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Great Expectations

Nature has a (behind paywall) feature on Five crop researchers who could change the world. Rather than celebrating those who have arrived, Emma Marris highlights the work of five researchers who still have some way to go before reaching the Food Hall of Fame.

These are her picks.

Peter Dodds (CSIRO, Australia) works on the fundamentals of wheat stem rust. He investigates the substances that the rust fungus excretes, and the plant could use to trigger a defense reaction. He hopes to engineer new and more complex resistance, that the rust might not be able to break. Seems particularly relevant in the light of the UG99 scare.

Jerry Glover is a crop perennializer at the Land Institute, in Kansas, USA. The folks at the Land Institute want us to move from annual to perennial crops. That would be better for the soil and would take much less energy (nitrogen) to produce. They are clearly in it for the long run, but here’s a short and palatable piece about it.

Zhang Jinghua (Hong Kong Baptist University) works on deficit irrigation. The theory is that under modest water stress plants shift all their resources to reproduction and hence grain yield can increase. One trick in his book, and that of Australian grape growers, is ‘partial root zone drying’. Some roots are dry, and signal the need to fill the seeds, while other roots can access the water that is needed to keep producing. Water saving is particularly important in increasingly water scarce Northern China.

Richard Sayre, the director of the Institute for Renewable Fuels, Missouri, USA, was selected because he heads the BioCassava Plus collaboration. They are hoping to develop genetically modified cassava of which 500 g contains the daily requirements of protein, vitamin A and E, iron and zinc 1. They have succeeded in transformations for individual traits, now they have to figure out how to artificially transfer 15 genes into a single variety.

Julian Hibberd (U. of Cambridge) studies photosynthesis. He is one of the brains in the C4 rice consortium led by IRRI. They are trying to create rice plants with C4 rather than C3 photosynthesis. C4 photosynthesis is more efficient at high temperature, and it could be the next big thing (after short straw) to radically elevate rice yield potential — “by a whopping 50%” 2, thinks Hibberd. Seems far fetched, but C4-ness has independently evolved in many plant families, so why not another time, with a little help?

An interesting group, but did Nature miss anyone? Perhaps in branches of research less dominated by biotech? Let us know.

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New NUS “entity” launched

Crops for the Future, a new international organisation dedicated to the promotion of neglected and underutilized species, was launched a few days ago.

Crops for the Future has evolved from a union of the International Centre for Underutilised Crops (ICUC) and the Global Facilitation Unit for Underutilized Species (GFU). It will be hosted in Malaysia by Bioversity International in a joint venture with the University of Nottingham, Malaysia Campus.

Best wishes to all concerned!

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Darwin in London

By Jacob van Etten

As the anniversaries of Darwin’s birth year (1809) and his Origin of Species (published in 1859) approach, London’s Natural History Museum has an exhibition on the great man. It takes you through his life and discoveries, paying equal attention to biography and biology. The exhibition opens with two mockingbird specimens, explaining their role in Darwin’s discovery of evolution. The famous finches are there, too, but apparently they played a less important role in the formation of Darwin’s theory. The most impressive part, I found, were the original letters exhibited, including a famous letter from his wife Emma, about religion, at the bottom of which Charles noted that he had cried about it for hours. The exhibition closes with a section on past and present responses to evolution theory.

Of course, I expected some stuff on agrobiodiversity. Darwin wrote a two-volume book on it, after all, The Variation of Animals and Plants under Domestication. Darwin used variation in domesticated animals and plants as a model for what happens in the wild. I wasn’t disappointed. The exhibition mentions dogs, horses and cabbages. It shows specimens of all the races of pigeons Darwin kept around Down House. Knowing Darwin’s hair style, I was surprised to learn that his London barber was an important source of information on domesticated biodiversity.

I’m not the only one who liked the exhibition. The lady at the bookshop said that the responses thus far had been very positive. It is on until 19 April 2009.

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Cocoa from tree to cup

News from both ends of the cacao value chain today. At the upstream end, new molecular marker work on over a thousand genebank accessions reveals that the species is divided into no less than 10 genetic clusters, rather than the conventionally recognized two. These show a clear geographic pattern: they are strung out along an east-west axis in the Amazon, probably reflecting, according to the authors, the location of ancient ridges (“palaeoarches”), which were barriers to dispersal not only for Theobroma but also for various fish groups. Meanwhile, at the downstream end, there’s an account of a visit to a “chocoholic mecca” in Santa Fe.

LATER. And, for the trifecta, news from somewhere around the middle of the value chain.

LATER STILL. What comes after trifecta?