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GPC initiative Archives - The Global Plant Council

Taking Care of Wildlings

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By Hannes Dempewolf

We at the Global Crop Diversity Trust care about wildlings! No, not the people beyond The Wall, but the wild cousins of our domesticated crops. By collecting, conserving and using wild crop relatives, we hope to be able to adapt agriculture to climate change. This project is funded by the Government of Norway, in partnership with the Millennium Seed Bank at Kew in the UK, and many national and international research institutes around the world.

The first step of this project was to map and analyze the distribution patterns of hundreds of crop wild relatives. Next, we identified global priorities for collecting, and are now providing support to our national partners to collect these wild species and use them in pre-breeding efforts. An example of a crop we have already started pre-breeding is eggplant (aubergine). This crop, important in developing countries, has many wild relatives, which we are using to develop varieties that can better withstand abiotic stresses and variable environments.

More recently we have started a discussion with the crop science community on how best to share our data and information about these species, and genetic resources more generally. This discourse that was at the heart of what has now become the DivSeek Initiative, a Global Plant Council initiative that you can read more about in this GPC blog post by Gurdev Khush.

Why should you care?

Good question. I couldn’t possibly answer it better than Sandy Knapp, one of the Project’s recent reviewers, who speaks in the video below.

One of the great leaders in the field, Jack Harlan, also recognized their immense value: “When the crop you live by is threatened you will turn to any source of relief you can find. In most cases, it is the wild relatives that salvage the situation, and we can point very specifically to several examples in which genes from wild relatives stand between man and starvation or economic ruin.”

Oryza

Wild rice, Oryza officinalis, is being used to adapt commercial rice cultivars to climate change. Photo credit: IRRI photos, used under Creative Commons License 2.0

Crop wild relatives have indeed been used for many decades to improve crops and their value is well recognized by breeders. This is increasingly true also for abiotic stress tolerances, particularly relevant if we care about adapting our agricultural systems to climate change. One such example is the use of a wild rice (Oryza officinalis) to change the flowering time of the rice cultivar Koshihikari (Oryza sativa) to avoid the hottest part of the day.

Share the care

Fostering the community of those who care about crop wild relatives is an important objective of the project. We make sure that all the germplasm collected by partners is accessible to the global community for research and breeding, within the framework of the International Treaty on Plant Genetic Resources for Food and Agriculture (the ‘Plant Treaty’). The project invests into building capacity into collecting: it’s not as simple a process as it may sound. The following shows the training in collection in Uganda:

We also put a heavy emphasis on technology transfer and the development of lasting partnerships in all of the pre-breeding projects we support.

The only way we can safeguard and reap the benefits of the genetic diversity of crop wild relatives over the long term is by supporting a vibrant, committed community.  We hope you agree, and encourage you to get in touch via cropwildrelatives@croptrust.org.

To find out more about the Crop Trust and how you can take action to help conserve crop diversity for food security, please visit our webpage. For more information about the Crop Wild Relatives project, please visit www.cwrdiversity.org.

 

Biofortification

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Approaches to biofortification

Biofortification is the improvement of the nutritional value of our crops through both traditional breeding and genetic engineering. Alongside DivSeek and Stress Resilience, biofortification is one of the Global Plant Council’s three main initiatives and will be central to addressing many of the challenges facing world health. However, biofortification doesn’t always involve changing our crops in some way. Often the nutrients we are lacking are present in pre-existing crops. We can biofortify our diets simply by identifying what’s missing and altering our life style accordingly.

Tackling undernourishment

The share

The share (%) of undernourished people per country. From: Max Roser (2015) -‘Hunger and Undernourishment’. Published online at www.OurWorldInData.org

More often that not we intuitively link biofortification with tackling undernourishment in the developing world, and indeed improvements in the diets of deprived communities would be of enormous benefit to global health.

To do this, a key challenge is to increase the nutrient content of staple food crops such as rice in Asia and maize in sub-Saharan Africa. We need to do this in a sustainable and affordable way; ensuring foods are accessible to those who need it. Alongside the fortification of staple crops we need to identify economical crop species that will grow in harsh environments and provide nutrients currently absent from the diet.

Addressing obesity

It is easy to forget that malnutrition is also a problem in developed countries. Worldwide, at least 2.8 million people per year die from obesity-related illnesses, and in 2011 more than 40 million children under the age of five were overweight. Obesity and related health problems such as diabetes, heart disease and certain cancers, place enormous strain on health services, and are partly a function of poor diet lacking in fibre and key phytonutrients. Addressing this is as important as tackling undernourishment, and many of the same principles apply.

Simple lifestyle changes, such as encouraging the consumption of more fruits and vegetables, are clearly a priority. In addition to this dietary change, if we are going to biofortify foods, there should be an emphasis on crops that are already widely consumed.

Purple tomatoes

Professor Cathie Martin

Professor Cathie Martin works at the John Innes Centre researching the link  between diet and health, and how crops could be fortified to improve our diets and global health.

Tomatoes, are one crop plant already eaten widely in the West, commonly found in fast and convenience foods. For this reason they became the focus of the work of Professor Cathie Martin at the John Innes Centre in Norwich, UK. Cathie’s lab has developed a genetically modified tomato that is rich in anthocyanins, making them purple in colour. Anthocyanins are an important dietary component that can have numerous health benefits, including a potentially significant role in the prevention of diseases such as cancer and diabetes. They are the compounds that give some foods, such as blueberries or eggplant, their distinctive blue or purple colouring. Consuming higher quantities could be highly beneficial to health.

“We focused on anthocyanins because of their huge potential health benefits. Pre-clinical studies show that introducing our purple tomatoes into the diet could be an incredibly effective way to protect against diseases such as cancer. Our next steps will be to confirm these findings in human trials,” says Cathie.

However, naturally occurring tomato varieties containing anthocyanins already exist. Wouldn’t it be better to increase consumption of these rather than creating new ones?

“Indeed purple tomatoes do occur naturally. However, these have anthocyanins only in the skin, in quantities too small to make a significant impact on health. Our genetically modified tomatoes have anthocyanins in all tissues,” explains Cathie.

Since developing the purple tomatoes, Cathie, in collaboration with Professor Jonathan Jones, has set up Norfolk Plant Sciences, the UK’s first GM crop company. However, resistance and uncertainty in Europe surrounding GM technology means that progress has been slow.

“The company was founded in 2007 and we are currently working towards the approval of our purple tomato juice in the USA. Producing just the juice rather than the entire fruit means there are no seeds in the final product. This eliminates environmental challenges without compromising health benefits. If the juice proves successful in the USA we may then work towards approval in the UK and Europe.”

It’s not all about Genetic Modification

Of course if we want to make drastic changes to our foods, such as increase anthocyanins in our tomatoes or carotenoids in our rice, GM technology will be a necessity. However, we can go some way to biofortifying our diets without the use of GM.

Golden rice

Golden rice, shown on the left, is a biofortified crop that accumulates high quantities of provitamin A in the grain. This could help tackle Vitamin A Deficiency in developing countries, from which 500,000 children become blind every year, and nine million will die of malnutrition. Photo credit: IRRI photos used under Creative Commons 2.0

Primarily we really need to focus on changing diet and lifestyle. Promoting plants rich in the nutritional components we need is essential, in addition to encouraging traditional diets such as the Mediterranean diet rich in fish, fruits and vegetables. However, changing people’s behavior and relationship with food is a huge challenge. Cathie cites the UK 5-A-Day governmental campaign as an example.

This campaign was aimed at encouraging people to eat five portions of fruit or vegetables a day. At the end of this 25-year campaign only 3% more of the UK population was getting their five a day.”

In addition to dietary change, we could biofortify our crops through traditional breeding. For example, one answer to increasing anthocyanins in the diet could be red wheat. Red wheat is rich in anthocyanins, and furthermore less susceptible to pre-harvest sprouting, which causes large crop losses every year for farmers. However, we have so far resisted selecting for this trait in wheat breeding programs as it is not considered esthetically pleasing. To improve our diets we may need to change our expectations of what we want our plates to look like.

Next steps

Plant scientists alone cannot tackle biofortification of our diets! Cathie believes the key to a healthier future is interdisciplinary research:

“Everyone needs to come together: nutritionists, epidemiologists, plant breeders, and plant scientists. However, with such a diverse group of people it is hard to reach agreement on the next steps, and equally as difficult to secure funding for research projects. We really need to promote collaboration and interaction between all groups in order to move forwards.”