Brainfood – Page 6 – Agricultural Biodiversity Weblog

January 29, 2024January 24, 2024

Brainfood: Nutrition edition

Which crop biodiversity is used by the food industry throughout the world? A first evidence for legume species. Mainly soy, alas. Which is bad because…
Diversified agriculture leads to diversified diets: panel data evidence from Bangladesh. …promoting diversified farming systems and market participation is good for women’s empowerment and better diets. Which is just as well because…
Historical shifting in grain mineral density of landmark rice and wheat cultivars released over the past 50 years in India. …breeding hasn’t been good for nutritional content in staples.
Surviving mutations: how an Indonesian Capsicum frutescens L. cultivar maintains capsaicin biosynthesis despite disruptive mutations. But if you can breed for extreme pungency, you can surely breed for better nutrient content.
Exploiting Indian landraces to develop biofortified grain sorghum with high protein and minerals. Yep, simple selection can make a sorghum landrace more nutritious.
Genome-edited foods. Or you could resort to gene editing.
Adoption and impact of improved amaranth cultivars in Tanzania using DNA fingerprinting. Although maybe it might be easier to just eat more amaranth.
Stakeholders’ perceptions of and preferences for utilizing fonio (Digitaria exilis) to enrich local diets for food and nutritional security in Nigeria. But documenting knowledge will be key in either case.
Domestication through clandestine cultivation constrained genetic diversity in magic mushrooms relative to naturalized populations. And watch what you’re doing to diversity.

December 18, 2023December 15, 2023

Brainfood: MLS, PPP, GMOs, SINAREFI, FGD, InDel

What Plant Genetic Resources for Food and Agriculture Are Available under the Plant Treaty and Where Is This Information? It’s really difficult to know, and it shouldn’t be.
Bridging the gap? Public–private partnerships and genetically modified crop development for smallholder farmers in Africa. They really haven’t worked. But should they have?
Recalcitrant maize: Conserving agrobiodiversity in the era of genetically modified organisms. Trying to keep landraces and GMOs both physically and conceptually apart won’t work, and doesn’t need to.
Flavour, culture and food security: The spicy entanglements of chile pepper conservation in 21st century Mexico. Efforts to ensure food security needs to take flavour into account if they are to work.
Gender differential in choices of crop variety traits and climate-smart cropping systems: Insights from sorghum and millet farmers in drought-prone areas of Malawi. Efforts to improve crop adaptation and resilience to climate change need to take gender into account if they are to work.
A target cultivar-specific identification system based on the chromatographic printed array strip method for eight prominent Japanese citrus cultivars. Specific DNA markers can be used to enforce plant breeders’ rights.

December 11, 2023

Brainfood: Lima bean network, Obake rice, Feral Canadian apples, African plum seed systems, Canary Island potatoes, Wild potatoes & late blight, Wild lentils & drought, Wild grapes & salt, Robusta core, Ethiopian barley diversity, De novo wheat domestication

International Lima Bean Network: from the origin of the species to modern plant breeding. And you can join it here.
Solving the mystery of Obake rice in Africa: population structure analyses of Oryza longistaminata reveal three genetic groups and evidence of both recent and ancient introgression with O. sativa. The wild African O. longistaminata is closer to Asian O. sativa than to other African wild species, and shows evidence of ancient introgression from O. sativa in southern Africa. Definitely worth a network.
The origins and evolutionary history of feral apples in southern Canada. They are mainly recombinants involving early heritage cultivars, with no hybridization with local wild species. So, not like rice in Africa.
Can seed exchange networks explain the morphological and genetic diversity in perennial crop species? The case of the tropical fruit tree Dacryodes edulis in rural and urban Cameroon. Cities are hotspots of African plum diversity because people bring in tress from all over the place. So, a bit like apples in Canada.
Ancient Potato Varieties of the Canary Islands: Their History, Diversity and Origin of the Potato in Europe. “The Andes end in the Canary Islands.” A bit like how the Caucasus ends in Canada?
Functional diversification of a wild potato immune receptor at its center of origin. Wild species can be used to improve the late blight tolerance of cultivated potatoes.
Limited-transpiration trait in response to high vapor pressure deficit from wild to cultivated species: study of the Lens genus. Wild species can be used to improve the drought tolerance of cultivated lentils.
A Tunisian wild grape leads to metabolic fingerprints of salt tolerance. Wild species can be used to improve the salt tolerance of cultivated grapes.
Characterization of the genetic composition and establishment of a core collection for the INERA Robusta coffee (Coffea canephora) field genebank from the Democratic Republic of Congo. From 730 shrubs to 263 unique genotypes to 10 plants with 93% of the alleles. Some wild stuff involved. Do the same for African plum?
Genetic diversity within landraces of barley (Hordeum vulgare L.) and its implications on germplasm collection and utilization. Maybe we should do core collections for each landrace?
Phenotyping and identification of target traits for de novo domestication of wheat wild relatives. Maybe we should try it with that wild African rice too.

October 23, 2023October 20, 2023

Brainfood: Maize, Chickpea, CWR, Canola, Coconut, Avocado, Eggplant, Carrot, Watermelon, Citrus, Potato, Pearl millet, Roses

A New Methodological Approach to Detect Microcenters and Regions of Maize Genetic Diversity in Different Areas of Lowland South America. Multiple disciplines identify 4 microcenters of maize diversity in the lowlands of South America.
Historical Routes for Diversification of Domesticated Chickpea Inferred from Landrace Genomics. Genomics identifies both Indian and Middle Eastern traces in Ethiopian chickpeas.
Crop wild relatives in Lebanon: mapping the distribution of Poaceae and Fabaceae priority taxa for conservation planning. Spatial analysis identifies a couple of key ex situ and in situ conservation areas for CWR in Lebanon.
Analysis of gaps in rapeseed (Brassica napus L.) collections in European genebanks. Spatial analysis identifies a few key ex situ and in situ conservation areas for rapeseed wild relatives in Europe.
Genomic and population characterization of a diversity panel of dwarf and tall coconut accessions from the International Coconut Genebank for Latin America and Caribbean. Characterization of various sorts identifies different Atlantic and Pacific coconut genepools in the Western Hemisphere.
Pleistocene-dated genomic divergence of avocado trees supports cryptic diversity in the Colombian germplasm. Genomics identifies a uniquely Colombian avocado genepool.
Analysis of >3400 worldwide eggplant accessions reveals two independent domestication events and multiple migration-diversification routes. Genomics identifies separate Southeast Asia and Indian areas of domestication, and limited exchange between them.
Population genomics identifies genetic signatures of carrot domestication and improvement and uncovers the origin of high-carotenoid orange carrots. Genomics identifies wester-central Asia as the area of carrot domestication in the Early Middle Ages, and western Europe as the place where the orange variant was selected in the Renaissance.
A Citrullus genus super-pangenome reveals extensive variations in wild and cultivated watermelons and sheds light on watermelon evolution and domestication. Pangenomics identifies a gene in wild Kordofan melons as promoting the accumulation of sugar in watermelon.
Pangenome analysis provides insight into the evolution of the orange subfamily and a key gene for citric acid accumulation in citrus fruits. Pangenomics identifies south central China as the primary centre of origin of the genus Citrus.
Pangenome analyses reveal impact of transposable elements and ploidy on the evolution of potato species. Pangenomics identifies wild species from North and Central America as having lots of genes for abiotic stress response, but also fewer transposable elements.
Pangenomic analysis identifies structural variation associated with heat tolerance in pearl millet. Pangenomics identifies the key genes and structural variations associated with pearl millet accessions from the most hot and dry places.
Dark side of the honeymoon: reconstructing the Asian x European rose breeding history through the lens of genomics. Genomics and other data identifies a shift from a European to a mainly Asian genetic background in cultivated roses during the 19th century, leading to a narrowing of genetic diversity.

October 16, 2023

Brainfood: Silvopastoral systems, Livestock sustainability, Brachiaria in Brazil, European haymaking, German Black Pied cattle, Mallards, Pollinators, Metabarcoding

Global meta-analysis reveals overall benefits of silvopastoral systems for biodiversity. They’re not bad on their own, but the best thing for biodiversity would be to integrate silvopastoral systems with protected areas.
Priority areas for investment in more sustainable and climate-resilient livestock systems. India, Brazil, China, Pakistan and Sudan, apparently.
Farming cattle in the tropics: Transnational science and industrializing pastures in Brazil. But would investment in Brachiaria-based silvopastoral systems in Brazil be a good thing? I guess it depends.
Country Perspectives on Hay-Making Landscapes as Part of the European Agricultural Heritage. No Brachiaria in sight.
Genomic diversity and relationship analyses of endangered German Black Pied cattle (DSN) to 68 other taurine breeds based on whole-genome sequencing. It has a small population, but this ancestor of the Holstein is still pretty diverse. No word on whether it likes Brachiaria.
The meaning of wild: Genetic and adaptive consequences from large-scale releases of domestic mallards. “Wild is not singular.” Let that sink in while you contemplate your mallard-based silvopastoral system.
Key tropical crops at risk from pollinator loss due to climate change and land use. I’m sure the right silvopastoral systems would be great for pollinators.
eDNA metabarcoding of avocado flowers: ‘Hass’ it got potential to survey arthropods in food production systems? Yes it does. So now we can monitor the performance of those silvopastoral systems pretty easily.