Biotechnology – Page 6 – Agricultural Biodiversity Weblog

March 21, 2023March 24, 2023

Nibbles: Food system transformation, Global food crisis, Rewilding, Genomics, Data management

According to WWF, Solving the Great Food Puzzle involves, inter alia, nutritious indigenous crops, agrobiodiverse cropping systems, and traditional food cultures. Those are just 3 of 20 levers for food system transformation. Is it me or are levers and accelerators the current flavours of the month?
Even the Gates Foundation agrees on that indigenous crop thing, kinda sorta, if you squint. In this piece, for example, Enock Chikava, Interim Director, Agricultural Development, waxes lyrical about teff.
Meanwhile, in the middle of its tomato shortage, and not much interested in teff, the UK is betting on re-establishing prehistoric landscapes full of wild pigs and bison. Bold move.
But who needs bison protein when you have the genome of the faba bean? Which after all is a nutritious indigenous crop, part of agrobiodiverse cropping systems, and a component of traditional food cultures.
Ah, but you need to manage all that data on indigenous crops, and Clemson University is there to help. WWF take note.

March 13, 2023March 15, 2023

Brainfood: Genomics for conservation and use edition

How genomics can help biodiversity conservation. Let’s find out, but let’s broaden it to use as well, shall we? On the assumption that what’s good for conservation is good for use, and vice versa.
Genetic and genomic interventions in crop biofortification: Examples in millets. Genomics can help you get more nutritious millets, and also use millets to improve the nutritive content of other cereals too.
Genomics and biochemical analyses reveal a metabolon key to β-L-ODAP biosynthesis in Lathyrus sativus. Genomics can help you figure out ways to decrease the toxicity of grasspea.
Extensive crop–wild hybridization during Brassica evolution and selection during the domestication and diversification of Brassica crops. Genomics can help you figure out the evolutionary history of crops…
Molecular characterization of Brassica genebank germplasm confirms taxonomic identity and reveals low levels and source of taxonomic errors. …assuming you have you accessions labelled correctly that is.
Dual domestications and origin of traits in grapevine evolution. Genomics can help you figure out the evolutionary history of crops. No, wait, we already had that one…
Balancing grain yield trade-offs in ‘Miracle-Wheat’. Genomics can help you figure out the best phenotype in wheat.
Focusing the GWAS Lens on days to flower using latent variable phenotypes derived from global multienvironment trials. Genomics can help you figure out the best phenotype in lentils too.
Awned versus awnless wheat spikes: does it matter? Although actually you don’t necessarily need genomics to help you figure out the best phenotype in wheat. But let’s get back on track.
SNP Diversity and Genetic Structure of “Rogosija”, an Old Western Balkan Durum Wheat Collection. That’s better. Genomics can help you figure out that a wheat collection can consist of distinct ecogeographic groupings.
Repeatability of adaptation in sunflowers: genomic regions harbouring inversions also drive adaptation in species lacking an inversion. Genomics can help you figure out what’s behind local adaptation in crop wild relatives.
Re-evaluating Homoploid Reticulate Evolution in Helianthus Sunflowers. Genomics can help you figure out the evolutionary history of crop wild relatives. Where have I heard that before?
A thousand-genome panel retraces the global spread and adaptation of a major fungal crop pathogen. Genomics can help you figure out the evolutionary history of plant pathogens too. Here’s a Twitter thread from one of the authors with lots of maps to prove it.
Honey bee populations of the USA display restrictions in their mtDNA haplotype diversity. Yeah, you guessed it, pollinators too.
Mezcal worm in a bottle: DNA evidence suggests a single moth species. I rest my case.

March 6, 2023March 3, 2023

Brainfood: Food biodiversity, Diversification, New crops, GMO maize, African livestock, Greek innovation clusters, Amazonian native cacao

Food Biodiversity as an Opportunity to Address the Challenge of Improving Human Diets and Food Security. Biodiversity and food security can be mutually supportive, but you need education, research and inclusion, say educators and researchers.
Achieving win-win outcomes for biodiversity and yield through diversified farming. Biodiversity and yield both win in only about a quarter of cases. But humanity does not live by yield alone, right?
Accelerated Domestication of New Crops: Yield is Key. Ooops, looks like humanity does live by yield alone after all.
Genetically Modified Maize: Less Drudgery for Her, More Maize for Him? Evidence from Smallholder Maize Farmers in South Africa. No, wait, man lives by yield alone, but not woman.
Climate Change’s Impact on Agriculture and Food Security: An Opportunity to Showcase African Animal Genetic Resources. Forget GMO maize, Africa needs to develop its own agrobiodiversity…
Friend or Foe? The Role of Animal-Source Foods in Healthy and Environmentally Sustainable Diets. …and it need not be bad for either health or the environment.
AgriDiverCluster: An Innovative Cluster for the Utilization of Greek Biodiversity and Plant Genetic Resources. Maybe the Greeks have a way to make it not bad for either health or the environment. By vertical integration, it looks like.
Socio-ecological benefits of fine-flavor cacao in its center of origin. Amazonian cacao farmers also seem to have a way to vertically integrate.

February 27, 2023February 23, 2023

Brainfood: Cryo at CIP, Cryo everywhere, Citrus conservation, Seed storage, Pollen double

The world’s largest potato cryobank at the International Potato Center (CIP) – Status quo, protocol improvement through large-scale experiments and long-term viability monitoring. It’s been a long road, but they’re almost there…
Overcoming Challenges for Shoot Tip Cryopreservation of Root and Tuber Crops. …but there’s a bit further to go for other roots and tubers….
Conserving Citrus Diversity: From Vavilov’s Early Explorations to Genebanks around the World. …and citrus.
Seed Longevity — The Evolution of Knowledge and a Conceptual Framework. The road goes on forever.
The 3D Pollen Project: An open repository of three-dimensional data for outreach, education and research. The road has to begin somewhere.
Pollen Cryobanking—Implications in Genetic Conservation and Plant Breeding. And we’re off…

January 23, 2023January 22, 2023

Brainfood: Breeding edition

Climate change may outpace current wheat breeding yield improvements in North America. Breeders need to try harder, at least for spring wheat.
Large-scale genotyping and phenotyping of a worldwide winter wheat genebank for its use in pre-breeding. But winter wheat could do with some help too, and genebanks are there for you, breeders.
Exotic alleles contribute to heat tolerance in wheat under field conditions. Maybe wild relatives are the answer?
Agronomic assessment of two populations of intermediate wheatgrass—Kernza® (Thinopyrum intermedium) in temperate South America. Even really, really wild, and perennial, relatives.
Sustained productivity and agronomic potential of perennial rice. Maybe perennial wheat breeders can learn from perennial rice breeders.
CGIAR Barley Breeding Toolbox: A diversity panel to facilitate breeding and genomic research in the developing world. Good to see barley is not being left behind. Perennial barley next, anyone?
Developing drought-smart, ready-to-grow future crops. It’s not like breeders have no idea about what to do and how to do it…
Molecular evidence for adaptive evolution of drought tolerance in wild cereals. …and there’s diversity out there in the wild relatives to play with. Even without getting into the weird perennial stuff.
Impact of CGIAR maize germplasm in Sub-Saharan Africa. So let’s be optimistic, there are success stories. Although, cripes, I’d like to see perennial maize.
Genomic prediction for the Germplasm Enhancement of Maize project. Which is not to say there’s no room for improvement too.
Maize plants and the brace roots that support them. Yeah, like for example how many of these fancy CGIAR and GEM maize varieties have brace roots?
Retrospective study in US commercial sorghum breeding: I. Genetic gain in relation to relative maturity. US breeders have been really successful for sorghum too, though maybe not successful enough.
Evaluation of a Subset of Ethiopia Sorghum Collection Germplasm from the National Genetic Resources Program of the United States Department of Agriculture for Anthracnose Resistance. And that success may be spilling over to Ethiopia. Well I’d like to think so anyway, or the whole conceit of this Brainfood will go up in smoke.
Genomics-based assembly of a sorghum bicolor (L.) Moench core collection in the Uganda national genebank as a genetic resource for sustainable sorghum breeding. And maybe Uganda too? Yes, I’m doubling down.
GridScore: a tool for accurate, cross-platform phenotypic data collection and visualization. All these breeders need to store and manage their data, of course, and here’s a way to do that.
The Impact of N.I. Vavilov on the Conservation and Use of Plant Genetic Resources in Scandinavia: A Review. Arguably all of the above is the result of the sort of international collaboration that Vavilov exemplified, perhaps even pioneered?