- In the Footsteps of Vavilov: Plant Diversity Then and Now. The Pamiri Highlands of Tajikistan, the Ethiopian Highlands, and the Colorado Plateau of Southwestern North America compared at time of Vavilov and now: “Localities that have retained diversity have suffered the least.”
- Vavilovian Centers of Plant Diversity: Implications and Impacts. “His concept of specific centers of origin for crop plants was not an isolated aphorism but has directed breeders, on their study and reflection, to the continued improvement and economic development of plants for humanity.”
- Mitochondrial DNA variation of Nigerian domestic helmeted guinea fowl. Recent domestication, and lots of intermixing mean not much diversity, and what there is doesn’t have structure.
- Genome-wide association and genomic prediction of resistance to maize lethal necrosis disease in tropical maize germplasm. That’s when two viruses attack synergistically. Resistance is from multiple loci with smallish effects, and there are some promising markers.
- Genome-environment associations in sorghum landraces predict adaptive traits. Genotype predicts drought tolerance.
- Facilitation and sustainable agriculture: a mechanistic approach to reconciling crop production and conservation. Understanding facilitative plant–plant interactions (intercropping, varietal mixtures) in crops leads to more sustainable farming practices. Or it could.
- The relative contribution of climate and cultivar renewal to shaping rice yields in China since 1981. Mainly new varieties. Climate change has actually helped, but for how long?
- Biodiversity inhibits parasites: Broad evidence for the dilution effect. Meta-analysis shows biodiversity decreases parasitism and herbivory.
- Using genomic repeats for phylogenomics: a case study in wild tomatoes (Solanum section Lycopersicon: Solanaceae). Data that are usually thrown away turn out to be useful for something after all.
- Genetic structure of the date palm (Phoenix dactylifera) in the Old World reveals a strong differentiation between eastern and western populations. Asian and African genepools, with geneflow E to W.
Brainfood: Pepper tree conservation, Buckwheat diversity, Seed drying, Grape database, Livestock improvement, Soil bacterial diversity, TLB in Nigeria, Humans & diversity double, Faidherbia @ICRAF
- Genetic structure and internal gene flow in populations of Schinus molle (Anacardiaceae) in the Brazilian Pampa. Try to keep what forest patches remain. And link them up somehow.
- Genetic Diversity of Buckwheat Cultivars (Fagopyrum tartaricum Gaertn.) Assessed with SSR Markers Developed from Genome Survey Sequences. Two groups, overlapping in Qinghai, China.
- Increases in the longevity of desiccation-phase developing rice seeds: response to high-temperature drying depends on harvest moisture content. Genebanks may have it wrong for seeds of rice (and perhaps other tropical species) harvested while still metabolically active: these you can dry at higher temperatures than is the norm.
- Vitis International Variety Catalogue (VIVC): A cultivar database referenced by genetic profiles and morphology. Now with added microsatellites.
- Options for enhancing efficiency and effectiveness of research capacity for livestock genetics in, and for, sub-Saharan Africa. Embed in wider rural development, collaborate, and share data. Could apply to more than just livestock improvement.
- Mapping and validating predictions of bacterial biodiversity using European and national scale datasets. It’s the pH.
- Agricultural Extension Roles towards Adapting to the Effects of Taro Leaf Blight (Tlb) Disease in Nsukka Agricultural Zone, Enugu State. Basically, extensionists haven’t done a thing.
- Anthropogenic drivers of plant diversity: perspective on land use change in a dynamic cultural landscape. Abandoning farmland is not good for biodiversity.
- Agricultural landscapes and biodiversity conservation: a case study in Sicily (Italy). Ahem. Abandoning farmland is not good for biodiversity.
- Genetic diversity of Faidherbia albida (Del.) A. Chev accessions held at the World Agroforestry Centre. It’s not enough.
Brainfood: Grassland diversity, Potato diversity, English CWR, Genetic rescue, Saffron diversity, Lac, Cereal domestication, Turkish pea, Pathogen genomes, Rose fragrance, African cheese
- Worldwide evidence of a unimodal relationship between productivity and plant species richness. Grassland richness maximal at intermediate productivity levels.
- Cytoplasmic genome types of European potatoes and their effects on complex agronomic traits. Interesting relationships between cytoplasmic type on one hand and tuber starch content and resistance to late blight on other.
- Enhancing the Conservation of Crop Wild Relatives in England. 148 priority species, half of them not in ex situ at all. But there’s no excuse for that now.
- Genetic rescue to the rescue. Meaning an increase in population fitness, especially of rare species, owing to new alleles. Genomics will help by choosing the new alleles better, and monitoring the results.
- Diversity and relationships of Crocus sativus and its relatives analysed by IRAPs. No variation in the allotriploid cultigen, lots in the closely related species. Let the resynthesis begin.
- Economic analysis of Kusmi lac production on Zizyphus mauritiana (Lamb.) under different fertilizer treatments. That would be the scarlet resin secreted by some insects. NPK needed. No word on genetic differences.
- Parallel Domestication of the Heading Date 1 Gene in Cereals. Same QTL in sorghum, foxtail millet and rice, but different alterations of it. Multiple domestication for sorghum, single for foxtail millet.
- DNA based iPBS-retrotransposon markers for investigating the population structure of pea (Pisum sativum) germplasm from Turkey. No geographic structure for the landraces.
- The two-speed genomes of filamentous pathogens: waltz with plants. Fungi and oomycetes quite different genetically, but both have regions of genome which change rapidly to make them good pathogens. Bastards.
- The flowering of a new scent pathway in rose. Can we have our nice-smelling roses back now, please?
- AFLP assessment of the genetic diversity of Calotropis procera (Apocynaceae) in the West Africa region (Benin). Not just a weed, used in cheese-making, of all things.
Brainfood: Domestication stats, Apple vulnerability, Himalayan fermentation, Tree diversity, Grasslands double, Shiitake cultivation, Lablab core, Ethiopian sweet potato, Georgian grape
- A domestication assessment of the big five plant families. Half of cultivated plants are legumes, a third grasses.
- The vulnerability of US apple (Malus) genetic resources. Moderate.
- Microorganisms associated with amylolytic starters and traditional fermented alcoholic beverages of north western Himalayas in India. Veritable microbial communities.
- Spatial incongruence among hotspots and complementary areas of tree diversity in southern Africa. It’s not just about the hotspots.
- Integrating Agricultural and Ecological Goals into the Management of Species-Rich Grasslands: Learning from the Flowering Meadows Competition in France. Gotta document the synergies.
- Genetic–geographic correlation revealed across a broad European ecotypic sample of perennial ryegrass (Lolium perenne) using array-based SNP genotyping. Strong structure both with latitude and longitude. Wonder if the Flowering Meadows competition took that into account.
- Interactions of knowledge systems in shiitake mushroom production: a case study on the Noto Peninsula, Japan. Tradition is not always a totally good thing.
- Development of Core Sets of Dolichos Bean (Lablab purpureus L. Sweet) Germplasm. Heuristic is better. But is it PowerCore?
- Genetic Diversity of Local and Introduced Sweet Potato [Ipomoea batatas (L.) Lam.] Collections for Agro-morphology and Physicochemical Attributes in Ethiopia. The improved varieties are not all that great. But there were only two of them. And the local landraces were not necessarily the best.
- Study of genetic variability in Vitis vinifera L. germplasm by high-throughput Vitis18kSNP array: the case of Georgian genetic resources. Some differentiation between wild and cultivated, but significant overlap.
Brainfood: Weed collection, Japan vs China wheat, China wheat, Indian maize, Aromatic rice, African cattle, Food system vulnerabilities, SDGs & nutrition, Suitable days, Setaria phenotyping
- Genetic Resources of Cannabis sativa L. in the Collection of the Gene Bank at INF&MP in Poznan. I’d pay money to see this in the field at evaluation time.
- Specific median flour particle size distribution of Japanese common wheats; Comparison with Chinese common wheats. Japanese diversity is a small fraction of Chinese diversity. Also, can you really have semicolons in titles?
- Association and Validation of Yield-Favored Alleles in Chinese Cultivars of Common Wheat (Triticum aestivum L.). And among Chinese wheats, the modern cultivars are a small subset of the diversity in the mini core collection.
- Diversity among maize landraces in North West Himalayan region of India assessed by agro-morphological and quality traits. I like it when specific accessions are highlighted as being special in some way. But will breeders around the world have access to them?
- Genetic Diversity and Population Structure in Aromatic and Quality Rice (Oryza sativa L.) Landraces from North-Eastern India. More than just basmati. But will breeders around the world have access to them?
- African Indigenous Cattle: Unique Genetic Resources in a Rapidly Changing World. At least 150 breeds, many endangered, all important.
- Sustainable Sourcing of Global Agricultural Raw Materials: Assessing Gaps in Key Impact and Vulnerability Issues and Indicators. We don’t know the vulnerabilities well enough.
- Can the sustainable development goals reduce the burden of nutrition-related non-communicable diseases without truly addressing major food system reforms? No.
- Suitable Days for Plant Growth Disappear under Projected Climate Change: Potential Human and Biotic Vulnerability. Tropical areas are screwed.
- A versatile phenotyping system and analytics platform reveals diverse temporal responses to water availability in Setaria. Fancy equipment picks out differences among genotypes.