Nov 302012
 
Photo: IRRI

Sigrid Heuer

Meet Sigrid Heuer (pictured), a Molecular Biologist and Senior Scientist at the International Rice Research Institute (IRRI). Her lively and riveting story will take us from Africa through her native Europe and on to Asia, and finally Down Under to Australia.

Origins – the African chapter
Africa holds a special and soft spot in Sigrid’s love affair with science: it was while on this continent that she realised her calling in life as a scientist – linking people doing pure research on plant genes to help plants survive and even thrive in harsh environments, with people who want to apply that knowledge to breed crops that can change the lives of millions of farmers who constantly compromise with nature to make a living.

Photo: IRRI

Fieldwork: Sigrid at a field trial for rice phosphorus uptake.

“Working as a postdoc at the Africa Rice Center in Senegal was a real life-changing experience,” Sigrid recollects with great fondness. “It’s where I found my niche, using my background in theoretical science and applying it to developing crops that could overcome abiotic stresses, and in doing so, make a real impact on people’s lives.”

Rowing further down the river: from upstream to downstream science
Sigrid was born and raised in Hamburg, Germany. She remembers wanting to be a psychologist and didn’t consider science until a few years after finishing school. After completing a biology undergraduate at Phillips University, Marburg, Germany, she returned to her home city of Hamburg to complete a Masters and PhD in plant physiology and molecular biology respectively.

“Back then, I was really involved in upstream science, fascinated in the fine details without much consideration of how such research could benefit society,” says Sigrid. “I still enjoy this form of science and really do value its purpose, but putting it into practice and focusing on the impact that it can have is what really motivates me now.”

Moving to IRRI, and meeting Pup1 and GCP
After three years in Senegal, Sigrid moved to the Philippines to join IRRI in 2003, first as a consultant then as a part-time scientist. In these early years, she was working on several projects, one of which was the GCP-funded Pup1 (rice phosphorus uptake) project.

“The project sought to identify the genes associated with phosphorus uptake in rice lines that could tolerate phosphorus-deficient soils,” says Sigrid. “It was an interesting project in which I was able to use my background in molecular biology. Little by little, I got more and more involved in the Pup1 project and after a year I was asked by Matthias Wissuwa, who was leading the project at the time, if I wanted to take it over. It was a great opportunity which I jumped at, not knowing then how challenging it would prove.”

Pup1 was the first major project I had managed. It was a playground of sorts that allowed me to learn what I needed to know about managing a project – writing proposals and reports, managing budgets and people’s time, and everything else that comes with leading a team.

The ‘root’ and  ‘command post’ where it all happens: Sigrid in the office. For the benefit of our readers, we would have credited the young artist whose colourful work graces the background below the bookshelf, but we were too polite to pry and prise out the young talent’s name, having hogged too much of Sigrid’s time already!

Learning to lead – both work and play

Over the last seven years, Sigrid has been a Principal Investigator and joint leader of the project, which has given her latitude to mature professionally, and not just in science alone. “It’s been tough but personally fulfilling,” Sigrid says, with just a touch of exhaustion.

Pup1 was the first major project I had managed. It was a playground of sorts that allowed me to learn what I needed to know about managing a project – writing proposals and reports, managing budgets and people’s time, and everything else that comes with leading a team. I was really lucky to have Matthias’ help as well as the other experienced collaborators and networks. However, the main factor that made my job a lot less stressful, was the benefit of long-term funding and support from GCP. GCP was always there, supporting us and giving us confidence even when we weren’t sure we were going to succeed.”

Persistence pays: tangible products, plus publication in Nature
In August 2012, Sigrid and her team achieved what they had set out to do seven years ago, through what Sigrid puts down to sheer persistence: their discovery of the Pup1 gene was recognised by their scientific peers and published in the highly renowned journal,  Nature.

Sigrid (3rd left) at the lab with other colleagues in the phosphorus uptake team.

“Having our paper published is really something special and personally my greatest achievement to date,” says Sigrid, but she is also quick to add that it was a team achievement, and that the achievement was in itself humbling.

“It was a double reward for persisting with the research, and with getting it into Nature. We wanted it in Nature for several reasons. To raise awareness on phosphorus deficiency and phosphorus being a limited resource, especially in poorer countries; and to draw attention to how we do molecular breeding these days, which is a speedier, easier and cost-effective approach to developing crops that have the potential to alleviate such problems.”

Sigrid hopes the article will have a lasting impression on readers, and encourage funders to continue to support projects that have such impact on the lives of end-users.

What next? Technology transfer, transitions and torch smoothly passing on…
With the Pup1 gene now found, IRRI researchers are working with breeders from country-based breeding programmes around the world to help them understand the techniques to breed local varieties of rice that can grow in phosphorus-deficient soils. They are also collaborating with other projects that wish to use the Pup1 project as a case study for phosphorous deficiency tolerance in other crops like maize, sorghum, and wheat (see an example here, that includes partners from Africa and Latin America).

Sigrid sees this next stage as a perfect time to step down from the project: she plans to move to Adelaide, Australia at the end of 2012 to lead a new project that is looking at drought and nitrogen deficiency tolerance in wheat.

“Matthias passed the baton on to me, and now I get to pass the baton on to someone else, so it’s nice. And I’ll be sure to always be around to help them too.”

Links

Sigrid’s presentation at the GCP General Research Meeting 2011

 

 

Jul 082012
 

SDC and GCP

Today, we catch up with SDC’s Carmen Thönnissen (pictured). She walks us through the whys of Switzerland’s continued funding to GCP that has spanned nearly the Programme’s entire lifetime.

We were …drawn to GCP’s upstream–downstream connections, and its pre-conceived product delivery path. GCP produces global public goods, with a clear focus on strategic research for development, while also addressing important upstream research elements in crop science such as gene discovery and marker validation. In addition, GCP already had a Product Delivery Strategy to guarantee downstream application.

The way GCP uses and ‘bundles’ resources within and beyond CGIAR, then as now, is attractive to us as a meaningful approach, promising good value for money.”

GCP’s work is very results-oriented and pragmatic, forging partnerships followed by concrete actions to address bottlenecks in research for development in molecular crop breeding, without ruling out conventional breeding.

Carmen Thönnissen is Senior Advisor, Federal Department of Foreign Affairs, Swiss Agency for Development and Cooperation (SDC), Corporate Domain Global Cooperation of the Global Programme for Food Security. Through the years, SDC has been a consistent GCP funder. Today, Carmen gives us some insights into this longstanding relationship.

Tell us briefly about SDC and its funding to GCP
SDC is the Swiss Agency for Development and Cooperation, affiliated to the Ministry of Foreign Affairs of the Swiss Government.

We’ve funded GCP since 2006 with an annual contribution of 450,000 Swiss francs – a total of 1.9 million so far.

SDC provides GCP core unrestricted funds at Programme level, meaning that SDC does not tie its funding to specific GCP projects, giving GCP discretion over these funds.

Why does SDC support GCP?
We share a long history with GCP, going as far back as the Programme’s ‘pre-birth’.

Starting in 2001, CGIAR adopted a more programmatic systemwide approach and endorsed the concept of Challenge Programmes. Between 2002 and 2005, SDC actively supported this process and the emerging Challenge Programmes.

In 2005, SDC reviewed its support to CGIAR and identified SDC priority regions, research priorities, and guiding principles for its unrestricted funding to the CGIAR system.

From this review, SDC decided to invest 30 percent of its core unrestricted funds to several CGIAR Systemwide and Challenge Programmes, one being GCP.

The Challenge Programmes were perceived as results-oriented, poverty-relevant and responsive to the CGIAR reform process of that time. They were also partnership-oriented, with transparent communication strategies.

Several points convinced SDC to invest in GCP, and I’ll mention just some of these. One was GCP’s focus on crops in marginal areas and on drought tolerance in sub-Saharan Africa, and South and Southeast Asia. These overlap with SDC’s own thematic and geographical priorities.

We were also drawn to GCP’s upstream–downstream connections, and its pre-conceived product delivery path. GCP produces global public goods, with a clear focus on strategic research for development, while also addressing important upstream research elements in crop science such as gene discovery and marker validation. In addition, GCP already had a Product Delivery Strategy to guarantee downstream application.

The way GCP uses and ‘bundles’ resources within and beyond CGIAR, then as now, is attractive to us as a meaningful approach, promising good value for money. Back then, SDC was interested in the exploration of plant diversity and the application of advanced genomics and comparative biology to advance breeding of the main staple crops grown by resource-poor farmers, which was the very objective of GCP.

Our funds were intended to be used to increase the exploratory implementation of new research tools in applied breeding programmes to produce improved drought-tolerant crop varieties.

We liked GCP’s structured approach of a Global Access Policy backed by guidelines on public–private sector partnerships and addressing intellectual property.

We also found the ‘suite approach’ proposed by GCP attractive, since at that time, very little was being done in these fields by CGIAR. We were drawn to the mix of a research component – on the impact of modern and integrated breeding approaches on productivity in developing countries, plus a service component aiming to disseminate knowledge, resources and technology, alongside lab services and capacity building.

GCP’s work is very results-oriented and pragmatic, forging partnerships followed by concrete actions to address bottlenecks in research for development in molecular crop breeding, without ruling out conventional breeding.

You mentioned common SDC–GCP thematic and geographic scope. Are there other areas where the missions of SDC and GCP overlap?
SDC has a focus on genetic resource improvement, and also supported the CGIAR Systemwide Programme on Genetic Resources, as well as the Global Crop Diversity Trust.

Supporting GCP is in line with SDC’s internal guidelines on Green Biotechnology. Among other things, we avoid single-donor initiatives, instead working within larger programmes that not only have a clear focus but also aim to strengthen developing-country capacity.

GCP’s work is very results-oriented and pragmatic. GCP plays a strong facilitating role in forging partnerships, which is followed by concrete actions, services, tools, methods, and so on, to address the bottlenecks identified by the research-for-development network with the aim of supporting molecular crop breeding for various crops, regions and partners, without ruling out conventional breeding.

SDC shares the view that Green Biotechnology, including genetic modification, can never fully replace conventional breeding, but it can be an important tool in improving plant-breeding programmes.

What outcomes are you expecting from this support?
To mention just a few, improved accessibility to modern breeding tools, methods and approaches for the developing world, plus enhanced capacity for developing-world partners on using these tools, as well as them knowing their rights and obligations regarding access to, and use of, plant genetic resources and related tools.

We also hope to see improved services for breeders, including learning materials and information on new resources for crop breeding. The long-term outcome we’d like to see is improved crop varieties, more resistant to abiotic and biotic stresses.

What are some of the lessons learnt from investing in GCP?
The importance of a strong programmatic orientation and the role of an honest broker in effective partnerships: GCP plays the role of enabler and facilitator, while its research partners are the actors.

Investing in GCP enables us to project a clear flow from upstream to applied research – with capacity building included – in the critical areas of food security and climate change.

Relevant links

Policies 

Blogposts

Jul 042012
 

The GCP community, its labours and joys

If tools and resources are not put to use, then we labour in vain...GCP contributes to food security by providing breeders with integrated tools, techniques and services to speed up the selection cycle, be this by conventional or molecular breeding. GCP focuses on developing new materials and new techniques and delivering these, and the appropriate breeding tools, technologies and services, to breeders. I think GCP has been one of the most successful builders of research and development partnerships.

The Board’s focus is now on auditing the Programme, and mapping a strategy to sustain its successful partnerships and systems, so that these can continue to deliver products and capacity to the developing world.”

Seatbelts on please! Time to take a tour with Andrew, for an ‘aerial’ view of GCP from the very  ‘top’.

Please meet Andrew Bennett (pictured), the Chair of GCP’s Executive Board. Among other responsibilities, he is also President of the Tropical Agricultural Association, UK, chairs the SciDev.Net Board, and previously chaired the CIFOR Board. He was formerly Executive Director of the Syngenta Foundation and Director of Rural Livelihoods and Environment at the Department for International Development (DFID, UK) where he was responsible for professional advice on policy and programmes on livelihoods, natural resources, environment, sustainable development and research. Andrew has worked on development programmes in Africa, Asia, Latin America, the Pacific and the Caribbean.

Today, Andrew shares his perspectives on GCP’s work, its impact, the challenges, the community GCP has built, and the role of the Board. Please read on…

When was the GCP Board established, and what is its profile and role?
The Board was set up in mid-2008 towards the end of the first phase of the Programme. A review recommended that there be a fully independent Board, comprising people who had no conflict of interest with the Programme to facilitate decision-making.

Board members have between them a wide variety of skills and backgrounds, ranging from expertise in molecular biology to development assistance, socioeconomics, academia, finance, governance and change management.

We are committed to the role that can be played by science in development, and to the Programme. We have offered advice and helped the Programme’s Consortium Committee and management refocus the Programme. By all accounts, they seem happy with how things have evolved.

Because GCP is hosted by CIMMYT, the Board does not have to deal with any policy issues. That is the responsibility of the Consortium Committee. Our role is more to provide advice and to help with decision-making and implementation, which is great as we’ve been able to focus on the Programme’s science and people.

How long have you been involved with GCP?
Since the Board was established in 2008.

What does the GCP tagline – ‘Partnerships in modern crop breeding for food security’ – mean for you?
It means that all our undertakings are geared towards producing crop varieties that are tolerant to a range of environments, as well as being socially acceptable and appealing to farmers and markets.

How do you upgrade the planting material farmers have by fortifying it to combat the biotic and abiotic stresses? Half the challenge is breeding and selecting good material, and the other half is ensuring delivery of tools to breeders and new planting materials to farmers.

So GCP focuses on developing new materials and new techniques and delivering these, and the appropriate breeding tools, technologies and services, to breeders.

Why is GCP’s work important, and what does it mean for food security?
People who are food-secure have access to adequate food at all times to maintain healthy active lives. There are two sides to making this happen – access and availability.

GCP is increasing the number of varieties and lines tolerant to the conditions farmers are facing. What we cannot do is put money in the hands of poor people. If we supply people with the means to produce sustainable and healthy crops, they will have the means to produce food for themselves, and a means of making an income.

GCP contributes to food security by providing breeders with integrated tools, techniques and services to speed up the selection cycle, be this by conventional or molecular breeding.

For you, what have been the major outcomes of GCP so far?
GCP has shown that it is possible to form very productive partnerships across CGIAR institutes and advanced research establishments and those countries that have less scientific capacity. I think it has been one of the most successful builders of research and development partnerships. GCP has also shown public researchers can work very well with the private sector. The public sector has the means to build a lot of capacity.

I think GCP has demonstrated that it is possible to establish molecular breeding programmes in those parts of the world that do not have well-developed scientific infrastructure.

Just a little bit of money – relatively speaking of course – clear vision, and good leadership, can go very far, and produce tremendous benefits and progress.

GCP has also identified the constraints that we have to work within – the challenge of phenotyping and restrictions on the movement of genetic material to other parts of the world. GCP has paid particular attention to intellectual property [IP] because the information and materials GCP produces must remain in the public domain. IP in the international arena within which the Programme operates must span potentially conflicting national legislation regimes. It is a very complex area.

‘Challenge’ is in GCP’s name. What are the major challenges that the Programme has so far overcome?
Quite a number and more could be on the horizon. GCP has overcome some of these challenges. They include the problem of poor-quality phenotyping. This has been addressed through a comprehensive capacity-building programme, including laboratory and field infrastructure, and the training of research support staff in the developing-country field sites where GCP projects are being implemented.

Another challenge was focusing the Programme. At the start, the Programme was spread too thin, spanning too many crops and partners, but these have been progressively narrowed down in Phase II.

This narrowing is no mean feat in the public sector. In the private sector, you start with, say, a hundred projects, then after six months you halve them. After a year, you are down to 10 projects and you put all your resources into making those 10 ‘winners’ work. In the public sector, you keep the entire hundred going for three years, then you look for funding to keep them all running for another cycle. It’s a different culture: the private sector is product-oriented, while some aspects of the public sector emphasise contributing to the growth of knowledge and information, and to building or maintaining relationships, without necessarily asking about their usefulness and benefits to society.

The Board’s focus is now on auditing the Programme and mapping a strategy to sustain its successful partnerships and systems, so that these can continue to deliver products and capacity to the developing world.”

What are the future challenges that the Programme must overcome to remain sustainable?
There are many GCP activities that can be integrated into the new CGIAR Research Programmes. However, there may be other activities such as capacity building and IP management which – at this point in time – appear somewhat less easy to integrate into the new CGIAR Research Programmes.

There is also a danger – not unique to GCP but with all aid-assisted programmes – that when the money ends, everything will disappear into the archives. We have to make sure that doesn’t happen in this instance.

The Board’s focus is now on auditing the Programme and mapping a strategy to sustain its successful partnerships and systems, so that these can continue to deliver products and capacity to the developing world.

What are some of the lessons learnt so far?
GCP was born at a time when we thought molecular biology could solve all our problems quickly and efficiently. What I think we are finding is that molecular tools –while extremely useful – cannot entirely replace understanding the agronomy and phenotypic activities. Molecular biology alone is not a panacea or silver bullet for crop breeding; but it is a valuable tool.

Then there is capacity building: molecular breeding is a tool that you can only use if you have the capacity. Many parts of the world will require a lot of capacity building and support to be able to use the tools. GCP and its Integrated Breeding Platform can make a modest contribution to meeting this need through the proof-of-concept GCP Research Initiatives for selected crops and countries and establishing communities of practice.

If tools and resources are not put to use, then we labour in vain.

What has been the most enjoyable aspect of your position with GCP?
Without a doubt, attending the General Research Meetings has been the most enjoyable, meeting scientists from a wide range of institutes, backgrounds and countries.

These scientists come together because they share the same interests and a common goal. There’s a lively buzz of conversation. It is good to hear about what they are doing, what their aspirations are, and to learn from the knowledge and posters they bring to the meeting.

You don’t have to be a cutting-edge scientist to listen to these people whose enthusiasm is palpable. They are passionate, have a strong sense of community, enjoy what they are doing, and are just as keen to share this knowledge and enthusiasm. It’s all highly infectious!

Relevant links

Jul 012012
 

A shared vision

What is GCP all about and why is its work important? Why was GCP created? Read recollections from key people involved in GCP’s conceptualisation, and find out how realisation of the shared vision continues today. Featuring candid conversations with Masa Iwanaga, former Director General, CIMMYT; Dave Hoisington, Consortium Committee Chair; Andrew Bennett, Executive Board member; and Jean-Marcel Ribaut, GCP Director.

When was the last time you went to your local shop to buy something only to be told they’ve run out of it? How did you react? Like most of us, did you question how they could have run out – after all, isn’t it their business to adequately supply the demand?

Most likely you just went to another store. But what if there wasn’t another store around that had your product, or worse, there was actually a national shortage of your product? This is the reality that faces not just those after the latest iPad, but billions of people who just want something, anything, to eat.

With less productive land on which to grow crops, a more variable climate and more extreme weather events, farmers across all continents are struggling to produce crops, let alone increase yields to meet an ever-growing demand.

This scenario has continually raised its ugly head over the last 200 years as the world’s population has grown exponentially and shifted to urban surroundings. If not for the Green Revolution, inspired by the late Norman Borlaug’s agricultural development research within the Office of Special Studies in Mexico (now the International Maize and Wheat Improvement Center, more commonly known as CIMMYT, its Spanish acronym), the world population would have already suffered losses into the billions.

Even so, food insecurity is still recognised as a global challenge by the UN’s Food and Agriculture Organization (FAO). While there is debate over the cause for such insecurity, the advances of agricultural technology born from a Mexican-flavoured research programme are once again coming to the fore to meet the challenge.

Genebanks are not limited to conservation but are also a source of new alleles for crop improvement.

The genies in the genebank
Seedbank collections serve as insurance against unanticipated future threats to food security, the degradation of our environment and the loss of plant biodiversity.

But that is not all: the banks are not limited to conservation but are also a source of new alleles for crop improvement. The temperature-controlled CGIAR genebanks are a veritable treasure trove for plant breeding. Over the past four decades, their curators have scoured the planet, collecting, categorising and conserving more than 650,000 samples of crop, forage and agroforestry genetic resources, held in trust on behalf of humanity.

One such temperature-controlled genebank is located just outside the sweltering Mexico City: the CIMMYT genebank holds more than 150,000 unique samples of wheat and its relatives from more than 100 countries – said to be the largest collection of a single crop.

While genebank ‘stocks’ have always been open to plant breeders, it wasn’t until 2002 that CGIAR researchers embarked on a more structured and systematic approach using modern technologies to tap their breeding potential, thereby elevating the genebanks beyond their traditional collection and conservation role. Prior to that, far-sighted individual pioneering researchers had been studying (termed ‘screening’ in breeder-speak) the stocks for solutions to breeding problems and to improve crops, but the turning point for a concerted ‘institutional’ effort, would come in the early noughties.

By studying the genes of wild versions of, let’s say, wheat, researchers can find genes that could help cultivated wheat to better battle drought.

The dawn of a new generation
One of these researchers was Dave Hoisington (pictured), then with CIMMYT, and now Chair of GCP’s Consortium Committee, and ICRISAT’s Director of Research. Dave worked with the then newly appointed CIMMYT Director General, Masa Iwanaga, and helped draft a joint proposal with other institutes to CGIAR to form a Challenge Programme that could use the recent advances in molecular biology to harness their rich global stocks of crop genetic resources to create and provide a new generation of plants to meet farmers’ needs. This successfully gave rise to the CGIAR Generation Challenge Programme.

“GCP’s first task was to go in and identify the genetic wealth held within the CGIAR banks,” says Dave.

“To do this, we wanted to use the most recent molecular tools, like molecular markers, to help scan the genomes and discover genes in species related to crops of interest that could help increase yield.”

Let’s use an analogy from a familiar medium – text: think of this story you are now reading as the plant’s genome, its words as its genes and a molecular marker as a text highlighter. You can use different markers to highlight different keywords in this story. Once you can see these keywords, you can then study them in more detail, and, in the case of genes, see what they control in the plant, and how they affect its different aspects.

Photo: JIRCASBy studying the genes of wild versions of, let’s say, wheat, researchers can find genes that could help cultivated wheat to better battle drought.

“At that time, we recognised that a Centre like CIMMYT could no longer undertake this tremendously complex task on its own,” recounts Masa (pictured).”We needed to work within a programme that could concentrate on the task and that rallied together various CGIAR Centres as well as research institutes outside CGIAR, especially in developing countries.”

Partnerships with spirit
Partnerships have always been a key ingredient to success. At the same time, they have led to the downfall of many projects.

Back in the early noughties, CGIAR recognised their business model and research system were not actively fostering partnerships between their different research Centres as much as they should have been, nor were they vigorously encouraging Centres to seek collaboration outside CGIAR.

This was one of the fundamental reasons for establishing the Challenge Programmes, says Jean-Marcel Ribaut (pictured), who, in his role as GCP Director, has been credited by the Board and Committee for the significant time he has taken to broker, nurture and manage GCP’s partnerships.

“One of our major outputs has been the human assets,” says Jean-Marcel with great pride. “We have created this amazing chain of people from the lab to the field.”

In fact, GCPs greatest asset – its ‘crown jewel’ – is its network of people and the capacity the Programme provides them with to buttress all the hard work, particularly in countries where the end products (crops) will be of most benefit.

…the GCP Spirit’ … is visible and palpable: you can recognise people working with us have a spirit that is typical of the Programme.”

“To make a difference in rural development, to truly contribute to improved food security through crop improvement and income for poor farmers, we knew we had to build capacity in these areas,” observes Jean-Marcel.

“I see our management style as fairly ‘paternal’, in the positive sense of wanting to see these groups of people succeed, and us helping them to do so. If a research site needs a pump for fieldwork, we work with a local or international consultant who will visit the partner and evaluate their needs, advise them on what type of pump they need, as well as other infrastructure they’ll need for the whole system to be sustainable. We’ll then provide training on how to use the pump most effectively. It’s an investment in the people as much as in the products they are working on because we are trying to change the system of how science within partnerships is conducted and supported, as much as we are trying tap genetic diversity and breed resilient crops for the developing world.”

We were attracted to GCP because of its strong facilitating role, which offered considerable support to addressing the bottlenecks associated with research programmes that researchers and CGIAR identified.”

This support and change have been major selling points for potential partners who have resonated with what Jean-Marcel calls ‘the GCP Spirit’ – partners open to sharing their skills, tools and knowledge, willing to sacrifice their views and leadership and, most importantly, support one another.

“It is visible and palpable: you can recognise people working with us have a spirit that is typical of the Programme,” says Jean-Marcel.

Funders like the Swiss Agency for Development and Cooperation (SDC) are attracted to, and impressed by, GCP’s approach as an honest and impartial ‘broker’.

“We were attracted to GCP because of its strong facilitating role, which offered considerable support to addressing the bottlenecks associated with research programmes that researchers and CGIAR identified,” says Carmen Thönnissen (pictured), Senior Advisor at SDC.

“GCP is also in line with SDC’s internal guidelines on Green Biotechnology, where it is our aim not to support single-donor initiatives but to work in larger programmes that have a clear focus on strengthening the national partner capacities too.”

At the beginning, most project leaders were from developed nations and CGIAR Centres. … now more than half of our projects are led by scientists in developing countries.”

A structured revolution within an evolution: aiming for products and sustainable change
GCP was designed in two phases over its 10-year life. The first was about the research and using genetic plant breeding techniques. The second and current phase focuses more on accessing modern breeding technologies and building capacity in developing countries to do the research for themselves.

Within nine years, GCP has produced useful tools and products from its studies of genetic resources.
These products have contributed to advancing knowledge, and will continue to do so into the future, particularly in plant breeding.

“At the very beginning, most project leaders were from established universities and institutes  in developed nations, and CGIAR Centres. However, over time there has been a major shift and now we are proud that more than half of our projects are led by scientists in developing countries,” says Jean-Marcel. “They’ve moved from the position of implementers to the role of leaders, while the CGIAR Centres and institutes in developed countries have evolved more into mentors and teachers. We hope this empowerment will allow national programmes to grow and establish themselves to be sustainable when the funding dries up.”

Challenges within the Challenge Programme
All this talk about spirit, collaboration and partnerships does make it sound as if GCP has found the winning formula, but Jean-Marcel is quick to counter such notions, and there have been constant course corrections in charting the Programme’s path. “If anything, our strength comes from recognising our weaknesses, acknowledging that we don’t have it all worked out, and embracing change where it is needed.”

A mid-term external review was conducted in 2008 to audit the Programme’s weaknesses, strengths and lessons learnt from both. This review resulted in some governance reforming, bringing about the Consortium Committee and an independent Executive Board.

“It’s a major improvement that we have an independent Board, allowing for focus, and without any conflict of interest. I think they are doing a great job,” says Jean-Marcel. “They are monitoring and evaluating what we are doing, providing plenty of feedback and ideas on how to move forward, and contributing a lot to the success of the Programme.”

The Board’s focus now turns to auditing the Programme and mapping a strategy to sustain its successful partnerships and systems, so they can continue to deliver products and capacity to the developing world.

Bird’s eye view from the Board
With more than 45 years of experience in international development and disaster management and, having worked in development programmes in Africa, Asia, Latin America, the Pacific and the Caribbean, Andrew Bennett (pictured) was a perfect candidate for the Board Chair.

“We are committed to the role that can be played by science in development, and to the Programme,” says Andrew. “We have offered advice and helped the Programme’s Consortium Committee and management refocus the Programme. By all accounts, they seem happy with how things have evolved.”

Advice and helping aren’t normally the words associated with how a Board works but, like so much of the GCP family, this isn’t a classical board.

Andrew explains “Because GCP is hosted by CIMMYT, the Board does not have to deal with any policy issues. That is the responsibility of the Consortium Committee. Our role is more to provide advice and to help with decision-making and implementation, which is great as we’ve been able to focus on the Programme’s science and people.”

That focus now turns to auditing the Programme and mapping a strategy to sustain its successful partnerships and systems, so they can continue to deliver products and capacity to the developing world.

Turning sunset to sunrise
With only two-and-a-half years left to run, Jean-Marcel and his team are working just as passionately on sustaining the partnerships, projects and outputs that GCP has created.

“We knew we weren’t going to be around forever, so we had a plan from early on to hand over the managerial reins to other institutes, including CGIAR,” says Jean-Marcel, with the slight affliction of a parent helping their child move out of home.

“We have begun integrating projects into the CGIAR Research Programmes (CRPs) which we hope will allow them to continue to grow and work effectively towards the goals set.”

At the same time, the Management Team, Committee and Board are all busy auditing the successes and failures of the Programme to quantify the achievements of what has been termed as one of the CGIAR’s more successful Challenge Programmes, and on how to make GCP products freely accessible to other research institutes and programmes.

Relevant links

Links to external websites

 

cheap ghd australia