- Does it matter who advises farmers? Pest management choices with public and private extension. Yes, at least in Switzerland. Public = prevention, private = cure. Well colour me surprised.
- Ethiopia’s transforming wheat landscape: tracking variety use through DNA fingerprinting. Only 28% of farmers correctly named their wheat varieties, many of which were from CGIAR breeding programmes.
- Analysis of the Similarity between in Silico Ideotypes and Phenotypic Profiles to Support Cultivar Recommendation—A Case Study on Phaseolus vulgaris L. Italian farmers not great at keeping track of new varieties either, but who needs names when you have fancy maths?
- Morphological, Sensorial and Chemical Characterization of Chilli Peppers (Capsicum spp.) from the CATIE Genebank. From 192 accessions to this little beauty from Panama.
- Two divergent chloroplast genome sequence clades captured in the domesticated rice gene pool may have significance for rice production. Rice is from Mars, rice is from two Venuses.
- Identification of Mung Bean in a Smallholder Farming Setting of Coastal South Asia Using Manned Aircraft Photography and Sentinel-2 Images. From 10-m imagery for pity’s sake! Amazing stuff. Soon we’ll be able to distinguish landraces from modern varieties, right? Right?
- Linking biodiversity into national economic accounting. Yikes, biodiversity makes no contribution to agricultural development at all?
- High sink strength prevents photosynthetic down-regulation in cassava grown at elevated CO2 concentration. Could result in higher yields, but effect will vary among varieties.
- Discovery of beneficial haplotypes for complex traits in maize landraces. Landrace diversity for early plant development, robustness and growth form that could be useful in Europe made accessible.
- Understanding the classics: the unifying concepts of transgressive segregation, inbreeding depression and heterosis and their central relevance for crop breeding. It’s the dispersion of favorable alleles between parents.
- Challenges and Prospects for the Conservation of Crop Genetic Resources in Field Genebanks, in In Vitro Collections and/or in Liquid Nitrogen. Everything that can be in cryo should be in cryo, and some things that currently can’t too.
The pangenome is the new genome – Part Deux
1) Today's been a hell of a day for plant #pangenomes.
In https://t.co/FSxNthxoG9 Walkowiak et al analyze up to 16 wheat cultivars to report on the global variation pool accessible to modern breeding pic.twitter.com/xPTtIvEZyC— BContrerasMoreira (@BrunoContrerasM) November 25, 2020
Indeed it was “a hell of a day” (somewhat re-ordered compared to the above tweet thread):
- Multiple wheat genomes reveal global variation in modern breeding. Genomes of 10 cultivars from around the world’s breeding programmes and a few other things added to that of Chinese Spring.
- A haplotype-led approach to increase the precision of wheat breeding. The above and fancy maths used to spot novel, agronomically significant haplotypes in landrace collections. Here’s a Twitter thread from one of the authors with his insights on why the work is important.
- The barley pan-genome reveals the hidden legacy of mutation breeding. Genomes of 20 really diverse barley lines, including a wild relative, used to (among other things) find novel variants in 300 genebank accessions.
- Assessing the regulatory potential of transposable elements using chromatin accessibility profiles of maize transposons. Some transposable elements affect gene expression.
- GreenPhylDB v5: a comparative pangenomic database for plant genomes. Pan-pangenomes, kinda.
LATER: Had completely forgotten I had used that title before :) It’s the zeitgeist for sure. And here’s a nice primer on pangenomes.
LATER STILL: Maybe it’s been a good year for something.
https://twitter.com/PacBio/status/1333429793115803648
Yes, there were lots of pangenomes in 2020:
Nibbles: Climate ready, Commoners, Beer, Banana collecting, Roman food, Indian corn
- Demoing new varieties in Mali.
- Old ways of doing things in the New Forest.
- Nice roundup of beer in ancient history.
- Profile of supercool banana guy Gabriel Sachter-Smith.
- Eat like a Roman.
- Eat like a (multiracial) Southerner.
Brainfood: Covid, Tropical trees, Tree GR, Brazil nut, Fair research, ICARDA, FIGS, Landraces, Evolutionary breeding, Range edges, Central Asia, Mixtures, Taro origins, Nigerian abattoirs, Aquaculture policy
- From biomedical to politico-economic crisis: the food system in times of Covid-19. How to build back better? Food sovereignty, peasant agriculture, territorial markets and agroecology.
- Food for thought: The underutilized potential of tropical tree‐sourced foods for 21st century sustainable food systems. How to realize that potential? Lots of ideas here, including: “Investment in the conservation of tree genetic resources and the development of formal seed delivery systems.”
- Priorities, challenges and opportunities for supplying tree genetic resources. Invest in what bits of conservation and seed delivery systems, though? Read this and find out.
- Genetic threats to the Forest Giants of the Amazon: Habitat degradation effects on the socio‐economically important Brazil nut tree (Bertholletia excelsa). After reading the above, maybe apply to this?
- From texts to enacting practices: defining fair and equitable research principles for plant genetic resources in West Africa. How to make sure everyone understands words the same way? Theater. Of course, darling.
- Safeguarding a global seed heritage from Syria to Svalbard. It took a (global) village.
- Focused Identification of Germplasm Strategy (FIGS): Polishing a rough diamond. Natural selection is not enough. Links both to above and below, but you knew that.
- Göte Turesson’s research legacy to Hereditas: from the ecotype concept in plants to the analysis of landraces’ diversity in crops. “Understanding … landrace diversification assists also on breeding new cultivars sustainably since it provides insights regarding crop evolution across stress-prone environments, and for finding genebank accessions and other germplasm whose allelic diversity may be missing in today’s breeding programs.”
- Yield, yield stability and farmers’ preferences of evolutionary populations of bread wheat: A dynamic solution to climate change. Maybe the problem is with today’s breeding programs?
- What Do We Really Know About Adaptation at Range Edges? Peripherality does not predict degree of adaptation.
- The Central Asiatic region of cultivated plants. 800 species, no less.
- Biodiversity enhances the multitrophic control of arthropod herbivory. Plants lose less biomass to arthropods in mixtures, as compared to monocultures.
- Evolutionary origins of taro (Colocasia esculenta) in Southeast Asia. Not PNG after all, according to chloroplast DNA.
- Abattoirs – A Hidden Centre for Livestock Genetic Resources Loss in Nigeria. Because they slaughter pregnant animals. Did not see that one coming, frankly.
- More than fish: Policy coherence and benefit sharing as necessary conditions for equitable aquaculture development. Regional policies need to be domesticated.
Brainfood: Genebank technology, Genebank research, Apple genomes, Napier genome, Wheat genome, Blue maize, FACE, Pigeonpea diversity, Millet domestication, Ancient dogs, Ancient bovids, Domestication syndrome, Date pollen, Commons, Genetic diversity trifecta
- New technologies to improve the ex situ conservation of plant genetic resources. Genebanks need to catch up with the latest science even just to maintain their seeds.
- Advanced Strategic Research to Promote the Use of Rice Genetic Resources. High-throughput phenotyping and genome sequencing are the latest science that will make the most of those seeds.
- Phased diploid genome assemblies and pan-genomes provide insights into the genetic history of apple domestication. Analysis of genomes of two main wild progenitors plus the crop uncovers genes so far untapped for improvement.
- The elephant grass (Cenchrus purpureus) genome provides insights into anthocyanidin accumulation and fast growth. It’s related to pearl millet, apparently. Which may or may not be a good thing. No word on any genes so far untapped for improvement.
- Triticum population sequencing provides insights into wheat adaptation. Wide adaptation is largely due to introgression from the wild. No word on any genes so far untapped for improvement.
- The Right Tortilla for the Right Occasion: Variation in Consumers’ Willingness to Pay for Blue Maize Tortillas Based on Utilization. Consumers are willing to pay 42% more for blue tortillas, but only when eating out, presumably as part of virtue signalling.
- 30 years of free‐air carbon dioxide enrichment (FACE): What have we learned about future crop productivity and its potential for adaptation? That enrichment wont save us, that’s what.
- Phenotypic Divergence Analysis in Pigeonpea [Cajanus cajan (L.) Millspaugh] Germplasm Accessions. From 81 accessions to 9 promising ones, at least for Malawi.
- A model for the domestication of Panicum miliaceum (common, proso or broomcorn millet) in China. Domestication took 3000 years.
- Origins and genetic legacy of prehistoric dogs. All dogs are descendants of a now extinct wolf population, and their genetics show both interesting parallels with, and divergences from, that of humans.
- Brain Size Does Not Rescue Domestication Syndrome. Not even for humans, I suspect. Kidding apart, this is fascinating. It suggests that, for animals at least, the domestication syndrome is not actually a thing. Or at least has not been properly tested. If there’s interest, I’ll do a full post. Let me know in the comments below.
- Ancient genomes reveal tropical bovid species in the Tibetan Plateau contributed to the prevalence of hunting game until the late Neolithic. The now tropical gaur ranged much further north during the warmer Neolithic, which facilitated the exploration of the Tibetan Plateau.
- Optimization of in vitro germination and cryopreservation conditions for preserving date palm pollen in the USDA National Plant Germplasm System. Always good to have another way of storing germplasm.
- Beyond the material: knowledge aspects in seed commoning. Comparing global with local seed commons reveals importance of managing knowledge, both scientific and traditional.
- Genetics to the rescue: managing forests sustainably in a changing world. To manage forests sustainably, you have to conserve and use their genetic diversity. Interesting that they needed a conference to work that out.
- Genetic mixing for population management: from genetic rescue to provenancing. And using that genetic diversity could mean mixing it up.
- The importance of genomic variation for biodiversity, ecosystems and people. Maintaining ecosystem services means maintaining genetic diversity. Sounds like these authors went to the same conference.