Improvement. Casually talk about a plant in the field –> fancy math –> the plant’s genotype.
- Data synthesis for crop variety evaluation. A review. Focus on ranking. Oh, to mash it up with the above.
- Scenarios for Global Aquaculture and Its Role in Human Nutrition. For aquaculture to contribute to nutrition it needs enabling trade and economic policies. Well I never.
Brainfood: Bacterial contamination, Yam diversity, Multi-parent pops, Small millets breeding, Plural valuation, Seed conservation, Transition, Wild spuds, Enset conservation, Cassava viruses, Maize stemborer, Rice roots
- Identification and Control of Latent Bacteria in in vitro Cultures of Sweetpotato [Ipomoea batatas (L.) Lam]. 10% of about 2400 in vitro plantlets had a total of about 20 types of bacteria, some of which might be beneficial for all we know, but all of which could be removed.
- Genome-wide genotyping elucidates the geographical diversification and dispersal of the polyploid and clonally propagated yam (Dioscorea alata L.). Asian and Pacific genepools, thence to India, then Africa, then the Caribbean.
- Multi-parent populations in crops: a toolbox integrating genomics and genetic mapping with breeding. Like MAGIC.
- Genetic and genomic resources, and breeding for accelerating improvement of small millets: current status and future interventions. Here’s all the promising material, now go crazy with the MAGIC.
- Plural valuation of nature for equity and sustainability: Insights from the Global South. The road to decolonizing conservation.
- Long-Term Storage and Longevity of Orthodox Seeds: A Systematic Review. Treat your seeds right.
- Changes in food access by mestizo communities associated with deforestation and agrobiodiversity loss in Ucayali, Peruvian Amazon. Less diversified diets, loss of forest cover and reduced agricultural biodiversity go together, somehow.
- Evaluation of Wild Potato Germplasm for Tuber Starch Content and Nitrogen Utilization Efficiency. Wild species are better on both counts.
- Conservation protocols for Ensete glaucum, a crop wild relative of banana, using plant tissue culture and cryopreservation techniques on seeds and zygotic embryos. 2 accessions thus conserved at NBPGR.
- Computational models to improve surveillance for cassava brown streak disease and minimize yield loss. Fancy maths shows that planting clean material helps a lot.
- Genome wide association analysis of a stemborer egg induced “call-for-help” defence trait in maize. “…egg-induced parasitoid attraction trait was more common in landraces than in improved inbred lines and hybrids.”
- Low Additive Genetic Variation in a Trait Under Selection in Domesticated Rice. That would be root growth under drought and Al stress conditions. Every accession has a different set of low frequency causal alleles.