- Jeremy continues to dig deep into biofortification, and is not happy with what he finds out about iron-rich beans.
- Maybe he’ll donate to one of CIFOR-ICRAF’s nutrition-flavoured tree projects instead.
- Don’t worry, maybe lablab can be biofortified now that we have its genome.
- Speaking of trees, if you want to plant one in a particular botanic garden or arboretum, is it likely to thrive, now and in the future? Find out using the BGCI Climate Assessment Tool.
- Speaking of botanic gardens and arboreta, here are some resources on how they manage their tree collections.
- Prof. Alberto Grandi debunks the many myths of Italian cuisine.
- Christine Gatwiri doesn’t think maize can be replaced in Kenyan cuisine. I just hope it can be replaced in Italian cuisine.
- Will gene-edited teff finds its way into Ethiopian cuisine? And would it be a bad thing if it did? It depends on being open about it I guess…
- … so let’s remind ourselves of some ways plant breeding can usefully engage with the public, shall we?
- And let’s also remind ourselves that plant breeding is necessary, for example to protect our food supply against diseases. The Guardian has receipts.
- Prof. Glenn Denning doubles down on the whole better-maize-seeds-plus-fertilizer thing in Africa, but adds some greenery. In more senses than one. So yes, trees are allowed. And maybe even lablab and teff for all I know. Incidentally, the above gene-edited teff is shorter than “normal”, which could mean it might respond to more fertilizer in the same way as those Green Revolution wheats and rices once did.
- Ah yes, the “transformation” and “revolution” tropes are definitely all over the discourse on African agriculture these days. According to this article, what transformation and revolution will require are consistent planning, political backing, a fit-for-purpose lead organization and that perennial favourite, result-oriented implementation. No word here on greenery specifically, but at least it’s not ruled out.
- And to back all that up, CGIAR gets The Economist Impact to say that more funding is needed for agricultural research and innovation. Results-oriented, naturally.
- Meanwhile, in Suriname, Bangladesh and Guinea-Bissau, local people are saving their traditional seeds and agricultural practices. The revolution will eat its own (seeds).
- Phew, the Ukrainian seed collection is squared away. Now for Suriname, Bangladesh, Guinea-Bissau…
Nibbles: Calabrian citron, Cherokee seeds, Indigenous food systems & community seed bank in India, NZ apple diversity, Climate funding for food
- Calabrians are growing citrons under solar panels to protect them from the heat.
- The Church of the Good Shepherd in Decatur, Alabama is growing seeds from the Cherokee Nation Seed Bank in its gardens, and that’s a sort of homecoming.
- The Indigenous agrobiodiversity and food systems of Meghalaya in India’s NE are helping local people cope with extreme climatic conditions.
- Elsewhere in India, there are community seed banks to help with resilience.
- And in New Zealand, the Volco Park Cultivar Preservation Orchard is helping academics teach about crop diversity.
- Meanwhile, only 3% of climate funding is going into food systems.
Brainfood: Pollinator evolution, Pollinator diversity, Livestock, Yak milk consumption, Poultry in situ conservation, Soil stress, Self-domestication, Natural history collections
- The expansion of agriculture has shaped the recent evolutionary history of a specialized squash pollinator. The genetic diversity of an insect crop pollinator has been affected by the fact that it pollinates a crop.
- Native pollinators improve the quality and market value of common bean. The diversity of native insect crop pollinators affects the value of the crop they pollinate.
- A global approach for natural history museum collections. Basically amounts to “ask curators what they have.” Including presumably specimens of insect pollinators. We’ve been doing this for PGRFA for quite a while now, one way or another. Back to mainly plants next week, hopefully, but let’s keep going with animals for now, and let’s see what more we can learn.
- A 12% switch from monogastric to ruminant livestock production can reduce emissions and boost crop production for 525 million people. Ruminants are not all bad after all.
- Permafrost preservation reveals proteomic evidence for yak milk consumption in the 13th century. The Mongols thought this particular ruminant was just great.
- The self-management organization as a way for the in situ conservation of native poultry genetic resources. In response to the promotion of exotic commercial poultry breeds, women’s groups in Mexico have got together and developed rules to protect native hens. Please let not these be among the 12% of monogastrics that get replaced by yaks.
- Increasing the number of stressors reduces soil ecosystem services worldwide. It’s the number of different stressors, more than their aggregate strength, that most affects how badly soils are stressed. Goes for me too, to be honest.
- Elephants as an animal model for self-domestication. I’ll believe it when elephants domesticate yaks.
Brainfood: 100 plant science questions, Biodiversity data, Cropland expansion double, CC & yields, Crop diversity & stability, Nutritious crops double, Feminist markets
- One hundred important questions facing plant science: an international perspective. How do we leverage existing genetic diversity to create climate-resilient crops? is only number 3 you say? I’ll take it. And in fact that broad question gets deconstructed in questions 36-71. Now, let’s see how today’s haul of papers relates to that, shall we?
- A strategy for the next decade to address data deficiency in neglected biodiversity. Well, yeah, easy one, clearly you need data to conserve the crop wild relatives that could help you breed those climate-resilient crops.
- Post-2020 biodiversity framework challenged by cropland expansion in protected areas. Apart from anything else, that data would tell you which CWR in protected areas are threatened with cropland expansion, and said CWR could help you with breeding crops that could limit cropland expansion by increasing production on existing cropland. Could, could, could…
- Global Maps of Agricultural Expansion Potential at a 300 m Resolution. That cropland expansion might do less damage in some places than others. Still with me?
- Increased probability of hot and dry weather extremes during the growing season threatens global crop yields. Right, that’s why those CWR might come in useful. Assuming you can still find them with all that cropland expansion.
- Divergent impacts of crop diversity on caloric and economic yield stability. At the state level within the USA, crop species diversity is positively associated with yield stability when yield is measured in $ but negatively when measured in calories. Now do it for genetic diversity.
- Role of staple cereals in human nutrition: Separating the wheat from the chaff in the infodemics age. The benefits of those climate-resilient, more nutritious crops need to be better communicated.
- Simple solutions for complex problems? What is missing in agriculture for nutrition interventions. What does nutritious mean anyway?
- “Whose demand?” The co-construction of markets, demand and gender in development-oriented crop breeding. Who is it that wants those climate-resilient, nutritious crops anyway?
- Take-home message: leveraging existing genetic diversity to create climate-resilient crops might be the easy part.
Brainfood: Traits & environment, Acacia growth, Local extinction risk, Lebanese CWR priorities, Malawi CWR payments, Bread wheat origins, Wild lettuce, Ethiopian forages, Editing forages
- Why can’t we predict traits from the environment? Because plants are not collections of independent, isolated traits. All the more reason to study, understand and protect wild plants of economic importance, as the following papers show.
- Differential climatic conditions drive growth of Acacia tortilis tree in its range edges in Africa and Asia. Case in point of the above. Makes germplasm evaluation really hard.
- Understanding local plant extinctions before it is too late: bridging evolutionary genomics with global ecology. Modelling based on the genomic offset (GO) method and the mutations–area relationship (MAR) can help better predict the risk of extinction of different populations.
- Crop wild relatives in Lebanon: mapping the distribution of Poaceae and Fabaceae priority taxa for conservation planning. Bekaa and Baalbak have the highest diversity and the SW the most gaps.
- Community-Level Incentive Mechanisms for the Conservation of Crop Wild Relatives: A Malawi Case Study. Paying communities to conserve crop wild relatives could work and be relatively cheap. Waiting to see this being applied in the Bekaa.
- Population genomics unravels the Holocene history of bread wheat and its relatives. Yeah but crop wild relatives really held back bread wheat domestication. So maybe the Bekaa owes everyone else.
- New insights gained from collections of wild Lactuca relatives in the gene bank of the Institute of Evolution, University of Haifa. Maybe they can gain an insight into how to make lettuce taste of something. And I wonder what environmental variable that will be associated with.
- Climate change and land-use change impacts on future availability of forage grass species for Ethiopian dairy systems. Two forages will do better under climate change, one worse. Assuming a lot of stuff.
- Application of CRISPR/Cas9 technology in forages. But plants are not collections of independent, isolated traits, right?