- Virginia Gewin on GB8.
- Mapping water risks around the world.
- The decline and rise of Georgian tea.
- Virus hits tilapia. A lot of people could be hurt.
- Amaranthus in Mexico.
- Just one of many relatively neglected crops around the world that shouldn’t be.
- How wheat took over China. That was kinda underused at first too.
- Long webinar on organic maize breeding. Amaranthus next?
- The rise of fabric.
Nibbles: International genebanks, Ahmed Amri, Genebank management, Nutrition stories, Spice nomenclature, Breeding against waste, Cuneiform tablets, Breadfruit, Ag risk, Giant pineapple, Chiles in Mexico, Solanum jamesii, Seed Week, Kenyan community seedbank, Lost apples
- The CGIAR genebanks in the limelight.
- My friend Ahmed Amri is a big reason for the success of the above.
- The dual role of genebank managers like Ahmed.
- Feel-good nutrition stories needed.
- Rosemary gets a name change. Not many people hurt.
- Fighting food waste through breeding.
- Babylonian cooking deciphered.
- Breadfruit (and Diane Ragone) on TV.
- Maize looks doomed in Zambia. All hail sorghum.
- Food exhibition at the Fitzwilliam.
- Chiltepin culture.
- The forgotten potato of the Four Corners.
- Hey, it’s Seed Week 2019 in the UK and Ireland!
- Something similar in Kenya too, thanks to Bioversity and CCAFS.
- There’s always an apple detective story around this time of year.
Nibbles: CATIE coffee, Cajanus Down Under, Coloured wheat, Rice walk, AnGR in Uganda, Coconut sequestration, Private sector, Hawaiian taro, Going wild sustainably, DATAR, Old yeast, Pharaonic beer, Charley Rick, Liberate Diversity, Cost benefit, Catastrophe now
- The CATIE coffee collection gets a really close look.
- Pigeonpeas for Australia.
- Coloured wheat for India.
- Also in India, a rice institute opens its doors.
- A livestock genebank for Uganda.
- The coconut for the Caribbean.
- Why crop-based businesses should pay for crop conservation. Holding my breath…
- Hawaiians reclaim taro. Breathing again…
- How to use wild species sustainably.
- Diversity Assessment Tool for Agrobiodiversity and Resilience. Yeah, what we need is more software.
- 16th century beer. From Quito, the first city to brew beer in South America.
- Egyptians: I see that and raise you about 6 thousand years.
- You too can drink Leonardo’s wine. Wonder if he liked beer.
- Exploring for wild tomatoes.
- Liberating diversity.
- Agricultural R&D is in the top 3 value-for-money development interventions. Just saying…
- Seconded: “Multiplying the budget of CGIAR, the world’s largest global agricultural innovation network, would be a good start. And, in a time of great disruptions, we ought to prioritize Sustainable Development Goal 2.4, implementing resilient agricultural practices, with a greater focus on smallholder farmers in developing countries.” And 2.5!!!
Brainfood: Livestock cryo, Yeast evolution, PAs & CC, Genomes, Trifolium ambiguum, Earthworm map, Photosynthesis double, RCTs, Brown rice, DH maize, Breed performance maps
- Genetic Cryopreservation of Rare Breeds of Domesticated North American Livestock: Smithsonian & SVF Biodiversity Preservation Project. 106,109 “units of germplasm” from 39 breeds.
- Interspecific hybridization facilitates niche adaptation in beer yeast. Chimerization is not a word I thought I would ever see in a beer context. Anyway, thank goodness for feral yeasts and their propensity for miscegenation.
- Predicted climate shifts within terrestrial protected areas worldwide. PAs in temperate and northern high-latitude will have high area proportions of novel climate conditions by the end of the century.
- Crop Genomics Goes Beyond a Single Reference Genome. Looks like we’ll always need another genome.
- Morphometric approaches to promote the use of exotic germplasm for improved food security and resilience to climate change: A kura clover example. Fancy maths used to describe the hell out of a small collection of an underused clover.
- Global distribution of earthworm diversity. Peaks at higher latitudes, but higher overall in the tropics.
- Natural genetic variation in photosynthesis: an untapped resource to increase crop yield potential? Sounds like it.
- Increasing Photosynthesis: Unlikely Solution For World Food Problem. Ok, maybe not.
- What role should randomized control trials play in providing the evidence base for conservation? A bigger role that currently, but watch out.
- Brown Rice, a Diet Rich in Health Promoting Properties. Mill less.
- Loss of diversity and accumulation of genetic load in doubled-haploid lines from European maize landrace. DH not a panacea.
- Maize agro-food systems to ensure food and nutrition security in reference to the Sustainable Development Goals.
- Using phenotypic distribution models to predict livestock performance. Niche models + performance.
The sweetest things
There’s been a lot of action on the cucurbit domestication front lately. Hot on the heels of a comprehensive Tansley review of all the crops in the family in New Phytologist ((Chomicki, G. , Schaefer, H. and Renner, S. S. (2019), Origin and domestication of Cucurbitaceae crops: insights from phylogenies, genomics and archaeology. New Phytol. doi:10.1111/nph.16015.)) now come two papers out of the Chinese Academy of Agricultural Sciences focusing on the melon and watermelon:
- Zhao, G., Lian, Q., Zhang, Z. et al. A comprehensive genome variation map of melon identifies multiple domestication events and loci influencing agronomic traits. Nat Genet 51, 1607–1615 (2019) doi:10.1038/s41588-019-0522-8.
- Guo, S., Zhao, S., Sun, H. et al. Resequencing of 414 cultivated and wild watermelon accessions identifies selection for fruit quality traits. Nat Genet 51, 1616–1623 (2019) doi:10.1038/s41588-019-0518-4.
There are press releases on each of these, of course. But the more interesting take is provided by some IPK researchers ((Jayakodi, M., Schreiber, M. & Mascher, M. Sweet genes in melon and watermelon. Nat Genet 51, 1572–1573 (2019) doi:10.1038/s41588-019-0529-1.)), who mash up the two studies. ((Here’s another mash-up.)) And provide a nice graphic to summarize the whole thing.
The bottom line(s)? The two different subspecies of melon acquired sweet flesh through different mutations, independently but probably both in India; there was a third domestication event in Africa, but the authors had too little material at hand to say much about this. Melon and watermelon lost their bitterness through convergent evolution, and the latter has benefitted from introgression from two wild relatives, one of which was separately domesticated for its seeds.