- Are species’ range limits simply niche limits writ large? A review of transplant experiments beyond the range. Meta-analysis shows dispersal constrains geographic distribution but extends altitudinal. Biotic interactions important at low elevations and latitudes.
- Herbivores and nutrients control grassland plant diversity via light limitation. Nutrients bad, herbivores good for grassland diversity.
- Economic and ecological implications of geographic bias in pollinator ecology in the light of pollinator declines. Half the data come from 5 countries. Nuff said.
- Integrated crop and livestock systems in Western Europe and South America: A review. Market logic has driven crops and livestock apart, but it should drive them back together again.
- ARABIDOPSIS THALIANA HOMEOBOX25 Uncovers a Role for Gibberellins in Seed Longevity. Seed longevity gene found. No word on whether giberellin treatment can prolong seed life in genebanks. Yet.
- Molecular-level and trait-level differentiation between the cultivated apple (Malus×domestica Borkh.) and its main progenitor Malus sieversii. Status of M. sieversii as main progenitor confirmed. Always good to have more data.
- Adaptation of Cultivated Amaranth (Amaranthus spp.) and Their Wild Relatives in Mexico. One of the wild species could be a source of adaptation for the cultivated under climate change.
- Eat your orchid and have it too: a potentially new conservation formula for Chinese epiphytic medicinal orchids. Nature reserves and cultivation on farms not enough. What you need is “restoration-friendly cultivation.”
- A continental-scale study of seed lifespan in experimental storage examining seed, plant, and environmental traits associated with longevity. Australian seeds are somewhat longer-lived than those from other regions. But there’s plenty of variation, some of which can be explained by different features of the seeds, plants and the specific environment where they grow.
- Inclusive fitness in agriculture. Plants and their root symbionts can get along even better together, with a little help from human selection.
- Genetic diversity analysis for quantitative traits in lentil (Lens culinaris medik.) germplasm. NBPGR seem to be on an evaluation blitz. More power to them. Hope to see the data online soon.
Nibbles: Coffee rust, Wheat blast, Livestock yield gap, Livestock adaptation, Extension, Med diet, Organic < conventional, Douglas fir breeding, Best moustache in cryo, Fortifying rice
- Coffee rust is doing a number on livelihoods in Central America.
- Wheat blast could do the same in South America.
- ILRI DG on smallholder livestock producers: one-third don’t have the conditions in which to be viable, one-third can go either way and one–third can be successful. I suppose all of them are going to need adaptation options.
- Not to mention extension services.
- Meanwhile, bureaucrats busy protecting the Mediterranean diet.
- The inevitable productivity penalty of organic.”
- Douglas fir ready for its genomic closeup.
- Cryopreservation update, with video goodness.
- Lots of ways to skin the malnutrition cat: zinc and rice.
South Pacific genebank overture, take 2
For those of you who were disappointed by the strange ending to that video about the Centre for Pacific Crops and Trees at SPC in Fiji, the full version is now up.
Brainfood: Grasspea genomics, Eggplant genomics, Snakegourd hybrids, Bean drought resistance, Wild pear diversity, CNN 51 deconstructed, Sicilian grape diversity, Cash in the Usambaras, Kenyan sorghum diversity, Chinese sesame diversity, Chinese millet breeding
- Large-scale microsatellite development in grasspea (Lathyrus sativus L.), an orphan legume of the arid areas. Let the Grasspea Revolution begin.
- High resolution map of eggplant (Solanum melongena) reveals extensive chromosome rearrangement in domesticated members of the Solanaceae. Let the Eggplant Revolution begin.
- Genetic variability in snakegourd (Tricosanthes cucurminata). The Hybrid Snakegourd Revolution is one I’d really like to see.
- Differentially Expressed Genes during Flowering and Grain Filling in Common Bean (Phaseolus vulgaris) Grown under Drought Stress Conditions. We know the drought resistance genes.
- Chloroplast DNA-based genetic diversity and phylogeography of Pyrus betulaefolia (Rosaceae) in Northern China. 3 particularly diverse populations, probably refugia, plus 3 others, identified for conservation.
- Genetic Characterization of the Cacao Cultivar CCN 51: Its Impact and Significance on Global Cacao Improvement and Production. It’s high yielding, resistant to lots of stuff, variable, and an important breeding resource. But it tastes like shit.
- Genotyping of Sicilian grapevine germplasm resources (V. vinifera L.) and their relationships with Sangiovese. Wait, Sangiovese was originally from Sicily?
- Allanblackia, butterflies and cardamom: sustaining livelihoods alongside biodiversity conservation on the forest–agroforestry interface in the East Usambara Mountains, Tanzania. My money is on the butterflies.
- Influence of Ethnolinguistic Diversity on the Sorghum Genetic Patterns in Subsistence Farming Systems in Eastern Kenya. Pattern of sorghum diversity correlates with language groups, not morphology. Improved varieties get given local names and slowly merge with landraces.
- Genetic analysis and molecular characterization of Chinese sesame (Sesamum indicum L.) cultivars using Insertion-Deletion (InDel) and Simple Sequence Repeat (SSR) markers. Improved varieties have narrower genetic base than landraces. Move along there, nothing to see here.
- Innovation of the New Superior Quality Foxtail Millet [Setaria italica (L.) P.Beauv] Variety-Jigu32 with Characteristics of Stress Resistance, Stable and High Yield and Its Physiological Mechanism. This looks like a really dodgy journal. Apologies to them if they’re not, but those ads at the bottom are weird. Anyway, this paper seems to describe the canonical genebank success story: assemble a diverse germplasm collection, evaluate the hell out of it, pick the best, fiddle with them, evaluate the hell out of the results, end up with something better than you started with. Maybe those sesame breeders could learn something…
For the well-being of one and all on the planet Earth
The four largest national collections in the world are located in the USA, Russia, India and China. The National Plant Germplasm System (NPGS) in the USA and the N.I. Vavilov All-Russian Scientific Research Institute of Plant Industry (VIR) in Russia are both in the process of backing-up their collections at Svalbard, while the National Bureau of Plant Genetic Resources (NBPGR) in India has signed the SDA, but has not yet started safety duplication. The Institute of Crop Germplasm Resources (ICGR-CAAS) in China is not participating so far. Out of the five other national institutions with more than 100,000 accessions in storage, the national genebank in Japan is not currently a depositor, whereas the national genebanks in Brazil, Canada, Germany and the Republic of Korea have all deposited seeds at Svalbard. The most significant origin country gap is India… However, safety duplication of the Indian collections is expected in the future…
That’s from a recent PLOS paper “Global Ex-Situ Crop Diversity Conservation and the Svalbard Global Seed Vault: Assessing the Current Status.” And it’s out of date, because the future is now. Though it may be a small step, it’s a significant step, and the message on the box, from which we take our title, says it all.
