- Morphological and phenological consequences of ex situ conservation of natural populations of red clover (Trifolium pratense L.). Regeneration has caused directional morphological changes.
- Breeding Common Bean for Resistance to Common Blight: A Review. A lot is known and has been done, but, still, “Andean and Middle American common bean cultivars with high levels of combined resistance to less-aggressive and aggressive bacterial strains in all aerial plant parts are not available.”
- Half of 23 Belgian dog breeds has a compromised genetic diversity, as revealed by genealogical and molecular data analysis. Especially native breeds with small populations, unsurprisingly.
- Neither crop genetics nor crop management can be optimised. Because of ever-present trade-offs.
- The Influence of Gender Roles And Human Migrations on the Distribution of Crop Biodiversity in Tharaka, Kenya. Crops move with people, and different genders move different crops.
- Somaclonal variants of taro (Colocasia esculenta Schott) and yam (Dioscorea alata L.) are incorporated into farmers’ varietal portfolios in Vanuatu. Farmers have lots of varieties, but they need more variety.
- Morphological and molecular genetics of ancient remains and modern rice (Oryza sativa) confirm diversity in ancient Japan. Modern Japanese rice is a subset of ancient Japanese rice.
Brainfood: Chinese royal jelly, Diverse wine yeasts, Heirloom values, Oil and biodiversity, Grassland management, Maize and culture, Minimum viable populations, Good coffee
- High Royal Jelly-Producing Honeybees (Apis mellifera ligustica) (Hymenoptera: Apidae) in China. China supplies 90% of the global market?
- Taking Advantage of Natural Biodiversity for Wine Making: The WILDWINE Project. Back to the future, via yeast diversity.
- Conservation of Landrace: The Key Role of the Value for Agrobiodiversity Conservation. An Application on Ancient Tomatoes Varieties. Fancy maths shows farmer maintaining heirloom tomato variety in Perugia could be charging more.
- Are changes in global oil production influencing the rate of deforestation and biodiversity loss? Less oil production, more agricultural expansion, more biodiversity loss.
- Grazing vs. mowing: A meta-analysis of biodiversity benefits for grassland management. Grazing. Probably. The data sucks.
- Maize diversity associated with social origin and environmental variation in Southern Mexico. Ethnicity trumps altitude in genetic patterning. Morphology is all over the place.
- Genetics in conservation management: Revised recommendations for the 50/500 rules, Red List criteria and population viability analyses. One we missed. 100/1000 is the new 50/500. Multiply by 10 for census population sizes to avoid inbreeding and retain evolutionary potential, respectively.
- Advances in genomics for the improvement of quality in Coffee. We’ll need to sequence the wild species too.
Brainfood: PVP in Africa, Tomato disease resistance, Open source seeds, Barley protein, Improving roots, Bambara groundnut, Indian kodo millet, Cacao diversity, Washington heirloom beans, Mato Grosso cassava, Balanites biotech, Intensive Europe
- Opportunities and Threats to Harmonisation of Plant Breeders’ Rights in Africa: ARIPO and SADC. While the intention of ARIPO and SADC is to create a single internal market for protected varieties in Africa, “the end result may look quite differently.”
- Evaluation of Resistance to Ralstonia solanacearum in Tomato Genetic Resources at Seedling Stage. Out of 285 varieties from 21 countries in the Korean genebank, 4 may be resistant to bacterial wilt.
- Following the Open-Source Trail Outside the Digital World: The Case of Open-Source Seeds. “…by not rejecting the idea of property, including intellectual property, but rather attempting to manage it differently, it creates its own enclosures.”
- Grain protein concentration and harvestable protein under future climate conditions. A study of 108 spring barley accessions. Higher CO2 and temperatures lead to higher protein concentrations but lower yields, so lower harvestable protein. The good news is that there’s variation in the response of varieties.
- How can we harness quantitative genetic variation in crop root systems for agricultural improvement? Apparently we still don’t have a mechanistic understanding of root growth, and we’ll need it if we’re going to improve function.
- Bambara Groundnut for Food Security in the Changing African Climate. It’s nutritious, it’s drought tolerant, and it can be intercropped. What’s not to like?
- Neutral and functional marker based genetic diversity in kodo millet (Paspalum scrobiculatum L.). Indian material falls into 4 groups, with Bihar being very diverse. African genepool and wild species should be useful in broadening base in India.
- Origin, Dispersal, and Current Global Distribution of Cacao Genetic Diversity. We’ve come to the limit of the usefulness of the Pound Collection.
- Exploring the role of local heirloom germplasm in expanding western Washington dry bean production. 24 bean varieties have been grown in the area for 20–130 years, representing a useful starting point for participatory plant breeding.
- Growing Cassava (Manihot esculenta) in Mato Grosso, Brazil: Genetic Diversity Conservation in Small–Scale Agriculture. Lots of diversity within communities, and differences among communities. Varieties with same name not necessarily genetically similar.
- Establishment of an in vitro propagation and transformation system of Balanites aegyptiaca. So?
- Mapping cropland-use intensity across Europe using MODIS NDVI time series. Four indicators show highest cropping intensity in Germany, Poland, and the eastern European Black Earth regions, and lowest in eastern Europe outside the Black Earth region. Interesting to mash this up with agricultural biodiversity? Like earthworms?
Brainfood: Species shifts, Rewilding caution, Managing grassland, Natural control, Expansion, Rutin, Citrullus core, Open source seeds, Nagoya consequences, Tree diversity
- Altitudinal shifts of the native and introduced flora of California in the context of 20th-century warming. Introduced species are better at spreading upward than the native flora.
- Rewilding is the new Pandora’s box in conservation. Step away from the shiny new box.
- Threatened herbivorous insects maintained by long-term traditional management practices in semi-natural grasslands. Because they can’t compete with generalists better adapted to the new-fangled conditions.
- Agricultural landscape simplification reduces natural pest control: A quantitative synthesis. Aphid control 46% lower in simple landscapes with lots of cultivated land, compared to more diverse landscapes.
- Addressing future trade-offs between biodiversity and cropland expansion to improve food security. Expansion could really help with food security, also in importing countries, but is likely to occur in biodiversity hotspots, which means the devil will be in the spatial detail.
- Quantitative analysis of rutin content using silkworm genetic resources. Wait, silkworm powder?
- Genetic Diversity, Population Structure, and Formation of a Core Collection of 1197 Citrullus Accessions. Microsatellites detect differences between American and E. Asian ecotypes and select diverse subset of 130 accessions from Chinese collection.
- Open Source Foodways: Agricultural Commons and Participatory Art. Seeds as art.
- Implications of the Nagoya Protocol for Genome Resource Banks Composed of Biomaterials from Rare and Endangered Species. There are many, some of them unforeseen.
- Functional Resilience against Climate-Driven Extinctions – Comparing the Functional Diversity of European and North American Tree Floras. Loss of species diversity may be decoupled from loss of functional diversity.
Brainfood: Cajanus breeding, Saline rice, Temperate perennial fodder, Andean beans, Seed microbes
- Pigeonpea breeding in eastern and southern Africa: challenges and opportunities. No longer orphan, but then again not exactly adopted yet.
- Genetic diversity in the rice landraces (Oryza sativa L.) of coastal Sundarbans (India) and their adaptation to the local saline condition investigated both at molecular and physiological level. Out of 50 landraces, three have salinity tolerance genes that have not already been used.
- Review of shrubs and trees in intensive ruminant systems in temperate areas. Promising, but not as common or easy as you might think.
- A Phaseolus vulgaris Diversity Panel for Andean Bean Improvement. Andean diversity assessed for Africa.
- Developmental Peculiarities and Seed-Borne Endophytes in Quinoa: Omnipresent, Robust Bacilli Contribute to Plant Fitness. Next step, try them on other crops. What could possibly go wrong?