- Development of a New Hybrid Between Prunus tomentosa Thunb. and Prunus salicina Lindl.. Prunus just keeps on giving.
- Ex Situ Conservation Priorities for the Wild Relatives of Potato (Solanum L. Section Petota). 32 out of 73 species, mostly in Peru.
- Agroecology and the design of climate change-resilient farming systems. Forget monocultures, go for “…crop diversification, maintaining local genetic diversity, animal integration, soil organic management, water conservation and harvesting…”
- Patterns and Drivers of Scattered Tree Loss in Agricultural Landscapes: Orchard Meadows in Germany (1968-2009). It’s all about the bottom line.
- New Sources of Resistance to Multiple Pathotypes of Sclerospora graminicola in the Pearl Millet Mini Core Germplasm Collection. 62 of 238 accessions resistant to at least 2 of 8 pathotypes tested.
- Searching for backyard birds in virtual worlds: Internet queries mirror real species distributions.
Searches for common names of birds correlated with bird population densities. Wonder if same applies to (some) plants. - Legume Crops Phylogeny and Genetic Diversity for Science and Breeding. 6 tribes, 13 genera, a million accessions. But are we making the most of them?
Brainfood: Chinese CWR, Black-bone goat, Agrobiodiversity & nutrition, Niger rice, Rabbit diversity, On farm, Adding value, Native Americans & Svalbard, USDA wheat core, Cooperatives & food security, Maize & CC
- China’s crop wild relatives: Diversity for agriculture and food security. 871 wild species related to crops important in China, some of them endemic and endangered.
- Black-bone goat: An investigation report on new genetic resource of farm animal. Out of China…
- Effects of agricultural biodiversity and seasonal rain on dietary adequacy and household food security in rural areas of Kenya. More dietary diversity is better for your kids’ nutrition, and so is rain.
- Farmers’ rice knowledge and adoption of new cultivars in the Tillabéry region of western Niger. The landrace is hippopotamus-resistant.
- An invasive non-native mammal population conserves genetic diversity lost from its native range. Same for some crop wild relatives?
- Diversifying mechanisms in the on-farm evolution of crop mixtures. Diversity within mixture of 4 French wheat landraces changes in different ways in different places.
- The Role of Local Sheep and Goat Breeds and Their Products as a Tool for Sustainability and Safeguard of the Mediterranean Environment. Cheese made from local breeds is better. Well, at least different.
- Saving seeds: The Svalbard Global Seed Vault, Native American seed savers, and problems of property. “…the Svalbard Global Seed Vault is unique in its potential ability to cross the political and cultural divide over the ownership and conservation of seeds and thereby promote the vital ecological need for both ex situ and in situ seed preservation.”
- Genetic Diversity among Wheat Accessions from the USDA National Small Grains Collection. Geography is a good basis on which to base a core collection.
- Food sovereignty, food security and fair trade: the case of an influential Nicaraguan smallholder cooperative. They can all be integrated, but food security is the difficult one.
- Maize migration: key crop expands to higher altitudes under climate change in the Andes. 10m a year.
Brainfood: Tomato diversity, Tomato characterization, Sweetpotato diversity, Olive characterization, Bamboo as fodder, Chinese liquor, Agroecological livestock, Oasis agrobiodiversity, Pearl millet diversity double
- Genomic variation in tomato, from wild ancestors to contemporary breeding accessions. A first domestication in South America, a second step in Mesoamerica, occasional hybridization in the wild, differentiation through human selection. Some Ecuadorian and Peruvian diversity still unexplored for breeding.
- Characterization of a collection of local varieties of tomato (Solanum lycopersicum L.) using conventional descriptors and the high-throughput phenomics tool Tomato Analyzer. Instant gratification comes to tomato characterization.
- Molecular diversity and genetic structure of 380 sweetpotato accessions as revealed by SSR markers. Also a two-step domestication history? What are the odds?
- Association of SSR markers with contents of fatty acids in olive oil and genetic diversity analysis of an olive core collection. Let the molecular-assisted breeding begin.
- Genetic Evaluation of Nutritional and Fodder Quality of Different Bamboo Species. Remarkably, some species are ok.
- Genetic Diversity Among the Microorganisms in Daqu Used for Beidacang Liquor as Revealed by RAPD Analyses. Well that’s a new one on me, but it’s good to have the data.
- Farm animal genetic and genomic resources from an agroecological perspective. If you’re going to really be ecological in your management of livestock genetic resources, you need to factor in ecosystem services, and figure out how genomic tools are going to help you. Well, that pretty much goes for crops too, surely.
- The labor of agrodiversity in a Moroccan oasis. Not all agrobiodiversity is that old.
- Identification of pearl millet (Pennisetum glaucum (L.) R. Br.) germplasm with unique popping quality in the national genebank collections of India. Amazing what you can find in genebanks.
- Iniadi pearl millet germplasm as a valuable genetic resource for high grain iron. See what I mean?
Brainfood: Spanish sheep, Chicory diversity, Sweetpotato GMO, Wild sweetpotato gaps, Diverse grassland, Sorghum nutrition, Diverse agriculture, Diverse farmland, Medicinal fungus, Colombian olives, Citrus phylogeny
- The biodiversity and genetic structure of Balearic sheep breeds. 5 types, pretty well differentiated among themselves, and very different to the mainland breeds.
- Exploration of genetic diversity within Cichorium endivia and Cichorium intybus with focus on the gene pool of industrial chicory. Species reasonably, though not completely, differentiated. C. intybus division into 3 phenotypic cultivar groups (Witloof, root chicory and leaf chicory) confirmed. Leaf chicory division into 3 phenotypic subgroups confirmed (Radicchio, Sugarloaf and Catalogne cultivars). Modern industrial root cultivars have high phenotypic and genetic variability.
- The genome of cultivated sweet potato contains Agrobacterium T-DNAs with expressed genes: An example of a naturally transgenic food crop. No doubt it will soon be banned in Europe.
- Distributions, ex situ conservation priorities, and genetic resource potential of crop wild relatives of sweetpotato [Ipomoea batatas (L.) Lam., I. series Batatas]. 79% of species identified as high priority for further collecting. None of them GMOs. Yucatan is the place to go to get bang for buck.
- Complementary effects of species and genetic diversity on productivity and stability of sown grasslands. Species diversity increased productivity under drought, regardless of number of genotypes per species present. Genotypic diversity increased temporal stability of production under both drought and non-drought conditions, regardless of number of species.
- Exploiting Nutritional Value of Staple Foods in the World’s Semi-Arid Areas: Risks, Benefits, Challenges and Opportunities of Sorghum. Unbalanced amino acid composition, cyanogenic glycosides and antinutrients are obstacles to increased consumption, but can be overcome by: reduction of worrisome components (or their activity), good practices to minimise contamination and compensation by varied diet.
- Nutritional and Health Implications of Conventional Agriculture — A review. Only agricultural biodiversity can save us.
- Pollination services from field-scale agricultural diversification may be context-dependent. Hedgerows may not always be good for both crop pollination and wild bee conservation.
- Morphological, Physiological and Molecular studies on wildly collected Cordyceps militaris from North West Himalayas, India. You can cultivate it.
- Olive biodiversity in Colombia. A molecular study of local germplasm. 5 of the genotypes could not be identified with known varieties.
- A phylogenetic analysis of 34 chloroplast genomes elucidates the relationships between wild and domestic species within the genus Citrus. 3 main clades: citron/Australian species, pummelo/micrantha and papeda/mandarins. Lots of heteroplasy. 4 genes showing positive selection.
Brainfood: Resilience and diversity, Cold tolerant rice, Old baobabs, VIR, Local adaptation, Prunus phylogeny, Bactris mating, Land use change, Wheat landraces, Amazonian agrobiodiversity
- Does Plant Species Richness Guarantee the Resilience of Local Medical Systems? A Perspective from Utilitarian Redundancy. It depends on how knowledge is distributed.
- COLD1 Confers Chilling Tolerance in Rice. From a wild relative.
- Searching for the Oldest Baobab of Madagascar: Radiocarbon Investigation of Large Adansonia rubrostipa Trees. 1,600 years seems to be the record.
- Genetic resources of cultivated plants as the basis for Russia’s food and environmental security. VIR needs Roubles 425 million a year ($14.3 million).
- Using archaeogenomic and computational approaches to unravel the history of local adaptation in crops. Models say that adaptation to higher latitudes was rapid, simple (few genes) and unstable.
- Combining conservative and variable markers to infer the evolutionary history of Prunus subgen. Amygdalus s.l. under domestication. Almonds and peaches were domesticated on either side of the Central Asian Massif from different sections of the genus that had been there for 5 million years.
- Conservation implications of the mating system of the Pampa Hermosa landrace of peach palm analyzed with microsatellite markers. Bactris effective population size in genebanks is too small.
- Global effects of land use on local terrestrial biodiversity. Within-sample total terrestrial species diversity down by 13.6% globally. About the same for crop wild relatives?
- Exploiting genetic diversity from landraces in wheat breeding for adaptation to climate change. It would be a good idea.
- Household Agrobiodiversity Management on Amazonian Dark Earths, Oxisols, and Floodplain Soils on the Lower Madeira River, Brazil. Age of household head, size of household and area of land under cultivation predict amount of agricultural biodiversity managed.