- Climate change and nutrition-associated diseases. Climate change is going to be bad for human health. To help us cope with the heavier burden of disease, crops will need to be able to cope better with pests and diseases themselves…
- Genome-wide association study of cassava brown streak disease resistance in cassava germplasm conserved in South America. …and studying genebank collections will help us help them do just that…
- Candidate genes for field resistance to cassava brown streak disease revealed through the analysis of multiple data sources. …though that’s only the first step…
- Comparing fresh root yield and quality of certified and farmer-saved cassava seed. …to getting quality seeds into farmers’ fields.
- Breeding for resistance to bacterial wilt in Solanaceae crops: lessons learned and ways forward for Gboma eggplant (Solanum macrocarpon L.), a traditional African vegetable. You’ll want some disease-resistant vegetables to go with your disease-resistant cassava. And for that you need to understand genetic variation in both the crops and their pests.
- The influence of genetic variation on pre-oviposition processes for host-parasitoid co-evolution. And indeed in the enemies of the pests.
- Breeding and genetics of resistance to major diseases in Cucurbita—A review. Pumpkin and squash have plenty of pests and diseases, but also diversity.
- The Rediscovery of ‘Donaldson’ Sweet Orange, a Variety That Has Potential for Use in Orange Juice. Rummaging through that diversity can take time, but (s)he that seeketh findeth. And the game is worth the candle.
- Resumption of chestnut cultivation in Lombardy: starting from native genetic resources. Worth it indeed.
Brainfood: QMS, Seed viability, Genotyping, Taxonomy, FAIR data, Evaluation data, Lentil data, Indian cryobank, Home genebank, Dry chain, Botanical gardens, Environmental monitoring, Bending the curve
- Quality management in a genebank environment: Principles and experiences at the Centre for Genetic Resources, The Netherlands (CGN). Do we need a certification system for genebanks? We do have the means to put one together.
- A pragmatic protocol for seed viability monitoring in ex situ plant genebanks. But will genebank certification allow much-needed flexibility?
- Genotyping Genebank Collections: Strategic Approaches and Considerations for Optimal Collection Management. Or will it make everyone genotype everything?
- Assigning Species Names to Ambiguous Populations in the US Potato Genebank. Oh, you want an example of why everyone should genotype everything?
- The FLAIR-GG federated network of FAIR germplasm data resources. For sure it should require data to be FAIR.
- The EURISCO-EVA Information System, an innovative approach to the data management of multi-site crop evaluation data. Even evaluation data, though? That usually comes from genebank partners, not the genebanks themselves. Wouldn’t that be a problem?
- A case study on lentil to demonstrate the value of using historic data stored in genebanks to guide the selection of resources for research and development projects. Oh, you want an example why evaluation data should be included in (or linked to) genebank documentation systems?
- Indian cryogenebank conserving diverse plant genetic resources for the last three decades: Achievements and way forward. Is it certified, though?
- Share a Tiny Space of Your Freezer to Preserve Seed Diversity. Meanwhile, at the other end of the technology continuum…
- Applications of dry chain technology to maintain high seed viability in tropical climates. If your freezer is in the tropics, think about handling your seeds this way. And maybe you’ll get certified :)
- Insights from a century of data reveal global trends in ex situ living plant collections. Maybe botanic gardens should be certified too, presumably. Would it have made a difference? Actually, now I think of it, does this mean the system as a whole needs to be certified? Anyway, good thing the data were FAIRish.
- A framework for long-term environmental monitoring using living plant collections in botanic gardens: A global review and case study from Trinity College Botanic Garden. Another example of the benefits of FAIR evaluation data. And of botanical gardens.
- Sustainable high-yield farming is essential for bending the curve of biodiversity loss. And genebanks (and maybe botanical gardens too, why not?) are essential for sustainable high-yield farming. Certify that.
Brainfood: Micronutrients, Healthy Diet Basket, Meat alternatives, Chickpea polyphenols, African yam bean breeding, CC and nutrition, Biofortification, Mali diet diversity, Myanmar & Malawi agroforestry, African indigenous vegetables, Indian fruits
- Global estimation of dietary micronutrient inadequacies: a modelling analysis. Maybe 5 billion people don’t get enough micronutrients from their diets, absent fortification and supplementation.
- Global analysis reveals persistent shortfalls and regional differences in availability of foods needed for health. There’s enough food in the world, but not enough healthy foods. Those 5 billion people would probably agree.
- A multicriteria analysis of meat and milk alternatives from nutritional, health, environmental, and cost perspectives. Pulses would seem to be a good bet as healthy foods.
- Spanish chickpea gene-bank seeds (Cicer arietinum L.) offer an enhanced nutritional quality and polyphenol profile compared with commercial cultivars. Yeah, but some pulses are better than others.
- Selection criteria and yield stability in a large collection of African yam bean [Sphenostylis stenocarpa (Hochst ex. A. Rich) Harms] accessions. Wait, abut about the nutritional content?
- Climate change and nutrition-associated diseases. We’re going to need a lot more healthy foods. I vote for African yam bean.
- Biofortification: Future Challenges for a Newly Emerging Technology to Improve Nutrition Security Sustainably. Biofortification is still not delivering enough more healthy foods. Will it ever? Jeremy available for comment.
- Do diverse crops or diverse market purchases matter more for women’s diet quality in farm households of Mali? Do both, of course. Jeremy nods sagely.
- The nexus between agroforestry landscapes and dietary diversity: insights from Myanmar’s Central Dry Zone. Do agroforestry too, while you’re at it.
- Trees on farms improve dietary quality in rural Malawi. No, really, agroforestry works.
- The effects of market-oriented farming on living standards, nutrition, and informal sharing arrangements of smallholder farmers: the case of African indigenous vegetables in Kenya. Well, at least incomes went up.
- Unveiling the bountiful treasures of India’s fruit genetic resources. Plenty of scope for putting more healthy foods on tables. Or more income in pockets. Who knows, with any luck, maybe both? But don’t forget the pulses and vegetables too.
Brainfood: Maroon rice, Dutch aroids, Sicilian saffron, Inca agriculture, Native American agriculture, Mexican peppers, Afro-Mexican agriculture, Sahelian landraces, Small-scale fisheries, Coconut remote sensing
- The Mystery of Black Rice: Food, Medicinal, and Spiritual Uses of Oryza glaberrima by Maroon Communities in Suriname and French Guiana. There’s a rich oral history of African rice in Maroon communities, but that doesn’t mean either the traditional knowledge or diversity of the crop is safe.
- The Invisible Tropical Tuber Crop: Edible Aroids (Araceae) Sold as “Tajer” in the Netherlands. Another example of traditional knowledge on crops surviving far from their home.
- Rethinking Pliny’s “Sicilian Crocus”: Ecophysiology, Environment, and Classical Texts. There might have been two distinct saffron species in ancient Sicily. Another way of recovering traditional knowledge is by reading ancient texts.
- Trees, terraces and llamas: Resilient watershed management and sustainable agriculture the Inca way. The sedimentary record can be used to recover traditional knowledge too. No word on what ancient text have to say, but I’m sure it’s something.
- Yield, growth, and labor demands of growing maize, beans, and squash in monoculture versus the Three Sisters. Sometimes traditional knowledge can use a helping hand from scientists. And vice versa.
- Interdisciplinary insights into the cultural and chronological context of chili pepper (Capsicum annuum var. annuum L.) domestication in Mexico. About the only thing that’s missing here is traditional knowledge.
- Afro-Indigenous harvests: Cultivating participatory agroecologies in Guerrero, Mexico.
Makes one wish these authors had been involved in the pepper study above. - Tradeoffs between the use of improved varieties and agrobiodiversity conservation in the Sahel. The effect of improved varieties on local landraces (and presumably associated traditional knowledge) is different for pearl millet and groundnut, and for Mali and Niger.
- Illuminating the multidimensional contributions of small-scale fisheries. I’m sure lots of traditional knowledge is involved.
- Satellite imagery reveals widespread coconut plantations on Pacific atolls. They could have just asked the small-scale fisherfolk, but ok.
Brainfood: Diversity patterns double, Diversification drivers, Polish genetic erosion, Tibetan naked barley diversity, Indian sorghum diversity, Do novo domestication, Eggplant tree, Banana diversity, Pearl millet diversity, Pigeon pea genome, Grasspea genome, Jersey bull diversity
- Floristic classifications and bioregionalizations are not predictors of intra-specific evolutionary patterns. You can’t use spatial structures in interspecific diversity to predict spatial structure in instraspecific diversity. Gotta do the hard work, there are no shortcuts.
- Intraspecific trait variability in wild plant populations predicts neither variability nor performance in a common garden. You can’t use intraspecific diversity in wild populations to predict how those populations will do elsewhere. Gotta do the hard work, there are no shortcuts.
- Farming for the future: Understanding factors enabling the adoption of diversified farming systems. Access to extension services, strong social networks, and perceived environmental benefits contribute to the diversification of farming systems, but their effects are context-specific. So yeah, you guessed it, you still gotta do the hard work.
- Changes in Plant Genetic Resources in the Southeast Region of Poland from the 1980s to 2023. I wonder which one(s) of the above has been missing in the Lubelskie Voivodeship.
- Abundant Genetic Diversity Harbored by Traditional Naked Barley Varieties on Tibetan Plateau: Implications in Their Effective Conservation and Utilization. I wonder which one(s) of the above has been most effective in the Tibetan Plateau.
- Genetic diversity in in situ and ex situ collections of sorghum [Sorghum bicolor (L.) Moench] landraces. I wonder which one(s) of the above has been most effective in norther Karnataka.
- Enhancing food security amid climate change through rewilding and de novo domestication. Sounds like hard work. But worth doing.
- Characteristics of the ET, a new species created by interspecific hybridization of two wild eggplants. Sounds like hard work. But worth doing?
- Painting the diversity of a world’s favorite fruit: A next generation catalog of cultivated bananas. Chromosome painting, that is. Definitely worth doing.
- Delineation of selection efficiency and coincidence of multi-trait-based models in a global germplasm collection of pearl millet for a comprehensive assessment of stability and high performing genotypes. Stable AND high-yielding? Sounds like the hard work has been done.
- Chromosome-scale reference genome of an ancient landrace: unveiling the genetic basis of seed weight in the food legume crop pigeonpea (Cajanus cajan). Now for the hard work…
- A chromosome-scale reference genome of grasspea (Lathyrus sativus). Now for the even harder work…
- Assessment of genetic diversity, inbreeding, and collection completeness of Jersey bulls in the US National Animal Germplasm Program. I suspect it will be hard work, but don’t forget the low merit bulls. And that probably goes for plants too.