- Saleseforce is funding work by CIFOR-ICRAF to help diversify agriculture in the Brazilian state of ParĂ¡ by growing more nutritious fruit trees in agroforestry systems.
- USDA researchers are breeding sweet potatoes that are better able to deal with weeds. No word on how they do in agroforestry systems.
- I wonder if those weed-resistant sweet potatoes would find a market in Egypt.
- Beer “giant” Carlsberg says it’s going all-in on regenerative barley growing practices. Looking forward to seeing hops agroforestry systems.
- The British Society for Plant Pathology has a series of really engaging Plant Pandemic Studies, including for some crops that do well in agroforestry systems.
- The Dawn of Everything, by David Graeber and David Wengrow, is getting a lot of attention, including for its thesis that agriculture began in the Fertile Crescent as somewhat ad hoc, experimental, diverging, complementary and interacting lowland and highland agroforestry systems, and did not always lead to inequality and hierarchy. With a nice map.
- And finally, here’s a report from Allianz on why the financial sector should care about biodiversity-friendly agricultural systems (pace David Wood), like maybe, but not only, agroforestry.
Nibbles: CGIAR impacts, Innovative varieties, Sweet potato in PNG, Mexican food viz, Mango diversity, Lactase persistence, Tree planting, Indigenous sea gardens
- Average returns on agricultural R&D investment is 100%, says CGIAR.
- I wonder how many from this list of the most innovative plant varieties of 2020 can trace back to some CGIAR product. Or genebank.
- Which sweet potato varieties do consumers actually like in PNG?
- Cool visualizations of the relationships between Mexican crops and foods.
- One village, 100 mangoes. Visualize that.
- Don’t blame high food prices on war. Entirely, anyway.
- Lactase persistence is not due to the benefits of drinking milk. Entirely, anyway.
- A whole bunch of tools to help select trees to plant in Europe. The entirely correct URL for the climate matching tool is this one though.
- Why worry about any of that when you can have sea gardens, though?
Brainfood: Wild scarlet runner beans, Wild coffee, Mexican vanilla, Hybrid barley, Zea genus, Wild maize gene, N-fixing xylem microbiota, Drone phenotyping, Wild tomato, Potato breeding, Wild potato, Wheat evaluation, Rice breeding returns
- The genomic signature of wild-to-crop introgression during the domestication of scarlet runner bean (Phaseolus coccineus L.). The wild Mexican genepool is helping to counteract the effects of the domestication bottleneck.
- Genetic variation in wild and cultivated Arabica coffee (Coffea arabica L.): Evolutionary origin, global distribution, and its effect on fungal disease incidence in Southwest Ethiopia. Domesticated disease-resistant cultivars are threatening the genetic integrity of the wild genepool. You win some, you lose some.
- Uncovering haplotype diversity in cultivated Mexican vanilla species. Plenty of evidence of past hybridization events in cultivated vanilla in Mexico. Maybe it can swap stories with scarlet runner bean.
- Six-rowed wild-growing barleys are hybrids of diverse origins. In the case of barley, the wild-cultivated hybrids even got a separate Latin binomial.
- Portrait of a genus: genome sequencing reveals evidence of adaptive variation in Zea. Lots of variation in interesting adaptive traits in the wild relatives of maize. Did they, or will they, make their way into the crop, I wonder?
- An adaptive teosinte mexicana introgression modulates phosphatidylcholine levels and is associated with maize flowering time. This one did.
- A highly conserved core bacterial microbiota with nitrogen-fixation capacity inhabits the xylem sap in maize plants. Its wild relatives are not the only wild organisms maize benefits from.
- Phenomic data-facilitated rust and senescence prediction in maize using machine learning algorithms. Drones and fancy maths can be used to predict and document southern rust infection in maize. Maybe in wild relatives too one day, who knows.
- A Solanum lycopersicoides reference genome facilitates insights into tomato specialized metabolism and immunity. A tomato wild relative has a gene for resistance to bacterial speck disease, so of course they had to sequence its genome.
- Genetic gains in potato breeding as measured by field testing of cultivars released during the last 200 years in the Nordic Region of Europe. Genetic gains for yield (measured in non-target environments) were not that great and contributed about half of productivity gains. Results for other traits were even worse, mainly because of stringent market demands. So no chance of using wild relatives I suppose.
- Genotypic Response and Selection of Potato Germplasm Under Heat Stress. Not so fast…
- Dataset of historic and modern bread and durum wheat cultivar performance under conventional and reduced tillage with full and reduced irrigation. I wonder to what extent wild relatives contributed to the differences.
- Assessing returns to research investments in rice varietal development: Evidence from the Philippines and Bangladesh. Net returns from collaboration in rice breeding between IRRI and national partners are still strong in the Philippines and Bangladesh, but declining, and faster in the former than the latter. Plenty of genes from wild relatives in IRRI lines of course. Maybe there could be more?
Nibbles: Animal genebanks, Wild pigeon, Uganda genebank, Biodiversity value, W African cooking, Indigenous cafes, Climate crisis & food, Reforestation
- FAO webinar series on animal genebanks.
- Quick put this wild pigeon in a genebank before it’s too late. No, really.
- Yeah but how much is a wild pigeon worth?
- Maybe if you could cook it, it might be worth more? No, really, I’m serious.
- Would be terrible to have a wild pigeon shortage.
- In fact, we need to be able to re-pigeon.
Brainfood: Landrace gaps, Musa gaps, Teff use, Wheat evolution, NUS services, Phenotyping, Harappan residues, Food trade
- State of ex situ conservation of landrace groups of 25 major crops. Two thirds done, on average, at least by this measure, with these data.
- Phylogeography and conservation gaps of Musa balbisiana Colla genetic diversity revealed by microsatellite markers. But of course there are always other ways of doing it.
- Value of teff (Eragrostis tef) genetic resources to support breeding for conventional and smallholder farming: a review. An example of why doing the above for all crops is important.
- Evolution and origin of bread wheat. Another example. But the B genome remains elusive.
- Diversity and Diversification: Ecosystem Services Derived From Underutilized Crops and Their Co-benefits for Sustainable Agricultural Landscapes and Resilient Food Systems in Africa. So many services. And yet…
- Crop phenotyping in a context of global change: What to measure and how to do it. So many toys.
- Integrating Lipid and Starch Grain Analyses From Pottery Vessels to Explore Prehistoric Foodways in Northern Gujarat, India. And more toys. They made biodiverse stews in the Indus Valley Civilization.
- International food trade benefits biodiversity and food security in low-income countries. Low-income, very biodiverse countries are importing more food, which is somehow good for biodiversity. No word on its effect on agrobiodiversity.