Jan 022015
 
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Friendship and trust at the heart of sorghum research

…benefits to humanity are the real driver of the work.”

Andy1_wAndrew Borrell (pictured) is a man who loves his work – a search for a holy grail of sorts for the grain of his choice  sorghum.

Based at the University of Queensland, Australia, Andrew is co-Principal Investigator with David Jordan for a GCP-funded project developing drought-adapted sorghum for Africa and Australia. And Andrew is passionate not just about the potential of sorghum, but also about the cross-continental relationships that underpin his research team. These friendships, says Andrew, are the glue that hold his team together and make it work better.

The year 2013 was particularly exciting. After almost five years working with African plant breeders to improve genetic material, field trials were up and running at 12 sites across East and West Africa.  Fastforward to 2015 and  glad tidings for the New Year! Andrew and his team now have preliminary evidence that the drought-tolerant ‘stay-green’ trait enhances grain size and yield  in some of the target countries in  Africa for which data have already been analysed.

What Andrew hopes to see is more genetic diversity, not just for diversity’s sake but put to use in farmers’ fields  to enhance yield during drought. This means more food, fodder and other sorghum by-products such as stems for construction. These benefits to humanity are, he says, the real driver of the work his team does.

So what are the wonders of ‘stay-green’? Waxing lyrical…

The sought-after  ‘stay-green’ trait that Andrew and his team are so interested in describes the phenotype – what the plant looks like. It simply means that when drought strikes, sorghum plants with this trait remain leafy and green during the grain-filling period – a critical time when the plant’s water is channelled to developing healthy panicles of grain.

So, what makes these plants remain healthy when others are losing their leaves? Why do they wax while others wane? The answer, says Andrew, is twofold, and is all to do with water supply and demand, and more and less. Firstly, there is some evidence that the roots of the stay-green plants penetrate deeper into the soil, tapping into more water supply. Secondly, plants with the stay-green trait have a smaller leaf canopy which means less water demand by the plant before flowering, leaving more water for grain-filling after flowering.

Staying power and stover are also part of the story. According to Andrew, “Plants with the stay-green trait produce more grain in dry conditions, have stronger stems so they don’t fall over, and often have larger grains. And it’s not just about grain alone: stay-green also improves the quality of the stover left in the field after harvest, which serves as animal feed.”

Another key feature of the stay-green trait in sorghum is that it is not just a fair-weather friend: it works well in wet as well as dry conditions. “All the evidence we’ve got suggests that you get a benefit under tough conditions but very little penalty under good conditions,” says Andrew.

…the process is synergistic and we do something that’s better than any of us could do alone.”

Safari from Down Under to Africa: East and West, and home are all best

For Andrew and his co-Principal Investigator, David Jordan, the GCP project is the first time they have been involved in improving sorghum in Africa. The two scientists work with sorghum improvement teams in six African countries: Mali, Burkina Faso and Niger in the west, and, Ethiopia, Kenya and Sudan in the east. By crossing African and Australian sorghum, the teams have developed the lines now being field-tested  in all the six countries.

A sampling of some of stay-green sorghum partnerships in Africa. (1)  Asfaw Adugna assessing the genetic diversity of  sorghum panicles produced from the GCP collaboration at Melkassa, Ethiopia. (2)  Clarisse Barro-Kondombo (Burkina Faso) and Andrew Borrell (Australia) visiting a lysimeter facility in Hyderabad, India, as part of GCP training. (3) Clement Kamau (Kenya, left) and  Andrew Borrell (Australia, right) visiting the seed store at the Kenya Agricultural Research Institute (KARI) in Katumani, Kenya.

A sampling of some of stay-green sorghum partnerships in Africa. (1) Asfaw Adugna (Ethiopian Agricultural Research Institute) assessing the genetic diversity of sorghum panicles produced from the GCP collaboration at Melkassa, Ethiopia. (2) Clarisse Barro-Kondombo (Institut de l’environnement et de recherches agricoles, Burkina Faso) and Andrew Borrell (Australia) visiting a lysimeter facility at ICRISAT in Hyderabad, India, as part of GCP training. (3) Clement Kamau (Kenya, left) and Andrew Borrell (Australia, right) visiting the seed store at the Kenya Agricultural Research Institute (KARI) in Katumani, Kenya.

According to Andrew, the collaboration with African scientists is “a bit like a group of friends using science to combat hunger. That’s probably been the biggest advantage of GCP,” adds Andrew. “Bringing people together for something we are all passionate about.”

There’s another collaborative element to the project too. As well as improving and testing plant material, the Australian contingent hosts African scientists on three-week training sessions. “We span a whole range of research topics and techniques,” explains Andrew. “We learn a lot from them too – their local expertise on soil, crops and climate. Hopefully the process is synergistic and we do something that’s better than any of us could do alone.”

Andrew says that working personally with plant breeders from Africa has made all the difference to the project. “Once colleagues from overseas come into your country, you develop real friendships. They know your families, they know what you do, and that’s very important in building relationships and trust that make the whole thing work.”

It wasn't all work and there was clearly also time to play, as we can see her., Sidi Coulibaly and Niaba Teme visiting with the Borrell family in Queensland, Australia.

It wasn’t all work and there was clearly also time to play, as we can see here, Sidi Coulibaly and Niaba Teme from Mali visit the Borrell family in Queensland, Australia.

Golden sunsets, iridescent rainbows and perpetual evergreen partnerships

As Andrew and his team wait to see how their field experiments in Africa turn out, they know that this is not the end of the story. In fact, it is only the beginning. Once tested, the germplasm will provide genetic diversity for future breeding programmes in Africa.

And the research collaboration between Australia and Africa won’t end when GCP funding runs out and GCP sunsets. For example, in addition to the GCP project, David Jordan has secured significant funding from the Bill & Melinda Gates Foundation for another four years’ sorghum research in Ethiopia. Plus, Andrew and Kassahun Banttea, a colleague from Jimma University, have also just been awarded a PEARL grant from the Foundation to assess the sorghum germplasm collection in Ethiopia for drought-adaptation traits.

We wish this ‘stay-evergreen’ team well in their current and future ventures. More sorghum ‘stickability’ and staying power to them! May they find the proverbial pot of gold at the end of the rainbow.

This enchanted rainbow-rings-and-sorghum photo is from Andy Borrell, and, contrary to the magical song, please continue under the rainbow for links to more information.

Sorghum rainbow_A Borrello

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Oct 152014
 
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In recognition of the International Day for the Eradication of Poverty, October 17th, we are reflecting on what poverty means, how crop breeding helps eradicate poverty and transform lives, and how we have tried to maximise and measure those impacts.

In the early days of GCP, we were largely on uncharted seas and needed to chart a course to where our efforts would have the greatest impact, a process documented in our Pathways to impact brief No 1: Where in the world do we start? Instead of using a monetary definition of poverty, since this varies so widely between places and contexts, we took a different approach. As an indicator of true poverty, we used data on the number of stunted – ie, severely malnourished – children, overlaying this on maps showing where drought was most likely to occur. Our thinking was clear and simple: poverty + drought = where GCP needed to be.

Whatever else you may think they may lack, these children in Sibi village, Burkina Faso, definitely have verve, and look full of the energy they need to play!

Whatever else you may think they may lack, these children in Sibi village, Burkina Faso, definitely have verve, and look full of the energy they need to play!

A boy plays with an improvised hoop in Lukolela, Democratic Republic of Congo.

A boy plays with an improvised hoop in Lukolela, Democratic Republic of Congo.

Drought routinely reduces harvests, and can be catastrophic. For example, nearly half (40 percent) of Africa’s maize-lands face occasional drought, reducing yields by between 10 and 25 percent, while a quarter suffers frequent drought, with overall losses of up to half the harvest – and total losses for some individual farmers. With climate change making droughts ever more common, drought was a natural priority for GCP from its inception.

Drought-tolerant crops are therefore the most important focus for the breeders of the GCP family, though not an exclusive one. Other key traits our breeders consider include resistance to pests and diseases and nutritional fortification, depending on the crop and location – and of course all varieties should yield well in good years too. Resilient improved varieties are particularly important for the poorest farmers, as they do not usually have access to measures such as irrigation or pesticides to combat environmental menaces. Typically, the poorest farmers also live in the most drought-prone drylands. Helping poor farmers to reap consistently abundant nutritious harvests means more food for their families and often a surplus to sell –reducing child malnourishment, and poverty in general.

A little girl eats fresh roti at home in the district of Dinajpur, Bangladesh.

A little girl eats fresh roti at home in the district of Dinajpur, Bangladesh.

A girl eats rice with her family in the Philippines.

A girl eats rice with her family in the Philippines.

Together we stand

The theme of the International Day for the Eradication of Poverty 2014 is Leave no one behind: think, decide and act together against extreme poverty, and it is one that echoes beautifully with the ethos of GCP. Collaboration and partnership have always been hallmarks of our approach, particularly in terms of empowering researchers in developing countries to implement – and lead – cutting-edge science. You can find a wealth of posts on our blog about our partnerships and the ‘GCP spirit’.

Collaboration is particularly important in crop breeding because one crop is often faced by all kinds of threats at once – a selection from the world’s least tasty smorgasbord of drought, heat, waterlogging pests, diseases, soil infertility, and much more. It is likely to be of no use breeding a super-crop that goes untouched by disease if it turns up its toes after a few dry days, or if no one likes the taste. That means researchers with different areas of expertise need to work together – and with farmers and extensionists too. Read the case for collective action in our Pathways to impact brief No 2: A call for collective action in agricultural research.

Girls help in the fields in Luang Prabang, Laos.

Girls help in the fields in Luang Prabang, Laos.

Eyes dancing with past, present or future mischief, two cheeky young chappies from Mozambique enjoy the sweet taste of orange sweet potato enriched with pro-vitamin A.

Eyes dancing with past, present or future mischief, two cheeky young chappies from Mozambique enjoy the sweet taste of orange sweet potato enriched with pro-vitamin A.

Impact by the numbers

GCP believes that using marker-assisted breeding (a range of efficient crop-breeding approaches that use genetic information to work out which plants have useful traits) to create improved varieties faster and more effectively is worth its extra cost, and has a real impact on farmers’ incomes. This cannot be taken for granted however, so get an introduction to the numerical approach in our Pathways to impact brief No 3: Molecular and conventional breeding through an economic lens. Our study found that women in Nigeria reported increased household incomes from growing improved cassava varieties, but also more time spent on cassava-related tasks – emphasising the need for researchers to be aware of the characteristics farmers – in this case predominantly women – value.

Hard at work, a boy helps to peel a mountain of cassava in Nigeria.

Hard at work, a boy helps to peel a mountain of cassava in Nigeria.

As we mark this year’s International Day for the Eradication of Poverty, we at GCP are proud to be contributing to the eradication of poverty by creating partnerships, expertise, and ultimately crop varieties that promise abundant harvests for the world’s poorest farmers and their families – helping their children grow up big, strong and free from poverty.

At play: children of the Sao Felix community in the Brazilian Amazon.

At play: children of the Sao Felix community in the Brazilian Amazon.

Enjoy the game, but keep off the plants! Boys play football next to maize fields in Khulungira, central Malawi.

Enjoy the game, but keep off the plants! Boys play football next to maize fields in Khulungira, central Malawi.

Nov 282013
 
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The focus of GCP’s work – using genetic diversity and advanced plant science to improve crops for greater food security in the developing world, with a particular focus on drought-prone and harsh environments – seemed to resonate well in the research for development community during 2013, with a number of international events and publications turning the spotlight on drought and its effects on agriculture.

Field under drought duress

In our GCP corner, it all began in March, when GCP Director, Jean-Marcel Ribaut, began the year’s drought discourse with a talk entitled ‘Understanding drought tolerance to best breed for it: how far do we go?’ which he presented at the 49th Annual Illinois Corn Breeders’ School in Champaign, Illinois from 4–5 March.

Interdrought-presentation-JM-Ribaut-web-240

Keynote concentration on crops & drought worldwide: Jean-Marcel Ribaut’s presentation at InterDrought IV

Early September started with a ‘Harvest Festival’ of drought pickings, beginning with the InterDrought IV conference in Perth, Australia, from 2nd to 6th of the month. This conference, in addition to being partly sponsored by GCP, had Jean-Marcel presenting the keynote address, which explored the complexities of climate change on crop productivity, and delved deep into drought – a ‘complex and capricious’ creature, before considering the many facets of breeding for drought tolerance (see it all on SlideShare).

Late September continued the flavour of the month with the publication of a special issue of Nature tackling ‘Agriculture and Drought’. The article entitled ‘Plant Breeding: discovery in a dry spell’ by Michael Eisenstein poses the question: “Improved crops have helped farmers maintain yields in times of drought. But as climate change looms, will the gains keep coming?”  The special issue features, among others, past and present GCP scientists:

Crops coping with cracked earth

  • Arvind Kumar (IRRI) ponders the position of drought-tolerant rice and the effects of recent climate change;
  • François Tardieu (INRA, France) discusses maize yield in drought-prone conditions; he is the author of the chapter Assessing effects of water deficit in GCP’s publication Drought phenotyping in crops: from theory to practice  (an open-access book published in 2011);
  • Rajeev K Varshney (ICRISAT), GCP’s Theme Leader for Genomics until August this year, illustrates the effects of molecular breeding on legumes, in particular marker-assisted selection and quantitative trait loci for drought-tolerance related traits;
  • Jose Luis Araus Ortega (University of Barcelona, Spain), digs into the disparity between people with biotech and field experience in the area;  (he is co-author of the chapter Phenotyping maize for adaptation to drought in GCP’s phenotyping publication);
  • GCP itself is mentioned in the article as an example of a project which helps build local capacity in the developing world in order to maximise on advances in crop technology.
Richard Trethowan delivers on drought at the GCP GRM 2013

Richard Trethowan delivers on drought at the GCP GRM 2013

Just one day after the publication of the Agriculture & Drought special issue mentioned above, GCP’s General Research Meeting began, running from 27–30 September in Lisbon, Portugal. The focus of this year’s meeting was also on drought from day 1: setting the tone was the keynote address by GCP’s Product Delivery Coordinator for wheat, Richard Trethowan (University of Sydney, Australia) entitled Delivering drought tolerance to those who need it; from genetic resource to cultivar. More on GRM13

Drought phenotyping in crops: from theory to practice

The original GCP drought phenotyping publication

In keeping with the drought theme, we had on offer to GRM participants our 2011 open access book, Drought phenotyping in crops: from theory to practice. We also shared copies of chapters which had been republished by Frontiers. Republishing this work gave contributing authors an opportunity to refresh and update their findings, and to bring state-of-the-art research in phenotyping to the public once more via open access publishing, with each author moving at their own pace. Republished chapters will be compiled into an open-access e-book coming soon.

The closing chapter to this current chronicle on drought dialogues is a success story, by GCP Principal Investigators, Emmanuel Okogbenin (NRCRI, Nigeria), Chiedozie Egesi (NRCRI, Nigeria), and collaborator Martin Fregene (Donald Danforth Plant Science Center), which appears in a new FAO book, Biotechnologies at Work for Smallholders: Case Studies from Developing Countries in Crops, Livestock and Fish. The team’s GCP work on cassava is in chapter 2.4, entitled Molecular markers and tissue culture: technologies transcending continental barriers to add value and improve productivity of cassava in Africa, which describes the many hurdles they have successfully overcome to breed high-yield, disease-resistant, drought-tolerant cassava for breeding programmes in Nigeria. Going beyond drought, the chapter dwells on disease and other drawbacks – aspects also touched upon in this lively profile of Chiedozie Egesi. For in a narrative high and heavy on the devastation of drought and disease, it’s important not to lose sight of the gains, and also important to celebrate the good news despite the bad.

Cassava leaf waving woes away

Our balanced but upbeat cassava tale today has deep roots in the past. Check this out in these links:

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