- Releasing agriculture from the food security mandate. Research should focus toward sustaining production means and farmer welfare, rather than area productivity.
- Beyond yields: a systems approach is essential for reconciling agriculture and biodiversity. Research should focus toward sustaining production means and farmer welfare, rather than area productivity.
- Underutilized crops for diverse, resilient and healthy agri-food systems: a systematic review of sub-Saharan Africa. Opportunity crops sustain production means and farmer welfare, rather than area productivity.
- Exploring the potentials of neglected underutilized crops (NUCs): an integrative review for developing a sustainable food system model. Opportunity crops sustain production means and farmer welfare, rather than area productivity.
- Prospective of indigenous African wild food plants in alleviation of the severe iron deficiency anaemia in Sub-Saharan Africa. Some wild food plants can sustain welfare.
- Nature-based agricultural practices in the Mediterranean agroecosystems: A meta-analysis of their benefits on crop productivity, soil quality, and biodiversity. 15 ways to sustain production means and farmer welfare, and sometimes area productivity.
- The role of Seed Banks in food systems transitions: the case of Portugal. Genebanks could help sustain production means and farmer welfare, and area productivity too.
- Mainstreaming agrobiodiversity in planet-friendly school meals for children: a scoping review. Opportunity crops and wild food plants in school meals could help sustain the welfare of schoolchildren.
- Spatial association between nutrient deficiency and agricultural diversity in India. Agrobiodiversity could help sustain welfare in whole districts actually.
- Grain zinc, iron and protein concentrations of contemporary wheat cultivars fall short of targets for human health. Agrobiodiversity could help sustain welfare but breeders need to use it.
- Nutritional and Biochemical Diversity in Beans Accessions from Three Phaseolus Species Using Multiomics Characterization. Agrobiodiversity could definitely help sustain welfare but breeders need to use it.
- Genome-wide association study in a lettuce core collection from 811 accessions reveals genetic loci for anthocyanin accumulation and cultivar development. Agrobiodiversity could definitely help sustain welfare and breeders can use it pretty easily.
Unchaining genebanks
Can the food processing industry contribute to the conservation and sustainable use of agricultural biodiversity? Of course it can. Even in genebanks? Sure, why not. There’s no reason beyond a failure of the imagination to think that genebanks can’t participate directly in the food value chain as innovation partners, supporting sustainable products and market differentiation. Too bad there’s not a ton of examples. A pretty good one is NordGen’s partnerships with the food company Oatly. Oatly funded trials of more than 800 oat accessions, generating phenotypic and genomic data that identified traits valuable for taste and processing. The collaboration provided industry with suitable varieties while enriching NordGen’s documentation of its collection. This and a few — too few — other examples can be found in From seed to shelf: Models for integrating agrobiodiversity in food processing activities, from FAO and the Plant Treaty. I hope one day soon the coffee industry wakes up and smell the genebanks.
Brainfood: History edition
- Phylogenetics and evolution of Digitaria grasses, including cereal crops fonio, raishan and Polish millet. The history of wild Digitaria goes back 2–6 million years.
- Biogeography of Crop Progenitors and Wild Plant Resources in the Terminal Pleistocene and Early Holocene of West Asia, 14.7–8.3 ka. This is what the distribution of crop wild relatives looked like in West Asia 10 thousand years ago or thereabouts. No Digitaria, but plenty of other stuff.
- Ancient use and long-distance transport of the Four Corners Potato (Solanum jamesii) across the Colorado Plateau: Implications for early stages of domestication. At roughly the same time, a couple continents and an ocean over, a local potato species was being processed outside its rage. Was it cultivated? Do the math.
- State formation across cultures and the role of grain, intensive agriculture, taxation and writing. And a few thousand years later, there were domesticated grains, states, and taxes. In that order. Do the math.
- The Archaeology of Olive Oil Production in Roman and Pre-Roman Italy. Pretty sure the Romans had a state and taxes. They also had domesticated olives.
- Wines of Fire and Earth: Exploring the Volcanic Terroirs of the Canary Islands – a Case Study. No Romans on the Canaries, but plenty of vines.
- Black Death Land Abandonment Drove European Diversity Losses. The Romans and their successors, with their cereals, olives and grapes, were surprisingly good for landscape floristic diversity. The Black Death, not so much.
- The decades-old fantasy of enhancing pigeonpea productivity. Well that’s a bit of a letdown after a 6 million year journey.
- Past, present and future of local crop evolution. That’s because we needed Indigenous people and local communities to show us the way.
These seeds are from the government, and they’re here to help you
In his recent paper in Plant Genetic Resources, Reimagining the Role of National Genebanks: Purposes, Priorities, and Programs, Cary Fowler offers a refreshingly blunt intervention for the world’s national genebanks.
The paper suggests a radical pivot: stop acting like dusty museums and start acting like high-energy dating agencies for seeds. Fowler argues that for many small, underfunded facilities, the traditional “Fort Knox” model of long-term conservation is a trap. If you can’t store seeds properly and you aren’t sharing your stash, you aren’t a guardian: you’re a threat. His solution?
Instead of waiting for breeders to call, who don’t exist anyway for a lot of “minor” crops, genebanks should be putting diversity directly into the hands of farmers. Fowler invokes the “inventive art” of 19th-century American agriculture, where the government functioned like a giant postal seed-swapping club. He envisions modern genebanks acquiring diversity, screening it, and sending out cleverly selected landraces and cultivars for farmers to try out in their own fields.
It’s a bold call to move from the passive “save it for a rainy day” mentality to an active “let’s see what grows in the rain” strategy. The future of diversity isn’t just in the freezer; it’s in the mail, at least for many underfunded national genebanks and so-called “opportunity crops.” Brave new world. But it does all assume the rest of the system is functioning — and is funded — properly…
Brainfood: Restoration edition
- Addressing critiques refines global estimates of reforestation potential for climate change mitigation. Better mapping shows there is less land available for reforestation than we thought, and there are limited opportunities for providing multiple benefits. Still, that’s an area the size of Mexico, and worth trying to get it right.
- Genomic approaches to accelerate American chestnut restoration. The American chestnut people seem to be getting it right.
- A native seed bank is restoring land in Canada’s north. Native people — and their genebanks — can help you get it right.
- Controlled Pollination and Reproductive Strategies in Coconut: A Framework for Farmer-Led Breeding, Seednut Production, and In Situ Conservation. Farmers can be helped to get it right.
- Dehulling the secret of the germination of crop wild relatives of Cenchrus, Digitaria, Echinochloa, Setaria and Urochloa. You need information on germination breaking to get it right. In the US Midwest, for example.
- How can Brazilian legislation on native seeds advance based on good practices of restoration in other countries? Not to mention the right policies.