- Three Decades of Safeguarding and Promoting Use of Agricultural Biodiversity: Changing Global Perspectives, Paradigm Shifts and Implications. The priorities of Bioversity and the Japanese government have changed over time, but miraculously stayed reasonably well aligned.
- A focused ethnographic study on the role of health and sustainability in food choice decisions. Americans pick food items mainly on the basis of price, health, taste, and convenience. Environmental impact, not so much, alas.
- Wild relatives of potato may bolster its adaptation to new niches under future climate scenarios. Some wild potato species have unique climate adaptations that we’re going to need.
- Cold Hardiness Variation in Solanum jamesii and Solanum kurtzianum Tubers. Case in point.
- Assessment of Wild Solanum Species for Resistance to Phytophthora infestans (Mont.) de Bary in the Toluca Valley, Mexico. And not just climate adaptation.
- Screening South American potato landraces and potato wild relatives for novel sources of late blight resistance. Case in point.
- The pace of modern life, revisited. A big database on how the phenotypes of wild species like the above are changing, and why.
- Insights into the genetic diversity of an underutilized Indian legume, Vigna stipulacea (Lam.) Kuntz., using morphological traits and microsatellite markers. 94 accessions, 12 with promise for different traits, in 7 genetic groups. Let the really efficient breeding commence.
- Whole genome resequencing data enables a targeted SNP panel for conservation and aquaculture of Oreochromis cichlid fishes. The breeding has already commenced between different tilapias, but don’t worry, we can now tell species apart.
- A framework for defining livestock ecotypes based on ecological modelling and exploring genomic environmental adaptation: the example of Ethiopian village chicken. 25 populations, but only 12 ecotypes, based on 6 climate variables. Basically the same methodology as the wild potato paper above but applied to genetic groupings. Who will apply it to tilapias now, or indeed that “minor” Vigna?
- VarGoats project: a dataset of 1159 whole-genome sequences to dissect Capra hircus global diversity. Distinct African, Asian and European genetic groups. Well I never.
- Are Tree Seed Systems for Forest Landscape Restoration Fit for Purpose? An Analysis of Four Asian Countries. Take a wild guess. The key is apparently focusing less on planting lots of trees and more on making sure the resulting forests are resilient.
- Smart, Commodified and Encoded: Blockchain Technology for Environmental Sustainability and Nature Conservation. Not quite ready to help grow those resilient forests.
Brainfood: Genebanks, Covid, Sustainable intensification, Anthropocene, Biodiversity value, Cropland expansion, Better diet, Biodiversity indicators, Climate change impact, Soil fertility, Agroecology & GMOs
- Global assessment of the impacts of COVID-19 on food security. Resilience, but at a cost.
- Avenues for improving farming sustainability assessment with upgraded tools, sustainability framing and indicators. A review. How to measure an important aspect of the above-mentioned resilience.
- Envisaging an Effective Global Long-Term Agrobiodiversity Conservation System That Promotes and Facilitates Use. To effectively guarantee the resilience of farmers and the food system, genebank accessions for likely future use need to be distinguished dynamically from those for immediate use on the basis of the best available data, and then managed differently.
- Widespread homogenization of plant communities in the Anthropocene. Naturalization of phylogenetically diverse exotic plants from Australia, the Pacific and Europe is leading to a more homogeneous world flora. Much the same could be said of diets, come to think of it, except maybe for the geographic source of the plants, which is interesting in itself.
- Identifying science-policy consensus regions of high biodiversity value and institutional recognition. And less than a third of the bits of the Earth that everyone thinks are important in terms of biodiversity are protected, including from the above exotics.
- Global maps of cropland extent and change show accelerated cropland expansion in the twenty-first century. There was a 9% increase in cropland area in 2003-2019, mainly in Africa and South America, half of it replacing natural vegetation.
- Include biodiversity representation indicators in area-based conservation targets. Needed because of the above exotic invasives and cropland expansion, among other things.
- Climate impacts on global agriculture emerge earlier in new generation of climate and crop models. Those new cropland areas will soon be in trouble. Unless genebanks and plant breeding, I guess.
- Can agroecology and CRISPR mix? The politics of complementarity and moving toward technology sovereignty. Could that cropland grow gene-edited crops in an agroecological setting? Yes, but that will require recognizing that agroecology is not a setting.
- Plant biodiversity and the regeneration of soil fertility. Restoring biodiversity restores soil fertility too.
- Small targeted dietary changes can yield substantial gains for human health and the environment. Replace just 10% of meat calories with fruit and veggies for the win-win. Is this the answer to all of the above? Well, maybe, maybe not.
Brainfood: CGIAR, Wheat adoption, Durum erosion, Napier grass diversity, Asian trees, Cannabis origins, Potato genome, Somaclonal variation, Sugarcane collections, On farm beans, Crowd-sourced diets, Banana mapping, Medicinal enset, Vitis diversity
- Viewpoint: Aligning vision and reality in publicly funded agricultural research for development: A case study of CGIAR. Some countries and crops are being short-changed.
- Institutional and farm-level challenges limiting the diffusion of new varieties from public and CGIAR centers: The case of wheat in Morocco. No way either Morocco nor wheat are being short-changed, and yet both micro-level and institutional factors are holding back new varieties there.
- Estimation of genetic erosion on Ethiopian tetraploid wheat landraces using different approaches. No such adoption problems in Ethiopia, it seems.
- Insights Into the Genetic Architecture of Complex Traits in Napier Grass (Cenchrus purpureus) and QTL Regions Governing Forage Biomass Yield, Water Use Efficiency and Feed Quality Traits. Napier grass is clearly not being short-changed. I’m sure my MIL would approve.
- Tropical and subtropical Asia’s valued tree species under threat. Not valued enough, though.
- The origin of the genus Cannabis. If CGIAR decides to work on cannabis, Yunnan would be the place to start getting material from.
- Phased, chromosome-scale genome assemblies of tetraploid potato reveals a complex genome, transcriptome, and predicted proteome landscape underpinning genetic diversity. Clonal propagation and limited meiosis has really short-changed the potato, but this work, which includes CGIAR, will really help breeders get rid of accumulated nasty alleles.
- Somaclonal variation in clonal crops: containing the bad, exploring the good. And then there’s somaclonal variation…
- Sugarcane Genetic Diversity and Major Germplasm Collections. Ripe for the above treatment. Followed by take-over by CGIAR.
- On-farm conservation in Phaseolus lunatus L: an alternative for agricultural biodiversity. On farm conservation must not be short-changed.
- Leveraging Digital Tools and Crowdsourcing Approaches to Generate High-Frequency Data for Diet Quality Monitoring at Population Scale in Rwanda. Younger people get short-changed in their diet; but, surprisingly, women do not.
- UAV-Based Mapping of Banana Land Area for Village-Level Decision-Support in Rwanda. Can’t help thinking we’re being short-changed by not mashing this up with the above somehow.
- The Genetic Diversity of Enset (Ensete ventricosum) Landraces Used in Traditional Medicine Is Similar to the Diversity Found in Non-medicinal Landraces. The title short-changes the casual reader. Medicinal varieties are in fact different from non-medicinal varieties, but do not cluster together. Mapping from space next?
- Phenological diversity in wild and hybrid grapes (Vitis) from the USDA-ARS cold-hardy grape collection. No sign of short-changing grapevine, at least in the US, resulting in some interesting opportunities for its expansion into new areas using wild relatives.
Nibbles: Ginger, Cover crops, Pulses, Campbell Soup, NASA, OWD, Göbekli Tepe, Sydney herbarium, Bourdeix museum, Mezcal folk vocabulary, Mango love, Probiotic ag, Andean ag
- China and Pakistan to collaborate on ginger. Including exchange of germplasm, apparently.
- US doubles down on cover crops…
- …and pulses. No word on ginger.
- How Campbell’s doubled down on tomato breeding. But never released the seeds.
- Mapping farmland changes in Egypt. From space. Still waiting for that genetic erosion early warning system though…
- Our World in Data does global food. Genetic erosion next? Yeah, just dreaming here.
- Cool free book on Plant Food Processing Tools at Early Neolithic Göbekli Tepe.
- Digitizing a million herbarium specimens in Australia. How many crop wild relatives, I wonder?
- A coconut museum, but on Facebook. And a sort of museum of the plants themselves in India
- How to talk about mezcal using all the right words.
- A paean to the mango.
- Agriculture should be more “probiotic.” Mezcal, coconuts and mangoes would probably help.
- It kind of already is in the Andes.
Brainfood: Genetic diversity, Pointy maize, Diversification, Hybrid yeast, African yam bean, Urbanization, Wild tomato ecogeography, Wild banana seeds, Seed systems, Phytosanitary, Rematriation, Cowpea development, ABS
- The crucial role of genome-wide genetic variation in conservation. Don’t fetishise functional variation.
- The Ancient Varieties of Mountain Maize: The Inheritance of the Pointed Character and Its Effect on the Natural Drying Process. Case in point?
- Diversification for enhanced food systems resilience. Do fetishise diversification.
- Restoring fertility in yeast hybrids: Breeding and quantitative genetics of beneficial traits. Well, that’s one way to diversify. Mules next?
- Predictive genotype-phenotype relations using genetic diversity in African yam bean (Sphenostylis stenocarpa (Hochst. ex. A. Rich) Harms). From 93 IITA accessions to a handful of good ones for the fetishes of seed and/or tuber yield.
- Genetic resources management, seed production constraints and trade performance of orphan crops in Southern Africa: A case of Cowpea. Could maybe fetishise cowpea a little more?
- Urbanization and agrobiodiversity: Leveraging a key nexus for sustainable development. What’s the opposite of fetishising? Demonising? Ok, don’t demonise urbanisation then. Gosh I hope I’m using these words correctly…
- Edaphoclimatic Descriptors of Wild Tomato Species (Solanum Sect. Lycopersicon) and Closely Related Species (Solanum Sect. Juglandifolia and Sect. Lycopersicoides) in South America. We may be in danger of fetishising ecogeography.
- Banana seed genetic resources for food security: Status, constraints, and future priorities. Half of banana wild relatives are not in genebanks at all. Not that we want to fetishise crop wild relatives, but that seems a lot.
- Regulating Seeds—A Challenging Task. How do we avoid fetishising neither formal nor informal seed systems?
- The phytosanitary risks posed by seeds for sowing trade networks. The case for robust phytosanitary measures in global forage seed trade networks. No need to fetishise them though.
- The value of agrobiodiversity: an analysis of consumers preference for tomatoes. Consumers fetishise heirloom tomatoes to the tune of an additional €0.90 per kilo.
- Dynamic guardianship of potato landraces by Andean communities and the genebank of the International Potato Center. Communities don’t fetishise rematriated landraces, but that doesn’t matter.
- Facing the Harsh Reality of Access and Benefit Sharing (ABS) Legislation. The dangers of fetishising ABS. Or is it demonising?