- 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.
Nibbles: Robert Chambers, Zero Hunger, China genebank, Spanish bacteria, Harnessing diversity
- There’s a celebration of the thinking of Robert Chambers over at IDS Bulletin. He’s been advocating for participation in development and the importance of Indigenous knowledge, among other things, for 50 years.
- The Center on Global Food and Agriculture has a report out called “Defining the Path to Zero Hunger in an Equitable World” which basically tries to add humanitarian assistance to the old food-climate-biodiversity nexus. Crop diversity is nowhere to be found among the “catalyzing ideas,” but one of those is investing in “force multipliers,” and that includes agricultural research and development. Participatory agricultural research and development, presumably?
- Meanwhile, China has collected 124,000 crop diversity samples.
- And a Spanish microbiologist has collected 3,600 bacteria.
- The PNAS Special feature: Harnessing crop diversity, organized by Susan McCouch, Loren Rieseberg and Pamela Ronald, got a nice write-up in the latest Plant Science Research Weekly. But what would Robert Chambers say? Anyway, should I do a special Brainfood on it? Let me know in the comments, as the cool kids say.
The cost of tomatoes
I don’t know whether the article in The Media Line ((Strap line: Trusted Mideast News.)) a few days ago entitled “Israeli Scientists Develop Drought-Resistant Tomatoes in Response to Climate Change” was based on a press release. But if it wasn’t, it’s a pretty good catch, given the paper on which it is based is called “Epistatic QTLs for yield heterosis in tomato.” ((It’s part of the PNAS Special Feature: Harnessing Crop Diversity.))
Anyway, what the authors of the paper did was cross a wild tomato with a cultivated one, which conjured up about 1,500 different progenies, each with a different bit of wild genome. They then figured out which of those bits of genome were good at allowing their possessor to grow well with less water than normal.
According to our Trusted Mideast News source:
The study found that two specific areas in the plant’s genome lead to a 20%-50% increase in the overall yield in both regular and dry conditions. The overall size of the plant also was improved.
According to the researchers, the findings demonstrate the effectiveness of using wild species to enhance agricultural output. They could also prove to be widely applicable to other plants in the future.
Which got me thinking. Effective, sure. But how long did it take? Digging a little deeper revealed that the work relied on a genome of the wild tomato Solanum pennellii that was published in 2017. But that’s not where it all started:
…we sequenced and assembled the accession LA5240 (LYC1722) of the wild tomato species Solanum pennellii, an accession that was identified spuriously. Unlike the Solanum pennellii accession LA0716, for which we have previously generated a high quality draft genome, the accession LA5240 does not appear to exhibit any dwarfed, necrotic leaf phenotype when introgressed into modern tomato cultivars.
And that LA0716 was sequenced in 2014.
So our new climate-change-proof tomato was almost 10 years in the making and relied on a “spuriously” identified accession. Well done and all, but gosh, I hope the next one is easier.
Oh, and here’s a nice detail to close. The LA in LA5204? It stands for “Lost Accession.” What’s the story there, I wonder?
Nibbles: Wild tomatoes, Ghana genebank, India livestock census, USDA coffee breeding, Native Americans & their horses
- It’s pretty rare to have a mainstream media piece on the use of crop wild relatives for climate change adaptation but here we have an example with tomato, so make the most of it. There’s an interesting wrinkle though, so more to come, time permitting.
- It’s even rarer to see a mainstream media piece on genebank staff getting trained. What’s going on out there?
- Not exactly mainstream media, but how many times have you seen an official government press release on its livestock censuses? Anyway, India’s last one was carried out in 2019 and covered 184 breeds of 16 species. Wonder where the data is.
- Speaking of government press releases, here’s one from USDA announcing that it has joined a coffee breeding network. Well, I for one think it’s important.
- And staying in the USA, you know how you read in mainstream textbooks that Native Americans got horses from retreating Spanish colonists after the Pueblo Revolt? And you know how Native Americans have been saying that’s not what they think happened? How rare is it that a scientific paper involving Indigenous authors overturns a mainstream historical narrative and is splashed all over the mainstream media? Very rare, that’s how rare.
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?